ORF » Species Summary » Taeniopygia guttata » MAGI2 cDNA ORF clone

MAGI2 cDNA ORF clone, Taeniopygia guttata(zebra finch)

The following MAGI2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MAGI2 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OTd33846 XM_030263733.1
Latest version!		 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OTd33847 XM_030263734.1
Latest version!		 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OTd33848 XM_030263735.1
Latest version!		 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OTd33849 XM_030263736.1
Latest version!		 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OTd33850 XM_030263737.1
Latest version!		 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OTd33851 XM_030263738.1
Latest version!		 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OTd33852 XM_030263740.1
Latest version!		 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OTd33853 XM_030263741.1
Latest version!		 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OTd33854 XM_030263742.1
Latest version!		 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OTd19954 XM_012568848.1
Latest version!		 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd33841 XM_012568848.2
Latest version!		 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd33842 XM_030263729.1
Latest version!		 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd33843 XM_030263730.1
Latest version!		 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd33844 XM_030263731.1
Latest version!		 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd33845 XM_030263732.1
Latest version!		 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    MAGI2 ( XM_030263733.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030119593.1 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OTd33846
    Clone ID Related Accession (Same CDS sequence) XM_030263733.1
    Accession Version XM_030263733.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4482bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1565193600000
    Organism Taeniopygia guttata(zebra finch)
    Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCG TCCCGATTAC 
    AAGGAGCTGG ATGTTCACCT TCGGAGAATG GAGTCTGGGT TTGGCTTCAG GATCCTGGGA 
    GGAGATGAGC CTGGGCAGCC TATTCTCATC GGAGCAGTAA TTGCCATGGG CTCCGCAGAC 
    CGAGATGGTC GTCTCCATCC TGGGGATGAG CTGGTGTACG TAGATGGGAT CCCAGTGGCC 
    GGCAAAACCC ACCGATATGT GATTGATCTT ATGCATAATG CTGCCCGAAA CGGGCAGGTG 
    AATCTTACTG TGAGGAGAAA GGTGCTACCC ACAGGAGAAC CCTGCCCAGA GAATGGCAGA 
    AGCCCAGGCT CGGTGTCTAC ACACCACAGC TCTCCAAGAA GTGACTACAC GACCTATGCC 
    AACAGCAACC ACGCGGCCTC CGGCAGCAGC GCCACTCCCC CCGAGGGCTT CGCGTCGCAC 
    AGCCTGCAAA CCAGCGACGT GGTCATCCAC CGCAAGGAGA ACGAAGGCTT CGGCTTCGTC 
    ATCATCAGCT CCCTCAACAG GCCCGAGTCT GGCTCCACAA TAACTGTACC CCATAAAATA 
    GGGCGGATAA TTGATGGAAG CCCTGCGGAT CGCTGTGCAA AACTTAAAGT TGGAGACCGG 
    ATCTTAGCTG TGAATGGCCA GTCTATTATT AACATGCCTC ATGCAGATAT TGTGAAGCTA 
    ATTAAAGATG CAGGTCTCAG TGTAACTCTT CGCATCATTC CTCAGGAGGA GCTGAACAGC 
    CCAGCCTCGG CCCCCAGCTC GGAGAAGCAG AGCCCCATGG CCCAGCAGCA CAGCCCCATG 
    GCCCAGCAGA GTCCCCTGGC GCAGCAGAGC CCCGTCGCCC AGCACAGCCC CGTGGCCCAG 
    CCGCCACCTC CACAGCCCCT CCAGCCCCAG GGACACGAGA ACAGTTACAG GTCAGAAGTA 
    AAAGCCAGGC AGGATGTGAA GCCTGACATC CGGCAACCCC CGTTTACAGA CTACAGGCAA 
    TCCTCCACGG ACTACCGGCA GCCCCCGCTG GACTACCGGC ACCCGCCGGT GATGGATTAC 
    CAGCAGCCAC CGCCGCTGGA CTACAGGCAG CCCCCGCTGA TGGACTACAG GCAGCACTCC 
    CCTGACACCA GGCAGTTCCC CCTGTCCGAG TACAGGCAGC CCCAGGACTT TGATTATTTC 
    ACCGTTGATT TGGAGAAAGG AGCCAAAGGA TTTGGGTTTA GTATCCGAGG AGGAAGGGAG 
    TACAAAATGG ATTTGTATGT GTTGAGGTTA GCAGAAGATG GACCAGCAGT AAGAAATGGA 
    AGGATGAGGG TAGGAGATCA AATAATTGAA ATCAATGGAG AAAGCACAAG GGACATGACA 
    CATGCCAGAG CAATAGAGCT AATCAAGTCT GGTGGCAGAA GAGTGCGACT GTTGTTGAAA 
    CGTGGAACAG GCCAGGTCCC AGAATATGAC GAGCCAAACT CCTGGAGTGC TCCCTCTGCC 
    ACCGCCCCAG GTCTGCCGGA AGTAGCTCTT TCCCTCGACG ACATAATCTC ACCATTATCT 
    TCATCACACA TAGCCCCACC CTCTGACCCT TCTCACCAGA TAAGCCCAGA ACCAACATGG 
    GATATCAAGA GGGAACACGA TATAAGGAAA CCAAAGGAGC TTTCGGTGAA CGGTCACAAA 
    AAGAAAAGGT TAGGAGAACA AAGAGAAAGG TCAGCAAGTC CTAAAAAGGT AGACAGGTCA 
    AAGCACGAAG AGGCTTCTTG GAAAGGATAT TCAGGAGGCA AAAGTAAGAC CACTGATGGT 
    GGCAGGCCCA CCTCAGAAAG CAAAGCGGTG GGACACAGCG TTATGATCGA GGCTGGCGCA 
    AGAGAGCACG TGTGTGCTGG AACCAGTGAT GAACAGTTTG GGAGGCTGAG GAAGCCAGAA 
    AGCAAGAGAG GAGGATCTCT TAGCAAAAAA GATCACAGAT CCACAAACAC CTGTGAGAAG 
    TCAGCTGCAG CACCCGACCA TGTCAAGACC GATACAGGAG CTACCAAGAC TTACAGTAGC 
    AACCGCTGCA GCTCGCCTGG AAGTGATATG GACCACAGCC AGAGGGACCC TGATGGGAAA 
    CCCAGCGAGT TCCCCAGGAA GGGACATCTC CACTCCATTA GCACTCGCAG CACCAACACC 
    ACAGTTCGAA AGGCAACGGT CTCTCCAGGG CCGTGGAAAA TCCCTGGCTC AGATAAGCTA 
    CCAAGCGTCC TGAAGTCTGG TACTTCTGCC ATGAGCAGAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_030119593.1
    CDS266..4747
    Translation

    Target ORF information:

    RefSeq Version XM_030263733.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030263733.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCG TCCCGATTAC 
    AAGGAGCTGG ATGTTCACCT TCGGAGAATG GAGTCTGGGT TTGGCTTCAG GATCCTGGGA 
    GGAGATGAGC CTGGGCAGCC TATTCTCATC GGAGCAGTAA TTGCCATGGG CTCCGCAGAC 
    CGAGATGGTC GTCTCCATCC TGGGGATGAG CTGGTGTACG TAGATGGGAT CCCAGTGGCC 
    GGCAAAACCC ACCGATATGT GATTGATCTT ATGCATAATG CTGCCCGAAA CGGGCAGGTG 
    AATCTTACTG TGAGGAGAAA GGTGCTACCC ACAGGAGAAC CCTGCCCAGA GAATGGCAGA 
    AGCCCAGGCT CGGTGTCTAC ACACCACAGC TCTCCAAGAA GTGACTACAC GACCTATGCC 
    AACAGCAACC ACGCGGCCTC CGGCAGCAGC GCCACTCCCC CCGAGGGCTT CGCGTCGCAC 
    AGCCTGCAAA CCAGCGACGT GGTCATCCAC CGCAAGGAGA ACGAAGGCTT CGGCTTCGTC 
    ATCATCAGCT CCCTCAACAG GCCCGAGTCT GGCTCCACAA TAACTGTACC CCATAAAATA 
    GGGCGGATAA TTGATGGAAG CCCTGCGGAT CGCTGTGCAA AACTTAAAGT TGGAGACCGG 
    ATCTTAGCTG TGAATGGCCA GTCTATTATT AACATGCCTC ATGCAGATAT TGTGAAGCTA 
    ATTAAAGATG CAGGTCTCAG TGTAACTCTT CGCATCATTC CTCAGGAGGA GCTGAACAGC 
    CCAGCCTCGG CCCCCAGCTC GGAGAAGCAG AGCCCCATGG CCCAGCAGCA CAGCCCCATG 
    GCCCAGCAGA GTCCCCTGGC GCAGCAGAGC CCCGTCGCCC AGCACAGCCC CGTGGCCCAG 
    CCGCCACCTC CACAGCCCCT CCAGCCCCAG GGACACGAGA ACAGTTACAG GTCAGAAGTA 
    AAAGCCAGGC AGGATGTGAA GCCTGACATC CGGCAACCCC CGTTTACAGA CTACAGGCAA 
    TCCTCCACGG ACTACCGGCA GCCCCCGCTG GACTACCGGC ACCCGCCGGT GATGGATTAC 
    CAGCAGCCAC CGCCGCTGGA CTACAGGCAG CCCCCGCTGA TGGACTACAG GCAGCACTCC 
    CCTGACACCA GGCAGTTCCC CCTGTCCGAG TACAGGCAGC CCCAGGACTT TGATTATTTC 
    ACCGTTGATT TGGAGAAAGG AGCCAAAGGA TTTGGGTTTA GTATCCGAGG AGGAAGGGAG 
    TACAAAATGG ATTTGTATGT GTTGAGGTTA GCAGAAGATG GACCAGCAGT AAGAAATGGA 
    AGGATGAGGG TAGGAGATCA AATAATTGAA ATCAATGGAG AAAGCACAAG GGACATGACA 
    CATGCCAGAG CAATAGAGCT AATCAAGTCT GGTGGCAGAA GAGTGCGACT GTTGTTGAAA 
    CGTGGAACAG GCCAGGTCCC AGAATATGAC GAGCCAAACT CCTGGAGTGC TCCCTCTGCC 
    ACCGCCCCAG GTCTGCCGGA AGTAGCTCTT TCCCTCGACG ACATAATCTC ACCATTATCT 
    TCATCACACA TAGCCCCACC CTCTGACCCT TCTCACCAGA TAAGCCCAGA ACCAACATGG 
    GATATCAAGA GGGAACACGA TATAAGGAAA CCAAAGGAGC TTTCGGTGAA CGGTCACAAA 
    AAGAAAAGGT TAGGAGAACA AAGAGAAAGG TCAGCAAGTC CTAAAAAGGT AGACAGGTCA 
    AAGCACGAAG AGGCTTCTTG GAAAGGATAT TCAGGAGGCA AAAGTAAGAC CACTGATGGT 
    GGCAGGCCCA CCTCAGAAAG CAAAGCGGTG GGACACAGCG TTATGATCGA GGCTGGCGCA 
    AGAGAGCACG TGTGTGCTGG AACCAGTGAT GAACAGTTTG GGAGGCTGAG GAAGCCAGAA 
    AGCAAGAGAG GAGGATCTCT TAGCAAAAAA GATCACAGAT CCACAAACAC CTGTGAGAAG 
    TCAGCTGCAG CACCCGACCA TGTCAAGACC GATACAGGAG CTACCAAGAC TTACAGTAGC 
    AACCGCTGCA GCTCGCCTGG AAGTGATATG GACCACAGCC AGAGGGACCC TGATGGGAAA 
    CCCAGCGAGT TCCCCAGGAA GGGACATCTC CACTCCATTA GCACTCGCAG CACCAACACC 
    ACAGTTCGAA AGGCAACGGT CTCTCCAGGG CCGTGGAAAA TCCCTGGCTC AGATAAGCTA 
    CCAAGCGTCC TGAAGTCTGG TACTTCTGCC ATGAGCAGAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    MAGI2 ( XM_030263734.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030119594.1 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OTd33847
    Clone ID Related Accession (Same CDS sequence) XM_030263734.1
    Accession Version XM_030263734.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4122bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1565193600000
    Organism Taeniopygia guttata(zebra finch)
    Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGAATTGG AGAAAAGTGG TGCTCTCCTA GAAAGTGGAA CATATGAAGA CAACTATTAC 
    GGCACTCCAA AGCCTCCAGC AGAACCGGCT CCGTTGCTGT TAAATGTGAC AGACCAGATC 
    CTCCCAGGCG CCACTCCCGG GGCTGAAGGC AAGCGTAAAA GGAATAAGTC TGTGAGCAAT 
    ATGGAGAAGA CAGGCATTGA ACCACCAGAG GAAGAAGAGG AAGAAAGACC TGTGGTCAAT 
    GGAAATGACG TGACAGTAAC ACCAGAATCG AGTGAACATG AAGAGAAGAG TACAGCTGTC 
    TCGGGTGAGG CATCTACCAC CCAGCCTTGT CCTGCACCAG GATATGGTCA GCCTGAAGAA 
    GCAAAGGAGG ATATGGATGT AACAAAACAG ACTAAACCTG AAGAGAATGA TGACTTGGGC 
    CCACTGCCTG ATAACTGGGA AATGGCTTAT ACAGAAAAGG GGGAAGTGTA CTTTATTGAC 
    CATAACACAA AGACAACATC ATGGCTGGAT CCACGACTTG CGAAAAAGGC TAAACCTCCA 
    GAAGAGTGCA AAGAAAATGA GCTTCCATAT GGCTGGGAGA AAATTGATGA TCCCATTTAT 
    GGCACTTATT ATGTTGACCA CATAAATAGA AGAACTCAAT TTGAAAACCC TGTCCTAGAA 
    GCAAAAAGGA AGCTACAGCA GCATAACATG CCCAACGCAG AACTTGGAAC AAAGCCTATG 
    CAGGCCCAAG GTTTCCGAGA AAAACCACTC TTCACCCGTG ATGCATCACA GCTGAAGGGG 
    ACTTTCCTCA GCACAACTCT TAAGAAAAGC AACATGGGTT TTGGATTTAC CATCATTGGT 
    GGGGATGAGC CGGATGAGTT TCTCCAGGTG AAGAGTGTAA TTCCTGATGG GCCTGCAGCA 
    CAAGATGGGA AAATGGAAAC AGGTGATGTG ATTGTCTATA TTAATGAAGT TTGTGTCCTT 
    GGACATACTC ACGCAGATGT AGTCAAACTC TTCCAGTCTG TTCCTATTGG TCAGAGTGTC 
    AACTTGGTGC TATGTCGTGG ATACCCTTTG CCCTTTGATC CTGAAGATCC TGCCAACAGC 
    ATGGTGCCAC CCCTTGCAGT AATGGAGAGG CCTCCGGTAG TGGTAAATGG AAGACATAAC 
    TATGAAACTT ATTTGGAATA CATTTCTAGG ACTTCTCAGT CTGTTCCAGA CGTAACAGAT 
    CGACCACCAC ACTCCTTGCA CTCCATTCCA GCAGATAGTC AGCTTGATAG CACATTCCCA 
    CCACCTGCCC ATGATGATAA TGTATCAATG GCTTCTTCTG GGGCCACCCA AGCTGAACTC 
    ATGACCTTAA CCATTGTGAA AGGGGCCCAG GGCTTTGGCT TCACTATAGC AGACAGTCCT 
    ACAGGACAGA GGGTGAAGCA AATTCTAGAC ATTCAGGGAT GTCCTGGTTT GTGTGAAGGT 
    GACCTCATTG TTGAGATCAA CCAGCAGAAT GTACAGAACC TGAGCCATGC AGAAGTAGTG 
    GATATACTTA AAGAATGTCC TGTTGGAAGT GAAACTTCTT TGATTATCCA TAGAGGAGGT 
    TTCTTTTCTC CATGGAAAAC TCCAAAGCCT ATGATGGAAC GATGGGAGAA TCAAGGCAGC 
    CCTCAAACAA GTGTGTCTGC TCCAGCTATG CCACAGAATA TTCCCTATCC ACCCACTCTT 
    CACAGGAGTT CATTTCCTGA TTCAACAGAG GCCTTTGATC CACGAAAACC TGACCCGTAT 
    GAGCTGTATG AGAAATCAAG AGCTATTTAT GAAAGTAGGC AACAAGTGCT GCCCAGGACT 
    GGTTTTCGAG CGGATTCCTC TGGTCCCGAT TACAAGGAGC TGGATGTTCA CCTTCGGAGA 
    ATGGAGTCTG GGTTTGGCTT CAGGATCCTG GGAGGAGATG AGCCTGGGCA GCCTATTCTC 
    ATCGGAGCAG TAATTGCCAT GGGCTCCGCA GACCGAGATG GTCGTCTCCA TCCTGGGGAT 
    GAGCTGGTGT ACGTAGATGG GATCCCAGTG GCCGGCAAAA CCCACCGATA TGTGATTGAT 
    CTTATGCATA ATGCTGCCCG AAACGGGCAG GTGAATCTTA CTGTGAGGAG AAAGGTGCTA 
    CCCACAGAGT CCTCCAGCCA GAAAGGTGCC CCCGCGCCCG GTGCGACGCC CCCTCGCAGC 
    TCCCCCAGCG CGAGGAAAAT GGCCAATAAC CAAGGAGAAC CCTGCCCAGA GAATGGCAGA 
    AGCCCAGGCT CGGTGTCTAC ACACCACAGC TCTCCAAGAA GTGACTACAC GACCTATGCC 
    AACAGCAACC ACGCGGCCTC CGGCAGCAGC GCCACTCCCC CCGAGGGCTT CGCGTCGCAC 
    AGCCTGCAAA CCAGCGACGT GGTCATCCAC CGCAAGGAGA ACGAAGGCTT CGGCTTCGTC 
    ATCATCAGCT CCCTCAACAG GCCCGAGTCT GGCTCCACAA TAACTGTACC CCATAAAATA 
    GGGCGGATAA TTGATGGAAG CCCTGCGGAT CGCTGTGCAA AACTTAAAGT TGGAGACCGG 
    ATCTTAGCTG TGAATGGCCA GTCTATTATT AACATGCCTC ATGCAGATAT TGTGAAGCTA 
    ATTAAAGATG CAGGTCTCAG TGTAACTCTT CGCATCATTC CTCAGGAGGA GCTGAACAGC 
    CCAGCCTCGG CCCCCAGCTC GGAGAAGCAG AGCCCCATGG CCCAGCAGCA CAGCCCCATG 
    GCCCAGCAGA GTCCCCTGGC GCAGCAGAGC CCCGTCGCCC AGCACAGCCC CGTGGCCCAG 
    CCGCCACCTC CACAGCCCCT CCAGCCCCAG GGACACGAGA ACAGTTACAG GTCAGAAGTA 
    AAAGCCAGGC AGGATGTGAA GCCTGACATC CGGCAACCCC CGTTTACAGA CTACAGGCAA 
    TCCTCCACGG ACTACCGGCA GCCCCCGCTG GACTACCGGC ACCCGCCGGT GATGGATTAC 
    CAGCAGCCAC CGCCGCTGGA CTACAGGCAG CCCCCGCTGA TGGACTACAG GCAGCACTCC 
    CCTGACACCA GGCAGTTCCC CCTGTCCGAG TACAGGCAGC CCCAGGACTT TGATTATTTC 
    ACCGTTGATT TGGAGAAAGG AGCCAAAGGA TTTGGGTTTA GTATCCGAGG AGGAAGGGAG 
    TACAAAATGG ATTTGTATGT GTTGAGGTTA GCAGAAGATG GACCAGCAGT AAGAAATGGA 
    AGGATGAGGG TAGGAGATCA AATAATTGAA ATCAATGGAG AAAGCACAAG GGACATGACA 
    CATGCCAGAG CAATAGAGCT AATCAAGTCT GGTGGCAGAA GAGTGCGACT GTTGTTGAAA 
    CGTGGAACAG GCCAGGTCCC AGAATATGAC GAGCCAAACT CCTGGAGTGC TCCCTCTGCC 
    ACCGCCCCAG GTCTGCCGGA AGTAGCTCTT TCCCTCGACG ACATAATCTC ACCATTATCT 
    TCATCACACA TAGCCCCACC CTCTGACCCT TCTCACCAGA TAAGCCCAGA ACCAACATGG 
    GATATCAAGA GGGAACACGA TATAAGGAAA CCAAAGGAGC TTTCGGTGAA CGGTCACAAA 
    AAGAAAAGGT TAGGAGAACA AAGAGAAAGG TCAGCAAGTC CTAAAAAGGT AGACAGGTCA 
    AAGCACGAAG AGGCTTCTTG GAAAGGATAT TCAGGAGGCA AAAGTAAGAC CACTGATGGT 
    GGCAGGCCCA CCTCAGAAAG CAAAGCGGTG GGACACAGCG TTATGATCGA GGCTGGCGCA 
    AGAGAGCACG TGTGTGCTGG AACCAGTGAT GAACAGTTTG GGAGGCTGAG GAAGCCAGAA 
    AGCAAGAGAG GAGGATCTCT TAGCAAAAAA GATCACAGAT CCACAAACAC CTGTGAGAAG 
    TCAGCTGCAG CACCCGACCA TGTCAAGACC GATACAGGAG CTACCAAGAC TTACAGTAGC 
    AACCGCTGCA GCTCGCCTGG AAGTGATATG GACCACAGCC AGAGGGACCC TGATGGGAAA 
    CCCAGCGAGT TCCCCAGGAA GGGACATCTC CACTCCATTA GCACTCGCAG CACCAACACC 
    ACAGTTCGAA AGGCAACGGT CTCTCCAGGG CCGTGGAAAA TCCCTGGCTC AGATAAGCTA 
    CCAAGCGTCC TGAAGTCTGG TACTTCTGCC ATGAGCAGAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_030119594.1
    CDS556..4677
    Translation

    Target ORF information:

    RefSeq Version XM_030263734.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030263734.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    ATGGAATTGG AGAAAAGTGG TGCTCTCCTA GAAAGTGGAA CATATGAAGA CAACTATTAC 
    GGCACTCCAA AGCCTCCAGC AGAACCGGCT CCGTTGCTGT TAAATGTGAC AGACCAGATC 
    CTCCCAGGCG CCACTCCCGG GGCTGAAGGC AAGCGTAAAA GGAATAAGTC TGTGAGCAAT 
    ATGGAGAAGA CAGGCATTGA ACCACCAGAG GAAGAAGAGG AAGAAAGACC TGTGGTCAAT 
    GGAAATGACG TGACAGTAAC ACCAGAATCG AGTGAACATG AAGAGAAGAG TACAGCTGTC 
    TCGGGTGAGG CATCTACCAC CCAGCCTTGT CCTGCACCAG GATATGGTCA GCCTGAAGAA 
    GCAAAGGAGG ATATGGATGT AACAAAACAG ACTAAACCTG AAGAGAATGA TGACTTGGGC 
    CCACTGCCTG ATAACTGGGA AATGGCTTAT ACAGAAAAGG GGGAAGTGTA CTTTATTGAC 
    CATAACACAA AGACAACATC ATGGCTGGAT CCACGACTTG CGAAAAAGGC TAAACCTCCA 
    GAAGAGTGCA AAGAAAATGA GCTTCCATAT GGCTGGGAGA AAATTGATGA TCCCATTTAT 
    GGCACTTATT ATGTTGACCA CATAAATAGA AGAACTCAAT TTGAAAACCC TGTCCTAGAA 
    GCAAAAAGGA AGCTACAGCA GCATAACATG CCCAACGCAG AACTTGGAAC AAAGCCTATG 
    CAGGCCCAAG GTTTCCGAGA AAAACCACTC TTCACCCGTG ATGCATCACA GCTGAAGGGG 
    ACTTTCCTCA GCACAACTCT TAAGAAAAGC AACATGGGTT TTGGATTTAC CATCATTGGT 
    GGGGATGAGC CGGATGAGTT TCTCCAGGTG AAGAGTGTAA TTCCTGATGG GCCTGCAGCA 
    CAAGATGGGA AAATGGAAAC AGGTGATGTG ATTGTCTATA TTAATGAAGT TTGTGTCCTT 
    GGACATACTC ACGCAGATGT AGTCAAACTC TTCCAGTCTG TTCCTATTGG TCAGAGTGTC 
    AACTTGGTGC TATGTCGTGG ATACCCTTTG CCCTTTGATC CTGAAGATCC TGCCAACAGC 
    ATGGTGCCAC CCCTTGCAGT AATGGAGAGG CCTCCGGTAG TGGTAAATGG AAGACATAAC 
    TATGAAACTT ATTTGGAATA CATTTCTAGG ACTTCTCAGT CTGTTCCAGA CGTAACAGAT 
    CGACCACCAC ACTCCTTGCA CTCCATTCCA GCAGATAGTC AGCTTGATAG CACATTCCCA 
    CCACCTGCCC ATGATGATAA TGTATCAATG GCTTCTTCTG GGGCCACCCA AGCTGAACTC 
    ATGACCTTAA CCATTGTGAA AGGGGCCCAG GGCTTTGGCT TCACTATAGC AGACAGTCCT 
    ACAGGACAGA GGGTGAAGCA AATTCTAGAC ATTCAGGGAT GTCCTGGTTT GTGTGAAGGT 
    GACCTCATTG TTGAGATCAA CCAGCAGAAT GTACAGAACC TGAGCCATGC AGAAGTAGTG 
    GATATACTTA AAGAATGTCC TGTTGGAAGT GAAACTTCTT TGATTATCCA TAGAGGAGGT 
    TTCTTTTCTC CATGGAAAAC TCCAAAGCCT ATGATGGAAC GATGGGAGAA TCAAGGCAGC 
    CCTCAAACAA GTGTGTCTGC TCCAGCTATG CCACAGAATA TTCCCTATCC ACCCACTCTT 
    CACAGGAGTT CATTTCCTGA TTCAACAGAG GCCTTTGATC CACGAAAACC TGACCCGTAT 
    GAGCTGTATG AGAAATCAAG AGCTATTTAT GAAAGTAGGC AACAAGTGCT GCCCAGGACT 
    GGTTTTCGAG CGGATTCCTC TGGTCCCGAT TACAAGGAGC TGGATGTTCA CCTTCGGAGA 
    ATGGAGTCTG GGTTTGGCTT CAGGATCCTG GGAGGAGATG AGCCTGGGCA GCCTATTCTC 
    ATCGGAGCAG TAATTGCCAT GGGCTCCGCA GACCGAGATG GTCGTCTCCA TCCTGGGGAT 
    GAGCTGGTGT ACGTAGATGG GATCCCAGTG GCCGGCAAAA CCCACCGATA TGTGATTGAT 
    CTTATGCATA ATGCTGCCCG AAACGGGCAG GTGAATCTTA CTGTGAGGAG AAAGGTGCTA 
    CCCACAGAGT CCTCCAGCCA GAAAGGTGCC CCCGCGCCCG GTGCGACGCC CCCTCGCAGC 
    TCCCCCAGCG CGAGGAAAAT GGCCAATAAC CAAGGAGAAC CCTGCCCAGA GAATGGCAGA 
    AGCCCAGGCT CGGTGTCTAC ACACCACAGC TCTCCAAGAA GTGACTACAC GACCTATGCC 
    AACAGCAACC ACGCGGCCTC CGGCAGCAGC GCCACTCCCC CCGAGGGCTT CGCGTCGCAC 
    AGCCTGCAAA CCAGCGACGT GGTCATCCAC CGCAAGGAGA ACGAAGGCTT CGGCTTCGTC 
    ATCATCAGCT CCCTCAACAG GCCCGAGTCT GGCTCCACAA TAACTGTACC CCATAAAATA 
    GGGCGGATAA TTGATGGAAG CCCTGCGGAT CGCTGTGCAA AACTTAAAGT TGGAGACCGG 
    ATCTTAGCTG TGAATGGCCA GTCTATTATT AACATGCCTC ATGCAGATAT TGTGAAGCTA 
    ATTAAAGATG CAGGTCTCAG TGTAACTCTT CGCATCATTC CTCAGGAGGA GCTGAACAGC 
    CCAGCCTCGG CCCCCAGCTC GGAGAAGCAG AGCCCCATGG CCCAGCAGCA CAGCCCCATG 
    GCCCAGCAGA GTCCCCTGGC GCAGCAGAGC CCCGTCGCCC AGCACAGCCC CGTGGCCCAG 
    CCGCCACCTC CACAGCCCCT CCAGCCCCAG GGACACGAGA ACAGTTACAG GTCAGAAGTA 
    AAAGCCAGGC AGGATGTGAA GCCTGACATC CGGCAACCCC CGTTTACAGA CTACAGGCAA 
    TCCTCCACGG ACTACCGGCA GCCCCCGCTG GACTACCGGC ACCCGCCGGT GATGGATTAC 
    CAGCAGCCAC CGCCGCTGGA CTACAGGCAG CCCCCGCTGA TGGACTACAG GCAGCACTCC 
    CCTGACACCA GGCAGTTCCC CCTGTCCGAG TACAGGCAGC CCCAGGACTT TGATTATTTC 
    ACCGTTGATT TGGAGAAAGG AGCCAAAGGA TTTGGGTTTA GTATCCGAGG AGGAAGGGAG 
    TACAAAATGG ATTTGTATGT GTTGAGGTTA GCAGAAGATG GACCAGCAGT AAGAAATGGA 
    AGGATGAGGG TAGGAGATCA AATAATTGAA ATCAATGGAG AAAGCACAAG GGACATGACA 
    CATGCCAGAG CAATAGAGCT AATCAAGTCT GGTGGCAGAA GAGTGCGACT GTTGTTGAAA 
    CGTGGAACAG GCCAGGTCCC AGAATATGAC GAGCCAAACT CCTGGAGTGC TCCCTCTGCC 
    ACCGCCCCAG GTCTGCCGGA AGTAGCTCTT TCCCTCGACG ACATAATCTC ACCATTATCT 
    TCATCACACA TAGCCCCACC CTCTGACCCT TCTCACCAGA TAAGCCCAGA ACCAACATGG 
    GATATCAAGA GGGAACACGA TATAAGGAAA CCAAAGGAGC TTTCGGTGAA CGGTCACAAA 
    AAGAAAAGGT TAGGAGAACA AAGAGAAAGG TCAGCAAGTC CTAAAAAGGT AGACAGGTCA 
    AAGCACGAAG AGGCTTCTTG GAAAGGATAT TCAGGAGGCA AAAGTAAGAC CACTGATGGT 
    GGCAGGCCCA CCTCAGAAAG CAAAGCGGTG GGACACAGCG TTATGATCGA GGCTGGCGCA 
    AGAGAGCACG TGTGTGCTGG AACCAGTGAT GAACAGTTTG GGAGGCTGAG GAAGCCAGAA 
    AGCAAGAGAG GAGGATCTCT TAGCAAAAAA GATCACAGAT CCACAAACAC CTGTGAGAAG 
    TCAGCTGCAG CACCCGACCA TGTCAAGACC GATACAGGAG CTACCAAGAC TTACAGTAGC 
    AACCGCTGCA GCTCGCCTGG AAGTGATATG GACCACAGCC AGAGGGACCC TGATGGGAAA 
    CCCAGCGAGT TCCCCAGGAA GGGACATCTC CACTCCATTA GCACTCGCAG CACCAACACC 
    ACAGTTCGAA AGGCAACGGT CTCTCCAGGG CCGTGGAAAA TCCCTGGCTC AGATAAGCTA 
    CCAAGCGTCC TGAAGTCTGG TACTTCTGCC ATGAGCAGAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    MAGI2 ( XM_030263735.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030119595.1 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OTd33848
    Clone ID Related Accession (Same CDS sequence) XM_030263735.1
    Accession Version XM_030263735.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3975bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1565193600000
    Organism Taeniopygia guttata(zebra finch)
    Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTTTCTTTT CTCCATGGAA AACTCCAAAG 
    CCTATGATGG AACGATGGGA GAATCAAGGC AGCCCTCAAA CAAGTGTGTC TGCTCCAGCT 
    ATGCCACAGA ATATTCCCTA TCCACCCACT CTTCACAGGA GTTCATTTCC TGATTCAACA 
    GAGGCCTTTG ATCCACGAAA ACCTGACCCG TATGAGCTGT ATGAGAAATC AAGAGCTATT 
    TATGAAAGTA GGCAACAAGT GCTGCCCAGG ACTGGTTTTC GAGCGGATTC CTCTGGTCCC 
    GATTACAAGG AGCTGGATGT TCACCTTCGG AGAATGGAGT CTGGGTTTGG CTTCAGGATC 
    CTGGGAGGAG ATGAGCCTGG GCAGCCTATT CTCATCGGAG CAGTAATTGC CATGGGCTCC 
    GCAGACCGAG ATGGTCGTCT CCATCCTGGG GATGAGCTGG TGTACGTAGA TGGGATCCCA 
    GTGGCCGGCA AAACCCACCG ATATGTGATT GATCTTATGC ATAATGCTGC CCGAAACGGG 
    CAGGTGAATC TTACTGTGAG GAGAAAGGTG CTACCCACAG AGTCCTCCAG CCAGAAAGGT 
    GCCCCCGCGC CCGGTGCGAC GCCCCCTCGC AGCTCCCCCA GCGCGAGGAA AATGGCCAAT 
    AACCAAGGAG AACCCTGCCC AGAGAATGGC AGAAGCCCAG GCTCGGTGTC TACACACCAC 
    AGCTCTCCAA GAAGTGACTA CACGACCTAT GCCAACAGCA ACCACGCGGC CTCCGGCAGC 
    AGCGCCACTC CCCCCGAGGG CTTCGCGTCG CACAGCCTGC AAACCAGCGA CGTGGTCATC 
    CACCGCAAGG AGAACGAAGG CTTCGGCTTC GTCATCATCA GCTCCCTCAA CAGGCCCGAG 
    TCTGGCTCCA CAATAACTGT ACCCCATAAA ATAGGGCGGA TAATTGATGG AAGCCCTGCG 
    GATCGCTGTG CAAAACTTAA AGTTGGAGAC CGGATCTTAG CTGTGAATGG CCAGTCTATT 
    ATTAACATGC CTCATGCAGA TATTGTGAAG CTAATTAAAG ATGCAGGTCT CAGTGTAACT 
    CTTCGCATCA TTCCTCAGGA GGAGCTGAAC AGCCCAGCCT CGGCCCCCAG CTCGGAGAAG 
    CAGAGCCCCA TGGCCCAGCA GCACAGCCCC ATGGCCCAGC AGAGTCCCCT GGCGCAGCAG 
    AGCCCCGTCG CCCAGCACAG CCCCGTGGCC CAGCCGCCAC CTCCACAGCC CCTCCAGCCC 
    CAGGGACACG AGAACAGTTA CAGGTCAGAA GTAAAAGCCA GGCAGGATGT GAAGCCTGAC 
    ATCCGGCAAC CCCCGTTTAC AGACTACAGG CAATCCTCCA CGGACTACCG GCAGCCCCCG 
    CTGGACTACC GGCACCCGCC GGTGATGGAT TACCAGCAGC CACCGCCGCT GGACTACAGG 
    CAGCCCCCGC TGATGGACTA CAGGCAGCAC TCCCCTGACA CCAGGCAGTT CCCCCTGTCC 
    GAGTACAGGC AGCCCCAGGA CTTTGATTAT TTCACCGTTG ATTTGGAGAA AGGAGCCAAA 
    GGATTTGGGT TTAGTATCCG AGGAGGAAGG GAGTACAAAA TGGATTTGTA TGTGTTGAGG 
    TTAGCAGAAG ATGGACCAGC AGTAAGAAAT GGAAGGATGA GGGTAGGAGA TCAAATAATT 
    GAAATCAATG GAGAAAGCAC AAGGGACATG ACACATGCCA GAGCAATAGA GCTAATCAAG 
    TCTGGTGGCA GAAGAGTGCG ACTGTTGTTG AAACGTGGAA CAGGCCAGGT CCCAGAATAT 
    GACGAGCCAA ACTCCTGGAG TGCTCCCTCT GCCACCGCCC CAGGTCTGCC GGAAGTAGCT 
    CTTTCCCTCG ACGACATAAT CTCACCATTA TCTTCATCAC ACATAGCCCC ACCCTCTGAC 
    CCTTCTCACC AGATAAGCCC AGAACCAACA TGGGATATCA AGAGGGAACA CGATATAAGG 
    AAACCAAAGG AGCTTTCGGT GAACGGTCAC AAAAAGAAAA GGTTAGGAGA ACAAAGAGAA 
    AGGTCAGCAA GTCCTAAAAA GGTAGACAGG TCAAAGCACG AAGAGGCTTC TTGGAAAGGA 
    TATTCAGGAG GCAAAAGTAA GACCACTGAT GGTGGCAGGC CCACCTCAGA AAGCAAAGCG 
    GTGGGACACA GCGTTATGAT CGAGGCTGGC GCAAGAGAGC ACGTGTGTGC TGGAACCAGT 
    GATGAACAGT TTGGGAGGCT GAGGAAGCCA GAAAGCAAGA GAGGAGGATC TCTTAGCAAA 
    AAAGATCACA GATCCACAAA CACCTGTGAG AAGTCAGCTG CAGCACCCGA CCATGTCAAG 
    ACCGATACAG GAGCTACCAA GACTTACAGT AGCAACCGCT GCAGCTCGCC TGGAAGTGAT 
    ATGGACCACA GCCAGAGGGA CCCTGATGGG AAACCCAGCG AGTTCCCCAG GAAGGGACAT 
    CTCCACTCCA TTAGCACTCG CAGCACCAAC ACCACAGTTC GAAAGGCAAC GGTCTCTCCA 
    GGGCCGTGGA AAATCCCTGG CTCAGATAAG CTACCAAGCG TCCTGAAGTC TGGTACTTCT 
    GCCATGAGCA GATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_030119595.1
    CDS266..4240
    Translation

    Target ORF information:

    RefSeq Version XM_030263735.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030263735.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTTTCTTTT CTCCATGGAA AACTCCAAAG 
    CCTATGATGG AACGATGGGA GAATCAAGGC AGCCCTCAAA CAAGTGTGTC TGCTCCAGCT 
    ATGCCACAGA ATATTCCCTA TCCACCCACT CTTCACAGGA GTTCATTTCC TGATTCAACA 
    GAGGCCTTTG ATCCACGAAA ACCTGACCCG TATGAGCTGT ATGAGAAATC AAGAGCTATT 
    TATGAAAGTA GGCAACAAGT GCTGCCCAGG ACTGGTTTTC GAGCGGATTC CTCTGGTCCC 
    GATTACAAGG AGCTGGATGT TCACCTTCGG AGAATGGAGT CTGGGTTTGG CTTCAGGATC 
    CTGGGAGGAG ATGAGCCTGG GCAGCCTATT CTCATCGGAG CAGTAATTGC CATGGGCTCC 
    GCAGACCGAG ATGGTCGTCT CCATCCTGGG GATGAGCTGG TGTACGTAGA TGGGATCCCA 
    GTGGCCGGCA AAACCCACCG ATATGTGATT GATCTTATGC ATAATGCTGC CCGAAACGGG 
    CAGGTGAATC TTACTGTGAG GAGAAAGGTG CTACCCACAG AGTCCTCCAG CCAGAAAGGT 
    GCCCCCGCGC CCGGTGCGAC GCCCCCTCGC AGCTCCCCCA GCGCGAGGAA AATGGCCAAT 
    AACCAAGGAG AACCCTGCCC AGAGAATGGC AGAAGCCCAG GCTCGGTGTC TACACACCAC 
    AGCTCTCCAA GAAGTGACTA CACGACCTAT GCCAACAGCA ACCACGCGGC CTCCGGCAGC 
    AGCGCCACTC CCCCCGAGGG CTTCGCGTCG CACAGCCTGC AAACCAGCGA CGTGGTCATC 
    CACCGCAAGG AGAACGAAGG CTTCGGCTTC GTCATCATCA GCTCCCTCAA CAGGCCCGAG 
    TCTGGCTCCA CAATAACTGT ACCCCATAAA ATAGGGCGGA TAATTGATGG AAGCCCTGCG 
    GATCGCTGTG CAAAACTTAA AGTTGGAGAC CGGATCTTAG CTGTGAATGG CCAGTCTATT 
    ATTAACATGC CTCATGCAGA TATTGTGAAG CTAATTAAAG ATGCAGGTCT CAGTGTAACT 
    CTTCGCATCA TTCCTCAGGA GGAGCTGAAC AGCCCAGCCT CGGCCCCCAG CTCGGAGAAG 
    CAGAGCCCCA TGGCCCAGCA GCACAGCCCC ATGGCCCAGC AGAGTCCCCT GGCGCAGCAG 
    AGCCCCGTCG CCCAGCACAG CCCCGTGGCC CAGCCGCCAC CTCCACAGCC CCTCCAGCCC 
    CAGGGACACG AGAACAGTTA CAGGTCAGAA GTAAAAGCCA GGCAGGATGT GAAGCCTGAC 
    ATCCGGCAAC CCCCGTTTAC AGACTACAGG CAATCCTCCA CGGACTACCG GCAGCCCCCG 
    CTGGACTACC GGCACCCGCC GGTGATGGAT TACCAGCAGC CACCGCCGCT GGACTACAGG 
    CAGCCCCCGC TGATGGACTA CAGGCAGCAC TCCCCTGACA CCAGGCAGTT CCCCCTGTCC 
    GAGTACAGGC AGCCCCAGGA CTTTGATTAT TTCACCGTTG ATTTGGAGAA AGGAGCCAAA 
    GGATTTGGGT TTAGTATCCG AGGAGGAAGG GAGTACAAAA TGGATTTGTA TGTGTTGAGG 
    TTAGCAGAAG ATGGACCAGC AGTAAGAAAT GGAAGGATGA GGGTAGGAGA TCAAATAATT 
    GAAATCAATG GAGAAAGCAC AAGGGACATG ACACATGCCA GAGCAATAGA GCTAATCAAG 
    TCTGGTGGCA GAAGAGTGCG ACTGTTGTTG AAACGTGGAA CAGGCCAGGT CCCAGAATAT 
    GACGAGCCAA ACTCCTGGAG TGCTCCCTCT GCCACCGCCC CAGGTCTGCC GGAAGTAGCT 
    CTTTCCCTCG ACGACATAAT CTCACCATTA TCTTCATCAC ACATAGCCCC ACCCTCTGAC 
    CCTTCTCACC AGATAAGCCC AGAACCAACA TGGGATATCA AGAGGGAACA CGATATAAGG 
    AAACCAAAGG AGCTTTCGGT GAACGGTCAC AAAAAGAAAA GGTTAGGAGA ACAAAGAGAA 
    AGGTCAGCAA GTCCTAAAAA GGTAGACAGG TCAAAGCACG AAGAGGCTTC TTGGAAAGGA 
    TATTCAGGAG GCAAAAGTAA GACCACTGAT GGTGGCAGGC CCACCTCAGA AAGCAAAGCG 
    GTGGGACACA GCGTTATGAT CGAGGCTGGC GCAAGAGAGC ACGTGTGTGC TGGAACCAGT 
    GATGAACAGT TTGGGAGGCT GAGGAAGCCA GAAAGCAAGA GAGGAGGATC TCTTAGCAAA 
    AAAGATCACA GATCCACAAA CACCTGTGAG AAGTCAGCTG CAGCACCCGA CCATGTCAAG 
    ACCGATACAG GAGCTACCAA GACTTACAGT AGCAACCGCT GCAGCTCGCC TGGAAGTGAT 
    ATGGACCACA GCCAGAGGGA CCCTGATGGG AAACCCAGCG AGTTCCCCAG GAAGGGACAT 
    CTCCACTCCA TTAGCACTCG CAGCACCAAC ACCACAGTTC GAAAGGCAAC GGTCTCTCCA 
    GGGCCGTGGA AAATCCCTGG CTCAGATAAG CTACCAAGCG TCCTGAAGTC TGGTACTTCT 
    GCCATGAGCA GATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    MAGI2 ( XM_030263736.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030119596.1 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OTd33849
    Clone ID Related Accession (Same CDS sequence) XM_030263736.1
    Accession Version XM_030263736.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3963bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1565193600000
    Organism Taeniopygia guttata(zebra finch)
    Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCA ACAAGTGCTG 
    CCCAGGACTG GTTTTCGAGC GGATTCCTCT GGTCCCGATT ACAAGGAGCT GGATGTTCAC 
    CTTCGGAGAA TGGAGTCTGG GTTTGGCTTC AGGATCCTGG GAGGAGATGA GCCTGGGCAG 
    CCTATTCTCA TCGGAGCAGT AATTGCCATG GGCTCCGCAG ACCGAGATGG TCGTCTCCAT 
    CCTGGGGATG AGCTGGTGTA CGTAGATGGG ATCCCAGTGG CCGGCAAAAC CCACCGATAT 
    GTGATTGATC TTATGCATAA TGCTGCCCGA AACGGGCAGG TGAATCTTAC TGTGAGGAGA 
    AAGGTGCTAC CCACAGAGTC CTCCAGCCAG AAAGGTGCCC CCGCGCCCGG TGCGACGCCC 
    CCTCGCAGCT CCCCCAGCGC GAGGAAAATG GCCAATAACC AAGGAGAACC CTGCCCAGAG 
    AATGGCAGAA GCCCAGGCTC GGTGTCTACA CACCACAGCT CTCCAAGAAG TGACTACACG 
    ACCTATGCCA ACAGCAACCA CGCGGCCTCC GGCAGCAGCG CCACTCCCCC CGAGGGCTTC 
    GCGTCGCACA GCCTGCAAAC CAGCGACGTG GTCATCCACC GCAAGGAGAA CGAAGGCTTC 
    GGCTTCGTCA TCATCAGCTC CCTCAACAGG CCCGAGTCTG GCTCCACAAT AACTGTACCC 
    CATAAAATAG GGCGGATAAT TGATGGAAGC CCTGCGGATC GCTGTGCAAA ACTTAAAGTT 
    GGAGACCGGA TCTTAGCTGT GAATGGCCAG TCTATTATTA ACATGCCTCA TGCAGATATT 
    GTGAAGCTAA TTAAAGATGC AGGTCTCAGT GTAACTCTTC GCATCATTCC TCAGGAGGAG 
    CTGAACAGCC CAGCCTCGGC CCCCAGCTCG GAGAAGCAGA GCCCCATGGC CCAGCAGCAC 
    AGCCCCATGG CCCAGCAGAG TCCCCTGGCG CAGCAGAGCC CCGTCGCCCA GCACAGCCCC 
    GTGGCCCAGC CGCCACCTCC ACAGCCCCTC CAGCCCCAGG GACACGAGAA CAGTTACAGG 
    TCAGAAGTAA AAGCCAGGCA GGATGTGAAG CCTGACATCC GGCAACCCCC GTTTACAGAC 
    TACAGGCAAT CCTCCACGGA CTACCGGCAG CCCCCGCTGG ACTACCGGCA CCCGCCGGTG 
    ATGGATTACC AGCAGCCACC GCCGCTGGAC TACAGGCAGC CCCCGCTGAT GGACTACAGG 
    CAGCACTCCC CTGACACCAG GCAGTTCCCC CTGTCCGAGT ACAGGCAGCC CCAGGACTTT 
    GATTATTTCA CCGTTGATTT GGAGAAAGGA GCCAAAGGAT TTGGGTTTAG TATCCGAGGA 
    GGAAGGGAGT ACAAAATGGA TTTGTATGTG TTGAGGTTAG CAGAAGATGG ACCAGCAGTA 
    AGAAATGGAA GGATGAGGGT AGGAGATCAA ATAATTGAAA TCAATGGAGA AAGCACAAGG 
    GACATGACAC ATGCCAGAGC AATAGAGCTA ATCAAGTCTG GTGGCAGAAG AGTGCGACTG 
    TTGTTGAAAC GTGGAACAGG CCAGGTCCCA GAATATGGAA TGGTACCTTC CAGTCTCTCC 
    ATGTGCATGA AAAGTGACAA GCATGGGTCC CCATATTTCT ACTTATTGGG CCACCCTAAA 
    GACACGACGA GCCAAACTCC TGGAGTGCTC CCTCTGCCAC CGCCCCAGGT CTGCCGGAAG 
    TAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_030119596.1
    CDS269..4231
    Translation

    Target ORF information:

    RefSeq Version XM_030263736.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030263736.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCA ACAAGTGCTG 
    CCCAGGACTG GTTTTCGAGC GGATTCCTCT GGTCCCGATT ACAAGGAGCT GGATGTTCAC 
    CTTCGGAGAA TGGAGTCTGG GTTTGGCTTC AGGATCCTGG GAGGAGATGA GCCTGGGCAG 
    CCTATTCTCA TCGGAGCAGT AATTGCCATG GGCTCCGCAG ACCGAGATGG TCGTCTCCAT 
    CCTGGGGATG AGCTGGTGTA CGTAGATGGG ATCCCAGTGG CCGGCAAAAC CCACCGATAT 
    GTGATTGATC TTATGCATAA TGCTGCCCGA AACGGGCAGG TGAATCTTAC TGTGAGGAGA 
    AAGGTGCTAC CCACAGAGTC CTCCAGCCAG AAAGGTGCCC CCGCGCCCGG TGCGACGCCC 
    CCTCGCAGCT CCCCCAGCGC GAGGAAAATG GCCAATAACC AAGGAGAACC CTGCCCAGAG 
    AATGGCAGAA GCCCAGGCTC GGTGTCTACA CACCACAGCT CTCCAAGAAG TGACTACACG 
    ACCTATGCCA ACAGCAACCA CGCGGCCTCC GGCAGCAGCG CCACTCCCCC CGAGGGCTTC 
    GCGTCGCACA GCCTGCAAAC CAGCGACGTG GTCATCCACC GCAAGGAGAA CGAAGGCTTC 
    GGCTTCGTCA TCATCAGCTC CCTCAACAGG CCCGAGTCTG GCTCCACAAT AACTGTACCC 
    CATAAAATAG GGCGGATAAT TGATGGAAGC CCTGCGGATC GCTGTGCAAA ACTTAAAGTT 
    GGAGACCGGA TCTTAGCTGT GAATGGCCAG TCTATTATTA ACATGCCTCA TGCAGATATT 
    GTGAAGCTAA TTAAAGATGC AGGTCTCAGT GTAACTCTTC GCATCATTCC TCAGGAGGAG 
    CTGAACAGCC CAGCCTCGGC CCCCAGCTCG GAGAAGCAGA GCCCCATGGC CCAGCAGCAC 
    AGCCCCATGG CCCAGCAGAG TCCCCTGGCG CAGCAGAGCC CCGTCGCCCA GCACAGCCCC 
    GTGGCCCAGC CGCCACCTCC ACAGCCCCTC CAGCCCCAGG GACACGAGAA CAGTTACAGG 
    TCAGAAGTAA AAGCCAGGCA GGATGTGAAG CCTGACATCC GGCAACCCCC GTTTACAGAC 
    TACAGGCAAT CCTCCACGGA CTACCGGCAG CCCCCGCTGG ACTACCGGCA CCCGCCGGTG 
    ATGGATTACC AGCAGCCACC GCCGCTGGAC TACAGGCAGC CCCCGCTGAT GGACTACAGG 
    CAGCACTCCC CTGACACCAG GCAGTTCCCC CTGTCCGAGT ACAGGCAGCC CCAGGACTTT 
    GATTATTTCA CCGTTGATTT GGAGAAAGGA GCCAAAGGAT TTGGGTTTAG TATCCGAGGA 
    GGAAGGGAGT ACAAAATGGA TTTGTATGTG TTGAGGTTAG CAGAAGATGG ACCAGCAGTA 
    AGAAATGGAA GGATGAGGGT AGGAGATCAA ATAATTGAAA TCAATGGAGA AAGCACAAGG 
    GACATGACAC ATGCCAGAGC AATAGAGCTA ATCAAGTCTG GTGGCAGAAG AGTGCGACTG 
    TTGTTGAAAC GTGGAACAGG CCAGGTCCCA GAATATGGAA TGGTACCTTC CAGTCTCTCC 
    ATGTGCATGA AAAGTGACAA GCATGGGTCC CCATATTTCT ACTTATTGGG CCACCCTAAA 
    GACACGACGA GCCAAACTCC TGGAGTGCTC CCTCTGCCAC CGCCCCAGGT CTGCCGGAAG 
    TAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    MAGI2 ( XM_030263737.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030119597.1 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OTd33850
    Clone ID Related Accession (Same CDS sequence) XM_030263737.1
    Accession Version XM_030263737.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3879bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1565193600000
    Organism Taeniopygia guttata(zebra finch)
    Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCA ACAAGTGCTG 
    CCCAGGACTG GTTTTCGAGC GGATTCCTCT GGTCCCGATT ACAAGGAGCT GGATGTTCAC 
    CTTCGGAGAA TGGAGTCTGG GTTTGGCTTC AGGATCCTGG GAGGAGATGA GCCTGGGCAG 
    CCTATTCTCA TCGGAGCAGT AATTGCCATG GGCTCCGCAG ACCGAGATGG TCGTCTCCAT 
    CCTGGGGATG AGCTGGTGTA CGTAGATGGG ATCCCAGTGG CCGGCAAAAC CCACCGATAT 
    GTGATTGATC TTATGCATAA TGCTGCCCGA AACGGGCAGG TGAATCTTAC TGTGAGGAGA 
    AAGGTGCTAC CCACAGAGTC CTCCAGCCAG AAAGGTGCCC CCGCGCCCGG TGCGACGCCC 
    CCTCGCAGCT CCCCCAGCGC GAGGAAAATG GCCAATAACC AAGGAGAACC CTGCCCAGAG 
    AATGGCAGAA GCCCAGGCTC GGTGTCTACA CACCACAGCT CTCCAAGAAG TGACTACACG 
    ACCTATGCCA ACAGCAACCA CGCGGCCTCC GGCAGCAGCG CCACTCCCCC CGAGGGCTTC 
    GCGTCGCACA GCCTGCAAAC CAGCGACGTG GTCATCCACC GCAAGGAGAA CGAAGGCTTC 
    GGCTTCGTCA TCATCAGCTC CCTCAACAGG CCCGAGTCTG GCTCCACAAT AACTGTACCC 
    CATAAAATAG GGCGGATAAT TGATGGAAGC CCTGCGGATC GCTGTGCAAA ACTTAAAGTT 
    GGAGACCGGA TCTTAGCTGT GAATGGCCAG TCTATTATTA ACATGCCTCA TGCAGATATT 
    GTGAAGCTAA TTAAAGATGC AGGTCTCAGT GTAACTCTTC GCATCATTCC TCAGGAGGAG 
    CTGAACAGCC CAGCCTCGGC CCCCAGCTCG GAGAAGCAGA GCCCCATGGC CCAGCAGCAC 
    AGCCCCATGG CCCAGCAGAG TCCCCTGGCG CAGCAGAGCC CCGTCGCCCA GCACAGCCCC 
    GTGGCCCAGC CGCCACCTCC ACAGCCCCTC CAGCCCCAGG GACACGAGAA CAGTTACAGG 
    TCAGAAGTAA AAGCCAGGCA GGATGTGAAG CCTGACATCC GGCAACCCCC GTTTACAGAC 
    TACAGGCAAT CCTCCACGGA CTACCGGCAG CCCCCGCTGG ACTACCGGCA CCCGCCGGTG 
    ATGGATTACC AGCAGCCACC GCCGCTGGAC TACAGGCAGC CCCCGCTGAT GGACTACAGG 
    CAGCACTCCC CTGACACCAG GCAGTTCCCC CTGTCCGAGT ACAGGCAGCC CCAGGACTTT 
    GATTATTTCA CCGTTGATTT GGAGAAAGGA GCCAAAGGAT TTGGGTTTAG TATCCGAGGA 
    GGAAGGGAGT ACAAAATGGA TTTGTATGTG TTGAGGTTAG CAGAAGATGG ACCAGCAGTA 
    AGAAATGGAA GGATGAGGGT AGGAGATCAA ATAATTGAAA TCAATGGAGA AAGCACAAGG 
    GACATGACAC ATGCCAGAGC AATAGAGCTA ATCAAGTCTG GTGGCAGAAG AGTGCGACTG 
    TTGTTGAAAC GTGGAACAGG CCAGGTCCCA GAATATGGCT GTTCCTCCCC TTCCTTTAGG 
    AATGGTACCT TCCAGTCTCT CCATGTGCAT GAAAAGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_030119597.1
    CDS270..4148
    Translation

    Target ORF information:

    RefSeq Version XM_030263737.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030263737.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCA ACAAGTGCTG 
    CCCAGGACTG GTTTTCGAGC GGATTCCTCT GGTCCCGATT ACAAGGAGCT GGATGTTCAC 
    CTTCGGAGAA TGGAGTCTGG GTTTGGCTTC AGGATCCTGG GAGGAGATGA GCCTGGGCAG 
    CCTATTCTCA TCGGAGCAGT AATTGCCATG GGCTCCGCAG ACCGAGATGG TCGTCTCCAT 
    CCTGGGGATG AGCTGGTGTA CGTAGATGGG ATCCCAGTGG CCGGCAAAAC CCACCGATAT 
    GTGATTGATC TTATGCATAA TGCTGCCCGA AACGGGCAGG TGAATCTTAC TGTGAGGAGA 
    AAGGTGCTAC CCACAGAGTC CTCCAGCCAG AAAGGTGCCC CCGCGCCCGG TGCGACGCCC 
    CCTCGCAGCT CCCCCAGCGC GAGGAAAATG GCCAATAACC AAGGAGAACC CTGCCCAGAG 
    AATGGCAGAA GCCCAGGCTC GGTGTCTACA CACCACAGCT CTCCAAGAAG TGACTACACG 
    ACCTATGCCA ACAGCAACCA CGCGGCCTCC GGCAGCAGCG CCACTCCCCC CGAGGGCTTC 
    GCGTCGCACA GCCTGCAAAC CAGCGACGTG GTCATCCACC GCAAGGAGAA CGAAGGCTTC 
    GGCTTCGTCA TCATCAGCTC CCTCAACAGG CCCGAGTCTG GCTCCACAAT AACTGTACCC 
    CATAAAATAG GGCGGATAAT TGATGGAAGC CCTGCGGATC GCTGTGCAAA ACTTAAAGTT 
    GGAGACCGGA TCTTAGCTGT GAATGGCCAG TCTATTATTA ACATGCCTCA TGCAGATATT 
    GTGAAGCTAA TTAAAGATGC AGGTCTCAGT GTAACTCTTC GCATCATTCC TCAGGAGGAG 
    CTGAACAGCC CAGCCTCGGC CCCCAGCTCG GAGAAGCAGA GCCCCATGGC CCAGCAGCAC 
    AGCCCCATGG CCCAGCAGAG TCCCCTGGCG CAGCAGAGCC CCGTCGCCCA GCACAGCCCC 
    GTGGCCCAGC CGCCACCTCC ACAGCCCCTC CAGCCCCAGG GACACGAGAA CAGTTACAGG 
    TCAGAAGTAA AAGCCAGGCA GGATGTGAAG CCTGACATCC GGCAACCCCC GTTTACAGAC 
    TACAGGCAAT CCTCCACGGA CTACCGGCAG CCCCCGCTGG ACTACCGGCA CCCGCCGGTG 
    ATGGATTACC AGCAGCCACC GCCGCTGGAC TACAGGCAGC CCCCGCTGAT GGACTACAGG 
    CAGCACTCCC CTGACACCAG GCAGTTCCCC CTGTCCGAGT ACAGGCAGCC CCAGGACTTT 
    GATTATTTCA CCGTTGATTT GGAGAAAGGA GCCAAAGGAT TTGGGTTTAG TATCCGAGGA 
    GGAAGGGAGT ACAAAATGGA TTTGTATGTG TTGAGGTTAG CAGAAGATGG ACCAGCAGTA 
    AGAAATGGAA GGATGAGGGT AGGAGATCAA ATAATTGAAA TCAATGGAGA AAGCACAAGG 
    GACATGACAC ATGCCAGAGC AATAGAGCTA ATCAAGTCTG GTGGCAGAAG AGTGCGACTG 
    TTGTTGAAAC GTGGAACAGG CCAGGTCCCA GAATATGGCT GTTCCTCCCC TTCCTTTAGG 
    AATGGTACCT TCCAGTCTCT CCATGTGCAT GAAAAGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    MAGI2 ( XM_030263738.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030119598.1 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OTd33851
    Clone ID Related Accession (Same CDS sequence) XM_030263738.1
    Accession Version XM_030263738.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3876bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1565193600000
    Organism Taeniopygia guttata(zebra finch)
    Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCA ACAAGTGCTG 
    CCCAGGACTG GTTTTCGAGC GGATTCCTCT GGTCCCGATT ACAAGGAGCT GGATGTTCAC 
    CTTCGGAGAA TGGAGTCTGG GTTTGGCTTC AGGATCCTGG GAGGAGATGA GCCTGGGCAG 
    CCTATTCTCA TCGGAGCAGT AATTGCCATG GGCTCCGCAG ACCGAGATGG TCGTCTCCAT 
    CCTGGGGATG AGCTGGTGTA CGTAGATGGG ATCCCAGTGG CCGGCAAAAC CCACCGATAT 
    GTGATTGATC TTATGCATAA TGCTGCCCGA AACGGGCAGG TGAATCTTAC TGTGAGGAGA 
    AAGGTGCTAC CCACAGGAGA ACCCTGCCCA GAGAATGGCA GAAGCCCAGG CTCGGTGTCT 
    ACACACCACA GCTCTCCAAG AAGTGACTAC ACGACCTATG CCAACAGCAA CCACGCGGCC 
    TCCGGCAGCA GCGCCACTCC CCCCGAGGGC TTCGCGTCGC ACAGCCTGCA AACCAGCGAC 
    GTGGTCATCC ACCGCAAGGA GAACGAAGGC TTCGGCTTCG TCATCATCAG CTCCCTCAAC 
    AGGCCCGAGT CTGGCTCCAC AATAACTGTA CCCCATAAAA TAGGGCGGAT AATTGATGGA 
    AGCCCTGCGG ATCGCTGTGC AAAACTTAAA GTTGGAGACC GGATCTTAGC TGTGAATGGC 
    CAGTCTATTA TTAACATGCC TCATGCAGAT ATTGTGAAGC TAATTAAAGA TGCAGGTCTC 
    AGTGTAACTC TTCGCATCAT TCCTCAGGAG GAGCTGAACA GCCCAGCCTC GGCCCCCAGC 
    TCGGAGAAGC AGAGCCCCAT GGCCCAGCAG CACAGCCCCA TGGCCCAGCA GAGTCCCCTG 
    GCGCAGCAGA GCCCCGTCGC CCAGCACAGC CCCGTGGCCC AGCCGCCACC TCCACAGCCC 
    CTCCAGCCCC AGGGACACGA GAACAGTTAC AGGTCAGAAG TAAAAGCCAG GCAGGATGTG 
    AAGCCTGACA TCCGGCAACC CCCGTTTACA GACTACAGGC AATCCTCCAC GGACTACCGG 
    CAGCCCCCGC TGGACTACCG GCACCCGCCG GTGATGGATT ACCAGCAGCC ACCGCCGCTG 
    GACTACAGGC AGCCCCCGCT GATGGACTAC AGGCAGCACT CCCCTGACAC CAGGCAGTTC 
    CCCCTGTCCG AGTACAGGCA GCCCCAGGAC TTTGATTATT TCACCGTTGA TTTGGAGAAA 
    GGAGCCAAAG GATTTGGGTT TAGTATCCGA GGAGGAAGGG AGTACAAAAT GGATTTGTAT 
    GTGTTGAGGT TAGCAGAAGA TGGACCAGCA GTAAGAAATG GAAGGATGAG GGTAGGAGAT 
    CAAATAATTG AAATCAATGG AGAAAGCACA AGGGACATGA CACATGCCAG AGCAATAGAG 
    CTAATCAAGT CTGGTGGCAG AAGAGTGCGA CTGTTGTTGA AACGTGGAAC AGGCCAGGTC 
    CCAGAATATG GAATGGTACC TTCCAGTCTC TCCATGTGCA TGAAAAGTGA CAAGCATGGG 
    TCCCCATATT TCTACTTATT GGGCCACCCT AAAGACACGA CGAGCCAAAC TCCTGGAGTG 
    CTCCCTCTGC CACCGCCCCA GGTCTGCCGG AAGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_030119598.1
    CDS269..4144
    Translation

    Target ORF information:

    RefSeq Version XM_030263738.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030263738.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCA ACAAGTGCTG 
    CCCAGGACTG GTTTTCGAGC GGATTCCTCT GGTCCCGATT ACAAGGAGCT GGATGTTCAC 
    CTTCGGAGAA TGGAGTCTGG GTTTGGCTTC AGGATCCTGG GAGGAGATGA GCCTGGGCAG 
    CCTATTCTCA TCGGAGCAGT AATTGCCATG GGCTCCGCAG ACCGAGATGG TCGTCTCCAT 
    CCTGGGGATG AGCTGGTGTA CGTAGATGGG ATCCCAGTGG CCGGCAAAAC CCACCGATAT 
    GTGATTGATC TTATGCATAA TGCTGCCCGA AACGGGCAGG TGAATCTTAC TGTGAGGAGA 
    AAGGTGCTAC CCACAGGAGA ACCCTGCCCA GAGAATGGCA GAAGCCCAGG CTCGGTGTCT 
    ACACACCACA GCTCTCCAAG AAGTGACTAC ACGACCTATG CCAACAGCAA CCACGCGGCC 
    TCCGGCAGCA GCGCCACTCC CCCCGAGGGC TTCGCGTCGC ACAGCCTGCA AACCAGCGAC 
    GTGGTCATCC ACCGCAAGGA GAACGAAGGC TTCGGCTTCG TCATCATCAG CTCCCTCAAC 
    AGGCCCGAGT CTGGCTCCAC AATAACTGTA CCCCATAAAA TAGGGCGGAT AATTGATGGA 
    AGCCCTGCGG ATCGCTGTGC AAAACTTAAA GTTGGAGACC GGATCTTAGC TGTGAATGGC 
    CAGTCTATTA TTAACATGCC TCATGCAGAT ATTGTGAAGC TAATTAAAGA TGCAGGTCTC 
    AGTGTAACTC TTCGCATCAT TCCTCAGGAG GAGCTGAACA GCCCAGCCTC GGCCCCCAGC 
    TCGGAGAAGC AGAGCCCCAT GGCCCAGCAG CACAGCCCCA TGGCCCAGCA GAGTCCCCTG 
    GCGCAGCAGA GCCCCGTCGC CCAGCACAGC CCCGTGGCCC AGCCGCCACC TCCACAGCCC 
    CTCCAGCCCC AGGGACACGA GAACAGTTAC AGGTCAGAAG TAAAAGCCAG GCAGGATGTG 
    AAGCCTGACA TCCGGCAACC CCCGTTTACA GACTACAGGC AATCCTCCAC GGACTACCGG 
    CAGCCCCCGC TGGACTACCG GCACCCGCCG GTGATGGATT ACCAGCAGCC ACCGCCGCTG 
    GACTACAGGC AGCCCCCGCT GATGGACTAC AGGCAGCACT CCCCTGACAC CAGGCAGTTC 
    CCCCTGTCCG AGTACAGGCA GCCCCAGGAC TTTGATTATT TCACCGTTGA TTTGGAGAAA 
    GGAGCCAAAG GATTTGGGTT TAGTATCCGA GGAGGAAGGG AGTACAAAAT GGATTTGTAT 
    GTGTTGAGGT TAGCAGAAGA TGGACCAGCA GTAAGAAATG GAAGGATGAG GGTAGGAGAT 
    CAAATAATTG AAATCAATGG AGAAAGCACA AGGGACATGA CACATGCCAG AGCAATAGAG 
    CTAATCAAGT CTGGTGGCAG AAGAGTGCGA CTGTTGTTGA AACGTGGAAC AGGCCAGGTC 
    CCAGAATATG GAATGGTACC TTCCAGTCTC TCCATGTGCA TGAAAAGTGA CAAGCATGGG 
    TCCCCATATT TCTACTTATT GGGCCACCCT AAAGACACGA CGAGCCAAAC TCCTGGAGTG 
    CTCCCTCTGC CACCGCCCCA GGTCTGCCGG AAGTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    MAGI2 ( XM_030263740.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030119600.1 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID OTd33852
    Clone ID Related Accession (Same CDS sequence) XM_030263740.1
    Accession Version XM_030263740.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3849bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1565193600000
    Organism Taeniopygia guttata(zebra finch)
    Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCA ACAAGTGCTG 
    CCCAGGACTG GTTTTCGAGC GGATTCCTCT GGTCCCGATT ACAAGGAGCT GGATGTTCAC 
    CTTCGGAGAA TGGAGTCTGG GTTTGGCTTC AGGATCCTGG GAGGAGATGA GCCTGGGCAG 
    CCTATTCTCA TCGGAGCAGT AATTGCCATG GGCTCCGCAG ACCGAGATGG TCGTCTCCAT 
    CCTGGGGATG AGCTGGTGTA CGTAGATGGG ATCCCAGTGG CCGGCAAAAC CCACCGATAT 
    GTGATTGATC TTATGCATAA TGCTGCCCGA AACGGGCAGG TGAATCTTAC TGTGAGGAGA 
    AAGGTGCTAC CCACAGAGTC CTCCAGCCAG AAAGGTGCCC CCGCGCCCGG TGCGACGCCC 
    CCTCGCAGCT CCCCCAGCGC GAGGAAAATG GCCAATAACC AAGGAGAACC CTGCCCAGAG 
    AATGGCAGAA GCCCAGGCTC GGTGTCTACA CACCACAGCT CTCCAAGAAG TGACTACACG 
    ACCTATGCCA ACAGCAACCA CGCGGCCTCC GGCAGCAGCG CCACTCCCCC CGAGGGCTTC 
    GCGTCGCACA GCCTGCAAAC CAGCGACGTG GTCATCCACC GCAAGGAGAA CGAAGGCTTC 
    GGCTTCGTCA TCATCAGCTC CCTCAACAGG CCCGAGTCTG GCTCCACAAT AACTGTACCC 
    CATAAAATAG GGCGGATAAT TGATGGAAGC CCTGCGGATC GCTGTGCAAA ACTTAAAGTT 
    GGAGACCGGA TCTTAGCTGT GAATGGCCAG TCTATTATTA ACATGCCTCA TGCAGATATT 
    GTGAAGCTAA TTAAAGATGC AGGTCTCAGT GTAACTCTTC GCATCATTCC TCAGGAGGAG 
    CTGAACAGCC CAGCCTCGGC CCCCAGCTCG GAGAAGCAGA GCCCCATGGC CCAGCAGCAC 
    AGCCCCATGG CCCAGCAGAG TCCCCTGGCG CAGCAGAGCC CCGTCGCCCA GCACAGCCCC 
    GTGGCCCAGC CGCCACCTCC ACAGCCCCTC CAGCCCCAGG GACACGAGAA CAGTTACAGG 
    TCAGAAGTAA AAGCCAGGCA GGATGTGAAG CCTGACATCC GGCAACCCCC GTTTACAGAC 
    TACAGGCAAT CCTCCACGGA CTACCGGCAG CCCCCGCTGG ACTACCGGCA CCCGCCGGTG 
    ATGGATTACC AGCAGCCACC GCCGCTGGAC TACAGGCAGC CCCCGCTGAT GGACTACAGG 
    CAGCACTCCC CTGACACCAG GCAGTTCCCC CTGTCCGAGT ACAGGCAGCC CCAGGACTTT 
    GATTATTTCA CCGTTGATTT GGAGAAAGGA GCCAAAGGAT TTGGGTTTAG TATCCGAGGA 
    GGAAGGGAGT ACAAAATGGA TTTGTATGTG TTGAGGTTAG CAGAAGATGG ACCAGCAGTA 
    AGAAATGGAA GGATGAGGGT AGGAGATCAA ATAATTGAAA TCAATGGAGA AAGCACAAGG 
    GACATGACAC ATGCCAGAGC AATAGAGCTA ATCAAGTCTG GTGGCAGAAG AGTGCGACTG 
    TTGTTGAAAC GTGGAACAGG CCAGGTCCCA GAATATGGAA GCACCTCAAG ATGTACTCCA 
    TATCCATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_030119600.1
    CDS270..4118
    Translation

    Target ORF information:

    RefSeq Version XM_030263740.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030263740.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCA ACAAGTGCTG 
    CCCAGGACTG GTTTTCGAGC GGATTCCTCT GGTCCCGATT ACAAGGAGCT GGATGTTCAC 
    CTTCGGAGAA TGGAGTCTGG GTTTGGCTTC AGGATCCTGG GAGGAGATGA GCCTGGGCAG 
    CCTATTCTCA TCGGAGCAGT AATTGCCATG GGCTCCGCAG ACCGAGATGG TCGTCTCCAT 
    CCTGGGGATG AGCTGGTGTA CGTAGATGGG ATCCCAGTGG CCGGCAAAAC CCACCGATAT 
    GTGATTGATC TTATGCATAA TGCTGCCCGA AACGGGCAGG TGAATCTTAC TGTGAGGAGA 
    AAGGTGCTAC CCACAGAGTC CTCCAGCCAG AAAGGTGCCC CCGCGCCCGG TGCGACGCCC 
    CCTCGCAGCT CCCCCAGCGC GAGGAAAATG GCCAATAACC AAGGAGAACC CTGCCCAGAG 
    AATGGCAGAA GCCCAGGCTC GGTGTCTACA CACCACAGCT CTCCAAGAAG TGACTACACG 
    ACCTATGCCA ACAGCAACCA CGCGGCCTCC GGCAGCAGCG CCACTCCCCC CGAGGGCTTC 
    GCGTCGCACA GCCTGCAAAC CAGCGACGTG GTCATCCACC GCAAGGAGAA CGAAGGCTTC 
    GGCTTCGTCA TCATCAGCTC CCTCAACAGG CCCGAGTCTG GCTCCACAAT AACTGTACCC 
    CATAAAATAG GGCGGATAAT TGATGGAAGC CCTGCGGATC GCTGTGCAAA ACTTAAAGTT 
    GGAGACCGGA TCTTAGCTGT GAATGGCCAG TCTATTATTA ACATGCCTCA TGCAGATATT 
    GTGAAGCTAA TTAAAGATGC AGGTCTCAGT GTAACTCTTC GCATCATTCC TCAGGAGGAG 
    CTGAACAGCC CAGCCTCGGC CCCCAGCTCG GAGAAGCAGA GCCCCATGGC CCAGCAGCAC 
    AGCCCCATGG CCCAGCAGAG TCCCCTGGCG CAGCAGAGCC CCGTCGCCCA GCACAGCCCC 
    GTGGCCCAGC CGCCACCTCC ACAGCCCCTC CAGCCCCAGG GACACGAGAA CAGTTACAGG 
    TCAGAAGTAA AAGCCAGGCA GGATGTGAAG CCTGACATCC GGCAACCCCC GTTTACAGAC 
    TACAGGCAAT CCTCCACGGA CTACCGGCAG CCCCCGCTGG ACTACCGGCA CCCGCCGGTG 
    ATGGATTACC AGCAGCCACC GCCGCTGGAC TACAGGCAGC CCCCGCTGAT GGACTACAGG 
    CAGCACTCCC CTGACACCAG GCAGTTCCCC CTGTCCGAGT ACAGGCAGCC CCAGGACTTT 
    GATTATTTCA CCGTTGATTT GGAGAAAGGA GCCAAAGGAT TTGGGTTTAG TATCCGAGGA 
    GGAAGGGAGT ACAAAATGGA TTTGTATGTG TTGAGGTTAG CAGAAGATGG ACCAGCAGTA 
    AGAAATGGAA GGATGAGGGT AGGAGATCAA ATAATTGAAA TCAATGGAGA AAGCACAAGG 
    GACATGACAC ATGCCAGAGC AATAGAGCTA ATCAAGTCTG GTGGCAGAAG AGTGCGACTG 
    TTGTTGAAAC GTGGAACAGG CCAGGTCCCA GAATATGGAA GCACCTCAAG ATGTACTCCA 
    TATCCATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    MAGI2 ( XM_030263741.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030119601.1 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OTd33853
    Clone ID Related Accession (Same CDS sequence) XM_030263741.1
    Accession Version XM_030263741.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3834bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1565193600000
    Organism Taeniopygia guttata(zebra finch)
    Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCG TCCCGATTAC 
    AAGGAGCTGG ATGTTCACCT TCGGAGAATG GAGTCTGGGT TTGGCTTCAG GATCCTGGGA 
    GGAGATGAGC CTGGGCAGCC TATTCTCATC GGAGCAGTAA TTGCCATGGG CTCCGCAGAC 
    CGAGATGGTC GTCTCCATCC TGGGGATGAG CTGGTGTACG TAGATGGGAT CCCAGTGGCC 
    GGCAAAACCC ACCGATATGT GATTGATCTT ATGCATAATG CTGCCCGAAA CGGGCAGGTG 
    AATCTTACTG TGAGGAGAAA GGTGCTACCC ACAGGAGAAC CCTGCCCAGA GAATGGCAGA 
    AGCCCAGGCT CGGTGTCTAC ACACCACAGC TCTCCAAGAA GTGACTACAC GACCTATGCC 
    AACAGCAACC ACGCGGCCTC CGGCAGCAGC GCCACTCCCC CCGAGGGCTT CGCGTCGCAC 
    AGCCTGCAAA CCAGCGACGT GGTCATCCAC CGCAAGGAGA ACGAAGGCTT CGGCTTCGTC 
    ATCATCAGCT CCCTCAACAG GCCCGAGTCT GGCTCCACAA TAACTGTACC CCATAAAATA 
    GGGCGGATAA TTGATGGAAG CCCTGCGGAT CGCTGTGCAA AACTTAAAGT TGGAGACCGG 
    ATCTTAGCTG TGAATGGCCA GTCTATTATT AACATGCCTC ATGCAGATAT TGTGAAGCTA 
    ATTAAAGATG CAGGTCTCAG TGTAACTCTT CGCATCATTC CTCAGGAGGA GCTGAACAGC 
    CCAGCCTCGG CCCCCAGCTC GGAGAAGCAG AGCCCCATGG CCCAGCAGCA CAGCCCCATG 
    GCCCAGCAGA GTCCCCTGGC GCAGCAGAGC CCCGTCGCCC AGCACAGCCC CGTGGCCCAG 
    CCGCCACCTC CACAGCCCCT CCAGCCCCAG GGACACGAGA ACAGTTACAG GTCAGAAGTA 
    AAAGCCAGGC AGGATGTGAA GCCTGACATC CGGCAACCCC CGTTTACAGA CTACAGGCAA 
    TCCTCCACGG ACTACCGGCA GCCCCCGCTG GACTACCGGC ACCCGCCGGT GATGGATTAC 
    CAGCAGCCAC CGCCGCTGGA CTACAGGCAG CCCCCGCTGA TGGACTACAG GCAGCACTCC 
    CCTGACACCA GGCAGTTCCC CCTGTCCGAG TACAGGCAGC CCCAGGACTT TGATTATTTC 
    ACCGTTGATT TGGAGAAAGG AGCCAAAGGA TTTGGGTTTA GTATCCGAGG AGGAAGGGAG 
    TACAAAATGG ATTTGTATGT GTTGAGGTTA GCAGAAGATG GACCAGCAGT AAGAAATGGA 
    AGGATGAGGG TAGGAGATCA AATAATTGAA ATCAATGGAG AAAGCACAAG GGACATGACA 
    CATGCCAGAG CAATAGAGCT AATCAAGTCT GGTGGCAGAA GAGTGCGACT GTTGTTGAAA 
    CGTGGAACAG GCCAGGTCCC AGAATATGGA ATGGTACCTT CCAGTCTCTC CATGTGCATG 
    AAAAGTGACA AGCATGGGTC CCCATATTTC TACTTATTGG GCCACCCTAA AGACACGACG 
    AGCCAAACTC CTGGAGTGCT CCCTCTGCCA CCGCCCCAGG TCTGCCGGAA GTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_030119601.1
    CDS269..4102
    Translation

    Target ORF information:

    RefSeq Version XM_030263741.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030263741.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCG TCCCGATTAC 
    AAGGAGCTGG ATGTTCACCT TCGGAGAATG GAGTCTGGGT TTGGCTTCAG GATCCTGGGA 
    GGAGATGAGC CTGGGCAGCC TATTCTCATC GGAGCAGTAA TTGCCATGGG CTCCGCAGAC 
    CGAGATGGTC GTCTCCATCC TGGGGATGAG CTGGTGTACG TAGATGGGAT CCCAGTGGCC 
    GGCAAAACCC ACCGATATGT GATTGATCTT ATGCATAATG CTGCCCGAAA CGGGCAGGTG 
    AATCTTACTG TGAGGAGAAA GGTGCTACCC ACAGGAGAAC CCTGCCCAGA GAATGGCAGA 
    AGCCCAGGCT CGGTGTCTAC ACACCACAGC TCTCCAAGAA GTGACTACAC GACCTATGCC 
    AACAGCAACC ACGCGGCCTC CGGCAGCAGC GCCACTCCCC CCGAGGGCTT CGCGTCGCAC 
    AGCCTGCAAA CCAGCGACGT GGTCATCCAC CGCAAGGAGA ACGAAGGCTT CGGCTTCGTC 
    ATCATCAGCT CCCTCAACAG GCCCGAGTCT GGCTCCACAA TAACTGTACC CCATAAAATA 
    GGGCGGATAA TTGATGGAAG CCCTGCGGAT CGCTGTGCAA AACTTAAAGT TGGAGACCGG 
    ATCTTAGCTG TGAATGGCCA GTCTATTATT AACATGCCTC ATGCAGATAT TGTGAAGCTA 
    ATTAAAGATG CAGGTCTCAG TGTAACTCTT CGCATCATTC CTCAGGAGGA GCTGAACAGC 
    CCAGCCTCGG CCCCCAGCTC GGAGAAGCAG AGCCCCATGG CCCAGCAGCA CAGCCCCATG 
    GCCCAGCAGA GTCCCCTGGC GCAGCAGAGC CCCGTCGCCC AGCACAGCCC CGTGGCCCAG 
    CCGCCACCTC CACAGCCCCT CCAGCCCCAG GGACACGAGA ACAGTTACAG GTCAGAAGTA 
    AAAGCCAGGC AGGATGTGAA GCCTGACATC CGGCAACCCC CGTTTACAGA CTACAGGCAA 
    TCCTCCACGG ACTACCGGCA GCCCCCGCTG GACTACCGGC ACCCGCCGGT GATGGATTAC 
    CAGCAGCCAC CGCCGCTGGA CTACAGGCAG CCCCCGCTGA TGGACTACAG GCAGCACTCC 
    CCTGACACCA GGCAGTTCCC CCTGTCCGAG TACAGGCAGC CCCAGGACTT TGATTATTTC 
    ACCGTTGATT TGGAGAAAGG AGCCAAAGGA TTTGGGTTTA GTATCCGAGG AGGAAGGGAG 
    TACAAAATGG ATTTGTATGT GTTGAGGTTA GCAGAAGATG GACCAGCAGT AAGAAATGGA 
    AGGATGAGGG TAGGAGATCA AATAATTGAA ATCAATGGAG AAAGCACAAG GGACATGACA 
    CATGCCAGAG CAATAGAGCT AATCAAGTCT GGTGGCAGAA GAGTGCGACT GTTGTTGAAA 
    CGTGGAACAG GCCAGGTCCC AGAATATGGA ATGGTACCTT CCAGTCTCTC CATGTGCATG 
    AAAAGTGACA AGCATGGGTC CCCATATTTC TACTTATTGG GCCACCCTAA AGACACGACG 
    AGCCAAACTC CTGGAGTGCT CCCTCTGCCA CCGCCCCAGG TCTGCCGGAA GTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    MAGI2 ( XM_030263742.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030119602.1 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OTd33854
    Clone ID Related Accession (Same CDS sequence) XM_030263742.1
    Accession Version XM_030263742.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3474bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1565193600000
    Organism Taeniopygia guttata(zebra finch)
    Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGAATTGG AGAAAAGTGG TGCTCTCCTA GAAAGTGGAA CATATGAAGA CAACTATTAC 
    GGCACTCCAA AGCCTCCAGC AGAACCGGCT CCGTTGCTGT TAAATGTGAC AGACCAGATC 
    CTCCCAGGCG CCACTCCCGG GGCTGAAGGC AAGCGTAAAA GGAATAAGTC TGTGAGCAAT 
    ATGGAGAAGA CAGGCATTGA ACCACCAGAG GAAGAAGAGG AAGAAAGACC TGTGGTCAAT 
    GGAAATGACG TGACAGTAAC ACCAGAATCG AGTGAACATG AAGAGAAGAG TACAGCTGTC 
    TCGGGTGAGG CATCTACCAC CCAGCCTTGT CCTGCACCAG GATATGGTCA GCCTGAAGAA 
    GCAAAGGAGG ATATGGATGT AACAAAACAG ACTAAACCTG AAGAGAATGA TGACTTGGGC 
    CCACTGCCTG ATAACTGGGA AATGGCTTAT ACAGAAAAGG GGGAAGTGTA CTTTATTGAC 
    CATAACACAA AGACAACATC ATGGCTGGAT CCACGACTTG CGAAAAAGGC TAAACCTCCA 
    GAAGAGTGCA AAGAAAATGA GCTTCCATAT GGCTGGGAGA AAATTGATGA TCCCATTTAT 
    GGCACTTATT ATGTTGACCA CATAAATAGA AGAACTCAAT TTGAAAACCC TGTCCTAGAA 
    GCAAAAAGGA AGCTACAGCA GCATAACATG CCCAACGCAG AACTTGGAAC AAAGCCTATG 
    CAGGCCCAAG GTTTCCGAGA AAAACCACTC TTCACCCGTG ATGCATCACA GCTGAAGGGG 
    ACTTTCCTCA GCACAACTCT TAAGAAAAGC AACATGGGTT TTGGATTTAC CATCATTGGT 
    GGGGATGAGC CGGATGAGTT TCTCCAGGTG AAGAGTGTAA TTCCTGATGG GCCTGCAGCA 
    CAAGATGGGA AAATGGAAAC AGGTGATGTG ATTGTCTATA TTAATGAAGT TTGTGTCCTT 
    GGACATACTC ACGCAGATGT AGTCAAACTC TTCCAGTCTG TTCCTATTGG TCAGAGTGTC 
    AACTTGGTGC TATGTCGTGG ATACCCTTTG CCCTTTGATC CTGAAGATCC TGCCAACAGC 
    ATGGTGCCAC CCCTTGCAGT AATGGAGAGG CCTCCGGTAG TGGTAAATGG AAGACATAAC 
    TATGAAACTT ATTTGGAATA CATTTCTAGG ACTTCTCAGT CTGTTCCAGA CGTAACAGAT 
    CGACCACCAC ACTCCTTGCA CTCCATTCCA GCAGATAGTC AGCTTGATAG CACATTCCCA 
    CCACCTGCCC ATGATGATAA TGTATCAATG GCTTCTTCTG GGGCCACCCA AGCTGAACTC 
    ATGACCTTAA CCATTGTGAA AGGGGCCCAG GGCTTTGGCT TCACTATAGC AGACAGTCCT 
    ACAGGACAGA GGGTGAAGCA AATTCTAGAC ATTCAGGGAT GTCCTGGTTT GTGTGAAGGT 
    GACCTCATTG TTGAGATCAA CCAGCAGAAT GTACAGAACC TGAGCCATGC AGAAGTAGTG 
    GATATACTTA AAGAATGTCC TGTTGGAAGT GAAACTTCTT TGATTATCCA TAGAGGAGGT 
    TTCTTTTCTC CATGGAAAAC TCCAAAGCCT ATGATGGAAC GATGGGAGAA TCAAGGCAGC 
    CCTCAAACAA GTGTGTCTGC TCCAGCTATG CCACAGAATA TTCCCTATCC ACCCACTCTT 
    CACAGGAGTT CATTTCCTGA TTCAACAGAG GCCTTTGATC CACGAAAACC TGACCCGTAT 
    GAGCTGTATG AGAAATCAAG AGCTATTTAT GAAAGTAGGC AACAAGTGCT GCCCAGGACT 
    GGTTTTCGAG CGGATTCCTC TGGTCCCGAT TACAAGGAGC TGGATGTTCA CCTTCGGAGA 
    ATGGAGTCTG GGTTTGGCTT CAGGATCCTG GGAGGAGATG AGCCTGGGCA GCCTATTCTC 
    ATCGGAGCAG TAATTGCCAT GGGCTCCGCA GACCGAGATG GTCGTCTCCA TCCTGGGGAT 
    GAGCTGGTGT ACGTAGATGG GATCCCAGTG GCCGGCAAAA CCCACCGATA TGTGATTGAT 
    CTTATGCATA ATGCTGCCCG AAACGGGCAG GTGAATCTTA CTGTGAGGAG AAAGGTGCTA 
    CCCACAGAGT CCTCCAGCCA GAAAGGTGCC CCCGCGCCCG GTGCGACGCC CCCTCGCAGC 
    TCCCCCAGCG CGAGGAAAAT GGCCAATAAC CAAGGAGAAC CCTGCCCAGA GAATGGCAGA 
    AGCCCAGGCT CGGTGTCTAC ACACCACAGC TCTCCAAGAA GTGACTACAC GACCTATGCC 
    AACAGCAACC ACGCGGCCTC CGGCAGCAGC GCCACTCCCC CCGAGGGCTT CGCGTCGCAC 
    AGCCTGCAAA CCAGCGACGT GGTCATCCAC CGCAAGGAGA ACGAAGGCTT CGGCTTCGTC 
    ATCATCAGCT CCCTCAACAG GCCCGAGTCT GGCTCCACAA TAACTGTACC CCATAAAATA 
    GGGCGGATAA TTGATGGAAG CCCTGCGGAT CGCTGTGCAA AACTTAAAGT TGGAGACCGG 
    ATCTTAGCTG TGAATGGCCA GTCTATTATT AACATGCCTC ATGCAGATAT TGTGAAGCTA 
    ATTAAAGATG CAGGTCTCAG TGTAACTCTT CGCATCATTC CTCAGGAGGA GCTGAACAGC 
    CCAGCCTCGG CCCCCAGCTC GGAGAAGCAG AGCCCCATGG CCCAGCAGCA CAGCCCCATG 
    GCCCAGCAGA GTCCCCTGGC GCAGCAGAGC CCCGTCGCCC AGCACAGCCC CGTGGCCCAG 
    CCGCCACCTC CACAGCCCCT CCAGCCCCAG GGACACGAGA ACAGTTACAG GTCAGAAGTA 
    AAAGCCAGGC AGGATGTGAA GCCTGACATC CGGCAACCCC CGTTTACAGA CTACAGGCAA 
    TCCTCCACGG ACTACCGGCA GCCCCCGCTG GACTACCGGC ACCCGCCGGT GATGGATTAC 
    CAGCAGCCAC CGCCGCTGGA CTACAGGCAG CCCCCGCTGA TGGACTACAG GCAGCACTCC 
    CCTGACACCA GGCAGTTCCC CCTGTCCGAG TACAGGCAGC CCCAGGACTT TGATTATTTC 
    ACCGTTGATT TGGAGAAAGG AGCCAAAGGA TTTGGGTTTA GTATCCGAGG AGGAAGGGAG 
    TACAAAATGG ATTTGTATGT GTTGAGGTTA GCAGAAGATG GACCAGCAGT AAGAAATGGA 
    AGGATGAGGG TAGGAGATCA AATAATTGAA ATCAATGGAG AAAGCACAAG GGACATGACA 
    CATGCCAGAG CAATAGAGCT AATCAAGTCT GGTGGCAGAA GAGTGCGACT GTTGTTGAAA 
    CGTGGAACAG GCCAGGTCCC AGAATATGGA ATGGTACCTT CCAGTCTCTC CATGTGCATG 
    AAAAGTGACA AGCATGGGTC CCCATATTTC TACTTATTGG GCCACCCTAA AGACACGACG 
    AGCCAAACTC CTGGAGTGCT CCCTCTGCCA CCGCCCCAGG TCTGCCGGAA GTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_030119602.1
    CDS560..4033
    Translation

    Target ORF information:

    RefSeq Version XM_030263742.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030263742.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGAATTGG AGAAAAGTGG TGCTCTCCTA GAAAGTGGAA CATATGAAGA CAACTATTAC 
    GGCACTCCAA AGCCTCCAGC AGAACCGGCT CCGTTGCTGT TAAATGTGAC AGACCAGATC 
    CTCCCAGGCG CCACTCCCGG GGCTGAAGGC AAGCGTAAAA GGAATAAGTC TGTGAGCAAT 
    ATGGAGAAGA CAGGCATTGA ACCACCAGAG GAAGAAGAGG AAGAAAGACC TGTGGTCAAT 
    GGAAATGACG TGACAGTAAC ACCAGAATCG AGTGAACATG AAGAGAAGAG TACAGCTGTC 
    TCGGGTGAGG CATCTACCAC CCAGCCTTGT CCTGCACCAG GATATGGTCA GCCTGAAGAA 
    GCAAAGGAGG ATATGGATGT AACAAAACAG ACTAAACCTG AAGAGAATGA TGACTTGGGC 
    CCACTGCCTG ATAACTGGGA AATGGCTTAT ACAGAAAAGG GGGAAGTGTA CTTTATTGAC 
    CATAACACAA AGACAACATC ATGGCTGGAT CCACGACTTG CGAAAAAGGC TAAACCTCCA 
    GAAGAGTGCA AAGAAAATGA GCTTCCATAT GGCTGGGAGA AAATTGATGA TCCCATTTAT 
    GGCACTTATT ATGTTGACCA CATAAATAGA AGAACTCAAT TTGAAAACCC TGTCCTAGAA 
    GCAAAAAGGA AGCTACAGCA GCATAACATG CCCAACGCAG AACTTGGAAC AAAGCCTATG 
    CAGGCCCAAG GTTTCCGAGA AAAACCACTC TTCACCCGTG ATGCATCACA GCTGAAGGGG 
    ACTTTCCTCA GCACAACTCT TAAGAAAAGC AACATGGGTT TTGGATTTAC CATCATTGGT 
    GGGGATGAGC CGGATGAGTT TCTCCAGGTG AAGAGTGTAA TTCCTGATGG GCCTGCAGCA 
    CAAGATGGGA AAATGGAAAC AGGTGATGTG ATTGTCTATA TTAATGAAGT TTGTGTCCTT 
    GGACATACTC ACGCAGATGT AGTCAAACTC TTCCAGTCTG TTCCTATTGG TCAGAGTGTC 
    AACTTGGTGC TATGTCGTGG ATACCCTTTG CCCTTTGATC CTGAAGATCC TGCCAACAGC 
    ATGGTGCCAC CCCTTGCAGT AATGGAGAGG CCTCCGGTAG TGGTAAATGG AAGACATAAC 
    TATGAAACTT ATTTGGAATA CATTTCTAGG ACTTCTCAGT CTGTTCCAGA CGTAACAGAT 
    CGACCACCAC ACTCCTTGCA CTCCATTCCA GCAGATAGTC AGCTTGATAG CACATTCCCA 
    CCACCTGCCC ATGATGATAA TGTATCAATG GCTTCTTCTG GGGCCACCCA AGCTGAACTC 
    ATGACCTTAA CCATTGTGAA AGGGGCCCAG GGCTTTGGCT TCACTATAGC AGACAGTCCT 
    ACAGGACAGA GGGTGAAGCA AATTCTAGAC ATTCAGGGAT GTCCTGGTTT GTGTGAAGGT 
    GACCTCATTG TTGAGATCAA CCAGCAGAAT GTACAGAACC TGAGCCATGC AGAAGTAGTG 
    GATATACTTA AAGAATGTCC TGTTGGAAGT GAAACTTCTT TGATTATCCA TAGAGGAGGT 
    TTCTTTTCTC CATGGAAAAC TCCAAAGCCT ATGATGGAAC GATGGGAGAA TCAAGGCAGC 
    CCTCAAACAA GTGTGTCTGC TCCAGCTATG CCACAGAATA TTCCCTATCC ACCCACTCTT 
    CACAGGAGTT CATTTCCTGA TTCAACAGAG GCCTTTGATC CACGAAAACC TGACCCGTAT 
    GAGCTGTATG AGAAATCAAG AGCTATTTAT GAAAGTAGGC AACAAGTGCT GCCCAGGACT 
    GGTTTTCGAG CGGATTCCTC TGGTCCCGAT TACAAGGAGC TGGATGTTCA CCTTCGGAGA 
    ATGGAGTCTG GGTTTGGCTT CAGGATCCTG GGAGGAGATG AGCCTGGGCA GCCTATTCTC 
    ATCGGAGCAG TAATTGCCAT GGGCTCCGCA GACCGAGATG GTCGTCTCCA TCCTGGGGAT 
    GAGCTGGTGT ACGTAGATGG GATCCCAGTG GCCGGCAAAA CCCACCGATA TGTGATTGAT 
    CTTATGCATA ATGCTGCCCG AAACGGGCAG GTGAATCTTA CTGTGAGGAG AAAGGTGCTA 
    CCCACAGAGT CCTCCAGCCA GAAAGGTGCC CCCGCGCCCG GTGCGACGCC CCCTCGCAGC 
    TCCCCCAGCG CGAGGAAAAT GGCCAATAAC CAAGGAGAAC CCTGCCCAGA GAATGGCAGA 
    AGCCCAGGCT CGGTGTCTAC ACACCACAGC TCTCCAAGAA GTGACTACAC GACCTATGCC 
    AACAGCAACC ACGCGGCCTC CGGCAGCAGC GCCACTCCCC CCGAGGGCTT CGCGTCGCAC 
    AGCCTGCAAA CCAGCGACGT GGTCATCCAC CGCAAGGAGA ACGAAGGCTT CGGCTTCGTC 
    ATCATCAGCT CCCTCAACAG GCCCGAGTCT GGCTCCACAA TAACTGTACC CCATAAAATA 
    GGGCGGATAA TTGATGGAAG CCCTGCGGAT CGCTGTGCAA AACTTAAAGT TGGAGACCGG 
    ATCTTAGCTG TGAATGGCCA GTCTATTATT AACATGCCTC ATGCAGATAT TGTGAAGCTA 
    ATTAAAGATG CAGGTCTCAG TGTAACTCTT CGCATCATTC CTCAGGAGGA GCTGAACAGC 
    CCAGCCTCGG CCCCCAGCTC GGAGAAGCAG AGCCCCATGG CCCAGCAGCA CAGCCCCATG 
    GCCCAGCAGA GTCCCCTGGC GCAGCAGAGC CCCGTCGCCC AGCACAGCCC CGTGGCCCAG 
    CCGCCACCTC CACAGCCCCT CCAGCCCCAG GGACACGAGA ACAGTTACAG GTCAGAAGTA 
    AAAGCCAGGC AGGATGTGAA GCCTGACATC CGGCAACCCC CGTTTACAGA CTACAGGCAA 
    TCCTCCACGG ACTACCGGCA GCCCCCGCTG GACTACCGGC ACCCGCCGGT GATGGATTAC 
    CAGCAGCCAC CGCCGCTGGA CTACAGGCAG CCCCCGCTGA TGGACTACAG GCAGCACTCC 
    CCTGACACCA GGCAGTTCCC CCTGTCCGAG TACAGGCAGC CCCAGGACTT TGATTATTTC 
    ACCGTTGATT TGGAGAAAGG AGCCAAAGGA TTTGGGTTTA GTATCCGAGG AGGAAGGGAG 
    TACAAAATGG ATTTGTATGT GTTGAGGTTA GCAGAAGATG GACCAGCAGT AAGAAATGGA 
    AGGATGAGGG TAGGAGATCA AATAATTGAA ATCAATGGAG AAAGCACAAG GGACATGACA 
    CATGCCAGAG CAATAGAGCT AATCAAGTCT GGTGGCAGAA GAGTGCGACT GTTGTTGAAA 
    CGTGGAACAG GCCAGGTCCC AGAATATGGA ATGGTACCTT CCAGTCTCTC CATGTGCATG 
    AAAAGTGACA AGCATGGGTC CCCATATTTC TACTTATTGG GCCACCCTAA AGACACGACG 
    AGCCAAACTC CTGGAGTGCT CCCTCTGCCA CCGCCCCAGG TCTGCCGGAA GTAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    MAGI2 ( XM_012568848.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012424302.1 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), mRNA.
    Price & Availability↑
    CloneID OTd19954
    Clone ID Related Accession (Same CDS sequence) XM_012568848.1
    Accession Version XM_012568848.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4611bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1432483200000
    Organism Taeniopygia guttata(zebra finch)
    Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197555.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCAA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCA ACAAGTGCTG 
    CCCAGGACTG GTTTTCGAGC GGATTCCTCT GGTCCCGATT ACAAGGAGCT GGATGTTCAC 
    CTTCGGAGAA TGGAGTCTGG GTTTGGCTTC AGGATCCTGG GAGGAGATGA GCCTGGGCAG 
    CCTATTCTCA TCGGAGCAGT AATTGCCATG GGCTCCGCAG ACCGAGATGG TCGTCTCCAT 
    CCTGGGGATG AGCTGGTGTA CGTAGATGGG ATCCCAGTGG CCGGCAAAAC CCACCGATAT 
    GTGATTGATC TTATGCATAA TGCTGCCCGA AACGGGCAGG TGAATCTTAC TGTGAGGAGA 
    AAGGTGCTAC CCACAGAGTC CTCCAGCCAG AAAGGTGCCC CCGCGCCCGG TGCGACGCCC 
    CCTCGCAGCT CCCCCAGCGC GAGGAAAATG GCCAATAACC AAGGAGAACC CTGCCCAGAG 
    AATGGCAGAA GCCCAGGCTC GGTGTCTACA CACCACAGCT CTCCAAGAAG TGACTACACG 
    ACCTATGCCA ACAGCAACCA CGCGGCCTCC GGCAGCAGCG CCACTCCCCC CGAGGGCTTC 
    GCGTCGCACA GCCTGCAAAC CAGCGACGTG GTCATCCACC GCAAGGAGAA CGAAGGCTTC 
    GGCTTCGTCA TCATCAGCTC CCTCAACAGG CCCGAGTCTG GCTCCACAAT AACTGTACCC 
    CATAAAATAG GGCGGATAAT TGATGGAAGC CCTGCGGATC GCTGTGCAAA ACTTAAAGTT 
    GGAGACCGGA TCTTAGCTGT GAATGGCCAG TCTATTATTA ACATGCCTCA TGCAGATATT 
    GTGAAGCTAA TTAAAGATGC AGGTCTCAGT GTAACTCTTC GCATCATTCC TCAGGAGGAG 
    CTGAACAGCC CAGCCTCGGC CCCCAGCTCG GAGAAGCAGA GCCCCATGGC CCAGCAGCAC 
    AGCCCCATGG CCCAGCAGAG TCCCCTGGCG CAGCAGAGCC CCGTCGCCCA GCACAGCCCC 
    GTGGCCCAGC CGCCACCTCC ACAGCCCCTC CAGCCCCAGG GACACGAGAA CAGTTACAGG 
    TCAGAAGTAA AAGCCAGGCA GGATGTGAAG CCTGACATCC GGCAACCCCC GTTTACAGAC 
    TACAGGCAAT CCTCCACGGA CTACCGGCAG CCCCCGCTGG ACTACCGGCA CCCGCCGGTG 
    ATGGATTACC AGCAGCCACC GCCGCTGGAC TACAGGCAGC CCCCGCTGAT GGACTACAGG 
    CAGCACTCCC CTGACACCAG GCAGTTCCCC CTGTCCGAGT ACAGGCAGCC CCAGGACTTT 
    GATTATTTCA CCGTTGATTT GGAGAAAGGA GCCAAAGGAT TTGGGTTTAG TATCCGAGGA 
    GGAAGGGAGT ACAAAATGGA TTTGTATGTG TTGAGGTTAG CAGAAGATGG ACCAGCAGTA 
    AGAAATGGAA GGATGAGGGT AGGAGATCAA ATAATTGAAA TCAATGGAGA AAGCACAAGG 
    GACATGACAC ATGCCAGAGC AATAGAGCTA ATCAAGTCTG GTGGCAGAAG AGTGCGACTG 
    TTGTTGAAAC GTGGAACAGG CCAGGTCCCA GAATATGACG AGCCAAACTC CTGGAGTGCT 
    CCCTCTGCCA CCGCCCCAGG TCTGCCGGAA GTAGCTCTTT CCCTCGACGA CATAATCTCA 
    CCATTATCTT CATCACACAT AGCCCCACCC TCTGACCCTT CTCACCAGAT AAGCCCAGAA 
    CCAACATGGG ATATCAAGAG GGAACACGAT ATAAGGAAAC CAAAGGAGCT TTCGGTGAAC 
    GGTCACAAAA AGAAAAGGTT AGGAGAACAA AGAGAAAGGT CAGCAAGTCC TAAAAAGGTA 
    GACAGGTCAA AGCACGAAGA GGCTTCTTGG AAAGGATATT CAGGAGGCAA AAGTAAGACC 
    ACTGATGGTG GCAGGCCCAC CTCAGAAAGC AAAGCGGTGG GACACAGCGT TATGATCGAG 
    GCTGGCGCAA GAGAGCACGT GTGTGCTGGA ACCAGTGATG AACAGTTTGG GAGGCTGAGG 
    AAGCCAGAAA GCAAGAGAGG AGGATCTCTT AGCAAAAAAG ATCACAGATC CACAAACACC 
    TGTGAGAAGT CAGCTGCAGC ACCCGACCAT GTCAAGACCG ATACAGGAGC TACCAAGACT 
    TACAGTAGCA ACCGCTGCAG CTCGCCTGGA AGTGATATGG ACCACAGCCA GAGGGACCCT 
    GATGGGAAAC CCAGCGAGTT CCCCAGGAAG GGACATCTCC ACTCCATTAG CACTCGCAGC 
    ACCAACACCA CAGTTCGAAA GGCAACGGTC TCTCCAGGGC CGTGGAAAAT CCCTGGCTCA 
    GATAAGCTAC CAAGCGTCCT GAAGTCTGGT ACTTCTGCCA TGAGCAGATA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_012424302.1
    CDS23..4633
    Translation

    Target ORF information:

    RefSeq Version XM_012568848.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012568848.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCAA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCA ACAAGTGCTG 
    CCCAGGACTG GTTTTCGAGC GGATTCCTCT GGTCCCGATT ACAAGGAGCT GGATGTTCAC 
    CTTCGGAGAA TGGAGTCTGG GTTTGGCTTC AGGATCCTGG GAGGAGATGA GCCTGGGCAG 
    CCTATTCTCA TCGGAGCAGT AATTGCCATG GGCTCCGCAG ACCGAGATGG TCGTCTCCAT 
    CCTGGGGATG AGCTGGTGTA CGTAGATGGG ATCCCAGTGG CCGGCAAAAC CCACCGATAT 
    GTGATTGATC TTATGCATAA TGCTGCCCGA AACGGGCAGG TGAATCTTAC TGTGAGGAGA 
    AAGGTGCTAC CCACAGAGTC CTCCAGCCAG AAAGGTGCCC CCGCGCCCGG TGCGACGCCC 
    CCTCGCAGCT CCCCCAGCGC GAGGAAAATG GCCAATAACC AAGGAGAACC CTGCCCAGAG 
    AATGGCAGAA GCCCAGGCTC GGTGTCTACA CACCACAGCT CTCCAAGAAG TGACTACACG 
    ACCTATGCCA ACAGCAACCA CGCGGCCTCC GGCAGCAGCG CCACTCCCCC CGAGGGCTTC 
    GCGTCGCACA GCCTGCAAAC CAGCGACGTG GTCATCCACC GCAAGGAGAA CGAAGGCTTC 
    GGCTTCGTCA TCATCAGCTC CCTCAACAGG CCCGAGTCTG GCTCCACAAT AACTGTACCC 
    CATAAAATAG GGCGGATAAT TGATGGAAGC CCTGCGGATC GCTGTGCAAA ACTTAAAGTT 
    GGAGACCGGA TCTTAGCTGT GAATGGCCAG TCTATTATTA ACATGCCTCA TGCAGATATT 
    GTGAAGCTAA TTAAAGATGC AGGTCTCAGT GTAACTCTTC GCATCATTCC TCAGGAGGAG 
    CTGAACAGCC CAGCCTCGGC CCCCAGCTCG GAGAAGCAGA GCCCCATGGC CCAGCAGCAC 
    AGCCCCATGG CCCAGCAGAG TCCCCTGGCG CAGCAGAGCC CCGTCGCCCA GCACAGCCCC 
    GTGGCCCAGC CGCCACCTCC ACAGCCCCTC CAGCCCCAGG GACACGAGAA CAGTTACAGG 
    TCAGAAGTAA AAGCCAGGCA GGATGTGAAG CCTGACATCC GGCAACCCCC GTTTACAGAC 
    TACAGGCAAT CCTCCACGGA CTACCGGCAG CCCCCGCTGG ACTACCGGCA CCCGCCGGTG 
    ATGGATTACC AGCAGCCACC GCCGCTGGAC TACAGGCAGC CCCCGCTGAT GGACTACAGG 
    CAGCACTCCC CTGACACCAG GCAGTTCCCC CTGTCCGAGT ACAGGCAGCC CCAGGACTTT 
    GATTATTTCA CCGTTGATTT GGAGAAAGGA GCCAAAGGAT TTGGGTTTAG TATCCGAGGA 
    GGAAGGGAGT ACAAAATGGA TTTGTATGTG TTGAGGTTAG CAGAAGATGG ACCAGCAGTA 
    AGAAATGGAA GGATGAGGGT AGGAGATCAA ATAATTGAAA TCAATGGAGA AAGCACAAGG 
    GACATGACAC ATGCCAGAGC AATAGAGCTA ATCAAGTCTG GTGGCAGAAG AGTGCGACTG 
    TTGTTGAAAC GTGGAACAGG CCAGGTCCCA GAATATGACG AGCCAAACTC CTGGAGTGCT 
    CCCTCTGCCA CCGCCCCAGG TCTGCCGGAA GTAGCTCTTT CCCTCGACGA CATAATCTCA 
    CCATTATCTT CATCACACAT AGCCCCACCC TCTGACCCTT CTCACCAGAT AAGCCCAGAA 
    CCAACATGGG ATATCAAGAG GGAACACGAT ATAAGGAAAC CAAAGGAGCT TTCGGTGAAC 
    GGTCACAAAA AGAAAAGGTT AGGAGAACAA AGAGAAAGGT CAGCAAGTCC TAAAAAGGTA 
    GACAGGTCAA AGCACGAAGA GGCTTCTTGG AAAGGATATT CAGGAGGCAA AAGTAAGACC 
    ACTGATGGTG GCAGGCCCAC CTCAGAAAGC AAAGCGGTGG GACACAGCGT TATGATCGAG 
    GCTGGCGCAA GAGAGCACGT GTGTGCTGGA ACCAGTGATG AACAGTTTGG GAGGCTGAGG 
    AAGCCAGAAA GCAAGAGAGG AGGATCTCTT AGCAAAAAAG ATCACAGATC CACAAACACC 
    TGTGAGAAGT CAGCTGCAGC ACCCGACCAT GTCAAGACCG ATACAGGAGC TACCAAGACT 
    TACAGTAGCA ACCGCTGCAG CTCGCCTGGA AGTGATATGG ACCACAGCCA GAGGGACCCT 
    GATGGGAAAC CCAGCGAGTT CCCCAGGAAG GGACATCTCC ACTCCATTAG CACTCGCAGC 
    ACCAACACCA CAGTTCGAAA GGCAACGGTC TCTCCAGGGC CGTGGAAAAT CCCTGGCTCA 
    GATAAGCTAC CAAGCGTCCT GAAGTCTGGT ACTTCTGCCA TGAGCAGATA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    MAGI2 ( XM_012568848.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012424302.1 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OTd33841
    Clone ID Related Accession (Same CDS sequence) XM_012568848.2
    Accession Version XM_012568848.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4611bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1565193600000
    Organism Taeniopygia guttata(zebra finch)
    Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_012568848.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCA ACAAGTGCTG 
    CCCAGGACTG GTTTTCGAGC GGATTCCTCT GGTCCCGATT ACAAGGAGCT GGATGTTCAC 
    CTTCGGAGAA TGGAGTCTGG GTTTGGCTTC AGGATCCTGG GAGGAGATGA GCCTGGGCAG 
    CCTATTCTCA TCGGAGCAGT AATTGCCATG GGCTCCGCAG ACCGAGATGG TCGTCTCCAT 
    CCTGGGGATG AGCTGGTGTA CGTAGATGGG ATCCCAGTGG CCGGCAAAAC CCACCGATAT 
    GTGATTGATC TTATGCATAA TGCTGCCCGA AACGGGCAGG TGAATCTTAC TGTGAGGAGA 
    AAGGTGCTAC CCACAGAGTC CTCCAGCCAG AAAGGTGCCC CCGCGCCCGG TGCGACGCCC 
    CCTCGCAGCT CCCCCAGCGC GAGGAAAATG GCCAATAACC AAGGAGAACC CTGCCCAGAG 
    AATGGCAGAA GCCCAGGCTC GGTGTCTACA CACCACAGCT CTCCAAGAAG TGACTACACG 
    ACCTATGCCA ACAGCAACCA CGCGGCCTCC GGCAGCAGCG CCACTCCCCC CGAGGGCTTC 
    GCGTCGCACA GCCTGCAAAC CAGCGACGTG GTCATCCACC GCAAGGAGAA CGAAGGCTTC 
    GGCTTCGTCA TCATCAGCTC CCTCAACAGG CCCGAGTCTG GCTCCACAAT AACTGTACCC 
    CATAAAATAG GGCGGATAAT TGATGGAAGC CCTGCGGATC GCTGTGCAAA ACTTAAAGTT 
    GGAGACCGGA TCTTAGCTGT GAATGGCCAG TCTATTATTA ACATGCCTCA TGCAGATATT 
    GTGAAGCTAA TTAAAGATGC AGGTCTCAGT GTAACTCTTC GCATCATTCC TCAGGAGGAG 
    CTGAACAGCC CAGCCTCGGC CCCCAGCTCG GAGAAGCAGA GCCCCATGGC CCAGCAGCAC 
    AGCCCCATGG CCCAGCAGAG TCCCCTGGCG CAGCAGAGCC CCGTCGCCCA GCACAGCCCC 
    GTGGCCCAGC CGCCACCTCC ACAGCCCCTC CAGCCCCAGG GACACGAGAA CAGTTACAGG 
    TCAGAAGTAA AAGCCAGGCA GGATGTGAAG CCTGACATCC GGCAACCCCC GTTTACAGAC 
    TACAGGCAAT CCTCCACGGA CTACCGGCAG CCCCCGCTGG ACTACCGGCA CCCGCCGGTG 
    ATGGATTACC AGCAGCCACC GCCGCTGGAC TACAGGCAGC CCCCGCTGAT GGACTACAGG 
    CAGCACTCCC CTGACACCAG GCAGTTCCCC CTGTCCGAGT ACAGGCAGCC CCAGGACTTT 
    GATTATTTCA CCGTTGATTT GGAGAAAGGA GCCAAAGGAT TTGGGTTTAG TATCCGAGGA 
    GGAAGGGAGT ACAAAATGGA TTTGTATGTG TTGAGGTTAG CAGAAGATGG ACCAGCAGTA 
    AGAAATGGAA GGATGAGGGT AGGAGATCAA ATAATTGAAA TCAATGGAGA AAGCACAAGG 
    GACATGACAC ATGCCAGAGC AATAGAGCTA ATCAAGTCTG GTGGCAGAAG AGTGCGACTG 
    TTGTTGAAAC GTGGAACAGG CCAGGTCCCA GAATATGACG AGCCAAACTC CTGGAGTGCT 
    CCCTCTGCCA CCGCCCCAGG TCTGCCGGAA GTAGCTCTTT CCCTCGACGA CATAATCTCA 
    CCATTATCTT CATCACACAT AGCCCCACCC TCTGACCCTT CTCACCAGAT AAGCCCAGAA 
    CCAACATGGG ATATCAAGAG GGAACACGAT ATAAGGAAAC CAAAGGAGCT TTCGGTGAAC 
    GGTCACAAAA AGAAAAGGTT AGGAGAACAA AGAGAAAGGT CAGCAAGTCC TAAAAAGGTA 
    GACAGGTCAA AGCACGAAGA GGCTTCTTGG AAAGGATATT CAGGAGGCAA AAGTAAGACC 
    ACTGATGGTG GCAGGCCCAC CTCAGAAAGC AAAGCGGTGG GACACAGCGT TATGATCGAG 
    GCTGGCGCAA GAGAGCACGT GTGTGCTGGA ACCAGTGATG AACAGTTTGG GAGGCTGAGG 
    AAGCCAGAAA GCAAGAGAGG AGGATCTCTT AGCAAAAAAG ATCACAGATC CACAAACACC 
    TGTGAGAAGT CAGCTGCAGC ACCCGACCAT GTCAAGACCG ATACAGGAGC TACCAAGACT 
    TACAGTAGCA ACCGCTGCAG CTCGCCTGGA AGTGATATGG ACCACAGCCA GAGGGACCCT 
    GATGGGAAAC CCAGCGAGTT CCCCAGGAAG GGACATCTCC ACTCCATTAG CACTCGCAGC 
    ACCAACACCA CAGTTCGAAA GGCAACGGTC TCTCCAGGGC CGTGGAAAAT CCCTGGCTCA 
    GATAAGCTAC CAAGCGTCCT GAAGTCTGGT ACTTCTGCCA TGAGCAGATA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_012424302.1
    CDS266..4876
    Translation

    Target ORF information:

    RefSeq Version XM_012568848.2
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012568848.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCA ACAAGTGCTG 
    CCCAGGACTG GTTTTCGAGC GGATTCCTCT GGTCCCGATT ACAAGGAGCT GGATGTTCAC 
    CTTCGGAGAA TGGAGTCTGG GTTTGGCTTC AGGATCCTGG GAGGAGATGA GCCTGGGCAG 
    CCTATTCTCA TCGGAGCAGT AATTGCCATG GGCTCCGCAG ACCGAGATGG TCGTCTCCAT 
    CCTGGGGATG AGCTGGTGTA CGTAGATGGG ATCCCAGTGG CCGGCAAAAC CCACCGATAT 
    GTGATTGATC TTATGCATAA TGCTGCCCGA AACGGGCAGG TGAATCTTAC TGTGAGGAGA 
    AAGGTGCTAC CCACAGAGTC CTCCAGCCAG AAAGGTGCCC CCGCGCCCGG TGCGACGCCC 
    CCTCGCAGCT CCCCCAGCGC GAGGAAAATG GCCAATAACC AAGGAGAACC CTGCCCAGAG 
    AATGGCAGAA GCCCAGGCTC GGTGTCTACA CACCACAGCT CTCCAAGAAG TGACTACACG 
    ACCTATGCCA ACAGCAACCA CGCGGCCTCC GGCAGCAGCG CCACTCCCCC CGAGGGCTTC 
    GCGTCGCACA GCCTGCAAAC CAGCGACGTG GTCATCCACC GCAAGGAGAA CGAAGGCTTC 
    GGCTTCGTCA TCATCAGCTC CCTCAACAGG CCCGAGTCTG GCTCCACAAT AACTGTACCC 
    CATAAAATAG GGCGGATAAT TGATGGAAGC CCTGCGGATC GCTGTGCAAA ACTTAAAGTT 
    GGAGACCGGA TCTTAGCTGT GAATGGCCAG TCTATTATTA ACATGCCTCA TGCAGATATT 
    GTGAAGCTAA TTAAAGATGC AGGTCTCAGT GTAACTCTTC GCATCATTCC TCAGGAGGAG 
    CTGAACAGCC CAGCCTCGGC CCCCAGCTCG GAGAAGCAGA GCCCCATGGC CCAGCAGCAC 
    AGCCCCATGG CCCAGCAGAG TCCCCTGGCG CAGCAGAGCC CCGTCGCCCA GCACAGCCCC 
    GTGGCCCAGC CGCCACCTCC ACAGCCCCTC CAGCCCCAGG GACACGAGAA CAGTTACAGG 
    TCAGAAGTAA AAGCCAGGCA GGATGTGAAG CCTGACATCC GGCAACCCCC GTTTACAGAC 
    TACAGGCAAT CCTCCACGGA CTACCGGCAG CCCCCGCTGG ACTACCGGCA CCCGCCGGTG 
    ATGGATTACC AGCAGCCACC GCCGCTGGAC TACAGGCAGC CCCCGCTGAT GGACTACAGG 
    CAGCACTCCC CTGACACCAG GCAGTTCCCC CTGTCCGAGT ACAGGCAGCC CCAGGACTTT 
    GATTATTTCA CCGTTGATTT GGAGAAAGGA GCCAAAGGAT TTGGGTTTAG TATCCGAGGA 
    GGAAGGGAGT ACAAAATGGA TTTGTATGTG TTGAGGTTAG CAGAAGATGG ACCAGCAGTA 
    AGAAATGGAA GGATGAGGGT AGGAGATCAA ATAATTGAAA TCAATGGAGA AAGCACAAGG 
    GACATGACAC ATGCCAGAGC AATAGAGCTA ATCAAGTCTG GTGGCAGAAG AGTGCGACTG 
    TTGTTGAAAC GTGGAACAGG CCAGGTCCCA GAATATGACG AGCCAAACTC CTGGAGTGCT 
    CCCTCTGCCA CCGCCCCAGG TCTGCCGGAA GTAGCTCTTT CCCTCGACGA CATAATCTCA 
    CCATTATCTT CATCACACAT AGCCCCACCC TCTGACCCTT CTCACCAGAT AAGCCCAGAA 
    CCAACATGGG ATATCAAGAG GGAACACGAT ATAAGGAAAC CAAAGGAGCT TTCGGTGAAC 
    GGTCACAAAA AGAAAAGGTT AGGAGAACAA AGAGAAAGGT CAGCAAGTCC TAAAAAGGTA 
    GACAGGTCAA AGCACGAAGA GGCTTCTTGG AAAGGATATT CAGGAGGCAA AAGTAAGACC 
    ACTGATGGTG GCAGGCCCAC CTCAGAAAGC AAAGCGGTGG GACACAGCGT TATGATCGAG 
    GCTGGCGCAA GAGAGCACGT GTGTGCTGGA ACCAGTGATG AACAGTTTGG GAGGCTGAGG 
    AAGCCAGAAA GCAAGAGAGG AGGATCTCTT AGCAAAAAAG ATCACAGATC CACAAACACC 
    TGTGAGAAGT CAGCTGCAGC ACCCGACCAT GTCAAGACCG ATACAGGAGC TACCAAGACT 
    TACAGTAGCA ACCGCTGCAG CTCGCCTGGA AGTGATATGG ACCACAGCCA GAGGGACCCT 
    GATGGGAAAC CCAGCGAGTT CCCCAGGAAG GGACATCTCC ACTCCATTAG CACTCGCAGC 
    ACCAACACCA CAGTTCGAAA GGCAACGGTC TCTCCAGGGC CGTGGAAAAT CCCTGGCTCA 
    GATAAGCTAC CAAGCGTCCT GAAGTCTGGT ACTTCTGCCA TGAGCAGATA A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    MAGI2 ( XM_030263729.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030119589.1 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OTd33842
    Clone ID Related Accession (Same CDS sequence) XM_030263729.1
    Accession Version XM_030263729.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4605bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1565193600000
    Organism Taeniopygia guttata(zebra finch)
    Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAAACAAGT GCTGCCCAGG 
    ACTGGTTTTC GAGCGGATTC CTCTGGTCCC GATTACAAGG AGCTGGATGT TCACCTTCGG 
    AGAATGGAGT CTGGGTTTGG CTTCAGGATC CTGGGAGGAG ATGAGCCTGG GCAGCCTATT 
    CTCATCGGAG CAGTAATTGC CATGGGCTCC GCAGACCGAG ATGGTCGTCT CCATCCTGGG 
    GATGAGCTGG TGTACGTAGA TGGGATCCCA GTGGCCGGCA AAACCCACCG ATATGTGATT 
    GATCTTATGC ATAATGCTGC CCGAAACGGG CAGGTGAATC TTACTGTGAG GAGAAAGGTG 
    CTACCCACAG AGTCCTCCAG CCAGAAAGGT GCCCCCGCGC CCGGTGCGAC GCCCCCTCGC 
    AGCTCCCCCA GCGCGAGGAA AATGGCCAAT AACCAAGGAG AACCCTGCCC AGAGAATGGC 
    AGAAGCCCAG GCTCGGTGTC TACACACCAC AGCTCTCCAA GAAGTGACTA CACGACCTAT 
    GCCAACAGCA ACCACGCGGC CTCCGGCAGC AGCGCCACTC CCCCCGAGGG CTTCGCGTCG 
    CACAGCCTGC AAACCAGCGA CGTGGTCATC CACCGCAAGG AGAACGAAGG CTTCGGCTTC 
    GTCATCATCA GCTCCCTCAA CAGGCCCGAG TCTGGCTCCA CAATAACTGT ACCCCATAAA 
    ATAGGGCGGA TAATTGATGG AAGCCCTGCG GATCGCTGTG CAAAACTTAA AGTTGGAGAC 
    CGGATCTTAG CTGTGAATGG CCAGTCTATT ATTAACATGC CTCATGCAGA TATTGTGAAG 
    CTAATTAAAG ATGCAGGTCT CAGTGTAACT CTTCGCATCA TTCCTCAGGA GGAGCTGAAC 
    AGCCCAGCCT CGGCCCCCAG CTCGGAGAAG CAGAGCCCCA TGGCCCAGCA GCACAGCCCC 
    ATGGCCCAGC AGAGTCCCCT GGCGCAGCAG AGCCCCGTCG CCCAGCACAG CCCCGTGGCC 
    CAGCCGCCAC CTCCACAGCC CCTCCAGCCC CAGGGACACG AGAACAGTTA CAGGTCAGAA 
    GTAAAAGCCA GGCAGGATGT GAAGCCTGAC ATCCGGCAAC CCCCGTTTAC AGACTACAGG 
    CAATCCTCCA CGGACTACCG GCAGCCCCCG CTGGACTACC GGCACCCGCC GGTGATGGAT 
    TACCAGCAGC CACCGCCGCT GGACTACAGG CAGCCCCCGC TGATGGACTA CAGGCAGCAC 
    TCCCCTGACA CCAGGCAGTT CCCCCTGTCC GAGTACAGGC AGCCCCAGGA CTTTGATTAT 
    TTCACCGTTG ATTTGGAGAA AGGAGCCAAA GGATTTGGGT TTAGTATCCG AGGAGGAAGG 
    GAGTACAAAA TGGATTTGTA TGTGTTGAGG TTAGCAGAAG ATGGACCAGC AGTAAGAAAT 
    GGAAGGATGA GGGTAGGAGA TCAAATAATT GAAATCAATG GAGAAAGCAC AAGGGACATG 
    ACACATGCCA GAGCAATAGA GCTAATCAAG TCTGGTGGCA GAAGAGTGCG ACTGTTGTTG 
    AAACGTGGAA CAGGCCAGGT CCCAGAATAT GACGAGCCAA ACTCCTGGAG TGCTCCCTCT 
    GCCACCGCCC CAGGTCTGCC GGAAGTAGCT CTTTCCCTCG ACGACATAAT CTCACCATTA 
    TCTTCATCAC ACATAGCCCC ACCCTCTGAC CCTTCTCACC AGATAAGCCC AGAACCAACA 
    TGGGATATCA AGAGGGAACA CGATATAAGG AAACCAAAGG AGCTTTCGGT GAACGGTCAC 
    AAAAAGAAAA GGTTAGGAGA ACAAAGAGAA AGGTCAGCAA GTCCTAAAAA GGTAGACAGG 
    TCAAAGCACG AAGAGGCTTC TTGGAAAGGA TATTCAGGAG GCAAAAGTAA GACCACTGAT 
    GGTGGCAGGC CCACCTCAGA AAGCAAAGCG GTGGGACACA GCGTTATGAT CGAGGCTGGC 
    GCAAGAGAGC ACGTGTGTGC TGGAACCAGT GATGAACAGT TTGGGAGGCT GAGGAAGCCA 
    GAAAGCAAGA GAGGAGGATC TCTTAGCAAA AAAGATCACA GATCCACAAA CACCTGTGAG 
    AAGTCAGCTG CAGCACCCGA CCATGTCAAG ACCGATACAG GAGCTACCAA GACTTACAGT 
    AGCAACCGCT GCAGCTCGCC TGGAAGTGAT ATGGACCACA GCCAGAGGGA CCCTGATGGG 
    AAACCCAGCG AGTTCCCCAG GAAGGGACAT CTCCACTCCA TTAGCACTCG CAGCACCAAC 
    ACCACAGTTC GAAAGGCAAC GGTCTCTCCA GGGCCGTGGA AAATCCCTGG CTCAGATAAG 
    CTACCAAGCG TCCTGAAGTC TGGTACTTCT GCCATGAGCA GATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_030119589.1
    CDS266..4870
    Translation

    Target ORF information:

    RefSeq Version XM_030263729.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030263729.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAAACAAGT GCTGCCCAGG 
    ACTGGTTTTC GAGCGGATTC CTCTGGTCCC GATTACAAGG AGCTGGATGT TCACCTTCGG 
    AGAATGGAGT CTGGGTTTGG CTTCAGGATC CTGGGAGGAG ATGAGCCTGG GCAGCCTATT 
    CTCATCGGAG CAGTAATTGC CATGGGCTCC GCAGACCGAG ATGGTCGTCT CCATCCTGGG 
    GATGAGCTGG TGTACGTAGA TGGGATCCCA GTGGCCGGCA AAACCCACCG ATATGTGATT 
    GATCTTATGC ATAATGCTGC CCGAAACGGG CAGGTGAATC TTACTGTGAG GAGAAAGGTG 
    CTACCCACAG AGTCCTCCAG CCAGAAAGGT GCCCCCGCGC CCGGTGCGAC GCCCCCTCGC 
    AGCTCCCCCA GCGCGAGGAA AATGGCCAAT AACCAAGGAG AACCCTGCCC AGAGAATGGC 
    AGAAGCCCAG GCTCGGTGTC TACACACCAC AGCTCTCCAA GAAGTGACTA CACGACCTAT 
    GCCAACAGCA ACCACGCGGC CTCCGGCAGC AGCGCCACTC CCCCCGAGGG CTTCGCGTCG 
    CACAGCCTGC AAACCAGCGA CGTGGTCATC CACCGCAAGG AGAACGAAGG CTTCGGCTTC 
    GTCATCATCA GCTCCCTCAA CAGGCCCGAG TCTGGCTCCA CAATAACTGT ACCCCATAAA 
    ATAGGGCGGA TAATTGATGG AAGCCCTGCG GATCGCTGTG CAAAACTTAA AGTTGGAGAC 
    CGGATCTTAG CTGTGAATGG CCAGTCTATT ATTAACATGC CTCATGCAGA TATTGTGAAG 
    CTAATTAAAG ATGCAGGTCT CAGTGTAACT CTTCGCATCA TTCCTCAGGA GGAGCTGAAC 
    AGCCCAGCCT CGGCCCCCAG CTCGGAGAAG CAGAGCCCCA TGGCCCAGCA GCACAGCCCC 
    ATGGCCCAGC AGAGTCCCCT GGCGCAGCAG AGCCCCGTCG CCCAGCACAG CCCCGTGGCC 
    CAGCCGCCAC CTCCACAGCC CCTCCAGCCC CAGGGACACG AGAACAGTTA CAGGTCAGAA 
    GTAAAAGCCA GGCAGGATGT GAAGCCTGAC ATCCGGCAAC CCCCGTTTAC AGACTACAGG 
    CAATCCTCCA CGGACTACCG GCAGCCCCCG CTGGACTACC GGCACCCGCC GGTGATGGAT 
    TACCAGCAGC CACCGCCGCT GGACTACAGG CAGCCCCCGC TGATGGACTA CAGGCAGCAC 
    TCCCCTGACA CCAGGCAGTT CCCCCTGTCC GAGTACAGGC AGCCCCAGGA CTTTGATTAT 
    TTCACCGTTG ATTTGGAGAA AGGAGCCAAA GGATTTGGGT TTAGTATCCG AGGAGGAAGG 
    GAGTACAAAA TGGATTTGTA TGTGTTGAGG TTAGCAGAAG ATGGACCAGC AGTAAGAAAT 
    GGAAGGATGA GGGTAGGAGA TCAAATAATT GAAATCAATG GAGAAAGCAC AAGGGACATG 
    ACACATGCCA GAGCAATAGA GCTAATCAAG TCTGGTGGCA GAAGAGTGCG ACTGTTGTTG 
    AAACGTGGAA CAGGCCAGGT CCCAGAATAT GACGAGCCAA ACTCCTGGAG TGCTCCCTCT 
    GCCACCGCCC CAGGTCTGCC GGAAGTAGCT CTTTCCCTCG ACGACATAAT CTCACCATTA 
    TCTTCATCAC ACATAGCCCC ACCCTCTGAC CCTTCTCACC AGATAAGCCC AGAACCAACA 
    TGGGATATCA AGAGGGAACA CGATATAAGG AAACCAAAGG AGCTTTCGGT GAACGGTCAC 
    AAAAAGAAAA GGTTAGGAGA ACAAAGAGAA AGGTCAGCAA GTCCTAAAAA GGTAGACAGG 
    TCAAAGCACG AAGAGGCTTC TTGGAAAGGA TATTCAGGAG GCAAAAGTAA GACCACTGAT 
    GGTGGCAGGC CCACCTCAGA AAGCAAAGCG GTGGGACACA GCGTTATGAT CGAGGCTGGC 
    GCAAGAGAGC ACGTGTGTGC TGGAACCAGT GATGAACAGT TTGGGAGGCT GAGGAAGCCA 
    GAAAGCAAGA GAGGAGGATC TCTTAGCAAA AAAGATCACA GATCCACAAA CACCTGTGAG 
    AAGTCAGCTG CAGCACCCGA CCATGTCAAG ACCGATACAG GAGCTACCAA GACTTACAGT 
    AGCAACCGCT GCAGCTCGCC TGGAAGTGAT ATGGACCACA GCCAGAGGGA CCCTGATGGG 
    AAACCCAGCG AGTTCCCCAG GAAGGGACAT CTCCACTCCA TTAGCACTCG CAGCACCAAC 
    ACCACAGTTC GAAAGGCAAC GGTCTCTCCA GGGCCGTGGA AAATCCCTGG CTCAGATAAG 
    CTACCAAGCG TCCTGAAGTC TGGTACTTCT GCCATGAGCA GATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    MAGI2 ( XM_030263730.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030119590.1 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OTd33843
    Clone ID Related Accession (Same CDS sequence) XM_030263730.1
    Accession Version XM_030263730.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4569bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1565193600000
    Organism Taeniopygia guttata(zebra finch)
    Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCG TCCCGATTAC 
    AAGGAGCTGG ATGTTCACCT TCGGAGAATG GAGTCTGGGT TTGGCTTCAG GATCCTGGGA 
    GGAGATGAGC CTGGGCAGCC TATTCTCATC GGAGCAGTAA TTGCCATGGG CTCCGCAGAC 
    CGAGATGGTC GTCTCCATCC TGGGGATGAG CTGGTGTACG TAGATGGGAT CCCAGTGGCC 
    GGCAAAACCC ACCGATATGT GATTGATCTT ATGCATAATG CTGCCCGAAA CGGGCAGGTG 
    AATCTTACTG TGAGGAGAAA GGTGCTACCC ACAGAGTCCT CCAGCCAGAA AGGTGCCCCC 
    GCGCCCGGTG CGACGCCCCC TCGCAGCTCC CCCAGCGCGA GGAAAATGGC CAATAACCAA 
    GGAGAACCCT GCCCAGAGAA TGGCAGAAGC CCAGGCTCGG TGTCTACACA CCACAGCTCT 
    CCAAGAAGTG ACTACACGAC CTATGCCAAC AGCAACCACG CGGCCTCCGG CAGCAGCGCC 
    ACTCCCCCCG AGGGCTTCGC GTCGCACAGC CTGCAAACCA GCGACGTGGT CATCCACCGC 
    AAGGAGAACG AAGGCTTCGG CTTCGTCATC ATCAGCTCCC TCAACAGGCC CGAGTCTGGC 
    TCCACAATAA CTGTACCCCA TAAAATAGGG CGGATAATTG ATGGAAGCCC TGCGGATCGC 
    TGTGCAAAAC TTAAAGTTGG AGACCGGATC TTAGCTGTGA ATGGCCAGTC TATTATTAAC 
    ATGCCTCATG CAGATATTGT GAAGCTAATT AAAGATGCAG GTCTCAGTGT AACTCTTCGC 
    ATCATTCCTC AGGAGGAGCT GAACAGCCCA GCCTCGGCCC CCAGCTCGGA GAAGCAGAGC 
    CCCATGGCCC AGCAGCACAG CCCCATGGCC CAGCAGAGTC CCCTGGCGCA GCAGAGCCCC 
    GTCGCCCAGC ACAGCCCCGT GGCCCAGCCG CCACCTCCAC AGCCCCTCCA GCCCCAGGGA 
    CACGAGAACA GTTACAGGTC AGAAGTAAAA GCCAGGCAGG ATGTGAAGCC TGACATCCGG 
    CAACCCCCGT TTACAGACTA CAGGCAATCC TCCACGGACT ACCGGCAGCC CCCGCTGGAC 
    TACCGGCACC CGCCGGTGAT GGATTACCAG CAGCCACCGC CGCTGGACTA CAGGCAGCCC 
    CCGCTGATGG ACTACAGGCA GCACTCCCCT GACACCAGGC AGTTCCCCCT GTCCGAGTAC 
    AGGCAGCCCC AGGACTTTGA TTATTTCACC GTTGATTTGG AGAAAGGAGC CAAAGGATTT 
    GGGTTTAGTA TCCGAGGAGG AAGGGAGTAC AAAATGGATT TGTATGTGTT GAGGTTAGCA 
    GAAGATGGAC CAGCAGTAAG AAATGGAAGG ATGAGGGTAG GAGATCAAAT AATTGAAATC 
    AATGGAGAAA GCACAAGGGA CATGACACAT GCCAGAGCAA TAGAGCTAAT CAAGTCTGGT 
    GGCAGAAGAG TGCGACTGTT GTTGAAACGT GGAACAGGCC AGGTCCCAGA ATATGACGAG 
    CCAAACTCCT GGAGTGCTCC CTCTGCCACC GCCCCAGGTC TGCCGGAAGT AGCTCTTTCC 
    CTCGACGACA TAATCTCACC ATTATCTTCA TCACACATAG CCCCACCCTC TGACCCTTCT 
    CACCAGATAA GCCCAGAACC AACATGGGAT ATCAAGAGGG AACACGATAT AAGGAAACCA 
    AAGGAGCTTT CGGTGAACGG TCACAAAAAG AAAAGGTTAG GAGAACAAAG AGAAAGGTCA 
    GCAAGTCCTA AAAAGGTAGA CAGGTCAAAG CACGAAGAGG CTTCTTGGAA AGGATATTCA 
    GGAGGCAAAA GTAAGACCAC TGATGGTGGC AGGCCCACCT CAGAAAGCAA AGCGGTGGGA 
    CACAGCGTTA TGATCGAGGC TGGCGCAAGA GAGCACGTGT GTGCTGGAAC CAGTGATGAA 
    CAGTTTGGGA GGCTGAGGAA GCCAGAAAGC AAGAGAGGAG GATCTCTTAG CAAAAAAGAT 
    CACAGATCCA CAAACACCTG TGAGAAGTCA GCTGCAGCAC CCGACCATGT CAAGACCGAT 
    ACAGGAGCTA CCAAGACTTA CAGTAGCAAC CGCTGCAGCT CGCCTGGAAG TGATATGGAC 
    CACAGCCAGA GGGACCCTGA TGGGAAACCC AGCGAGTTCC CCAGGAAGGG ACATCTCCAC 
    TCCATTAGCA CTCGCAGCAC CAACACCACA GTTCGAAAGG CAACGGTCTC TCCAGGGCCG 
    TGGAAAATCC CTGGCTCAGA TAAGCTACCA AGCGTCCTGA AGTCTGGTAC TTCTGCCATG 
    AGCAGATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_030119590.1
    CDS266..4834
    Translation

    Target ORF information:

    RefSeq Version XM_030263730.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030263730.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCG TCCCGATTAC 
    AAGGAGCTGG ATGTTCACCT TCGGAGAATG GAGTCTGGGT TTGGCTTCAG GATCCTGGGA 
    GGAGATGAGC CTGGGCAGCC TATTCTCATC GGAGCAGTAA TTGCCATGGG CTCCGCAGAC 
    CGAGATGGTC GTCTCCATCC TGGGGATGAG CTGGTGTACG TAGATGGGAT CCCAGTGGCC 
    GGCAAAACCC ACCGATATGT GATTGATCTT ATGCATAATG CTGCCCGAAA CGGGCAGGTG 
    AATCTTACTG TGAGGAGAAA GGTGCTACCC ACAGAGTCCT CCAGCCAGAA AGGTGCCCCC 
    GCGCCCGGTG CGACGCCCCC TCGCAGCTCC CCCAGCGCGA GGAAAATGGC CAATAACCAA 
    GGAGAACCCT GCCCAGAGAA TGGCAGAAGC CCAGGCTCGG TGTCTACACA CCACAGCTCT 
    CCAAGAAGTG ACTACACGAC CTATGCCAAC AGCAACCACG CGGCCTCCGG CAGCAGCGCC 
    ACTCCCCCCG AGGGCTTCGC GTCGCACAGC CTGCAAACCA GCGACGTGGT CATCCACCGC 
    AAGGAGAACG AAGGCTTCGG CTTCGTCATC ATCAGCTCCC TCAACAGGCC CGAGTCTGGC 
    TCCACAATAA CTGTACCCCA TAAAATAGGG CGGATAATTG ATGGAAGCCC TGCGGATCGC 
    TGTGCAAAAC TTAAAGTTGG AGACCGGATC TTAGCTGTGA ATGGCCAGTC TATTATTAAC 
    ATGCCTCATG CAGATATTGT GAAGCTAATT AAAGATGCAG GTCTCAGTGT AACTCTTCGC 
    ATCATTCCTC AGGAGGAGCT GAACAGCCCA GCCTCGGCCC CCAGCTCGGA GAAGCAGAGC 
    CCCATGGCCC AGCAGCACAG CCCCATGGCC CAGCAGAGTC CCCTGGCGCA GCAGAGCCCC 
    GTCGCCCAGC ACAGCCCCGT GGCCCAGCCG CCACCTCCAC AGCCCCTCCA GCCCCAGGGA 
    CACGAGAACA GTTACAGGTC AGAAGTAAAA GCCAGGCAGG ATGTGAAGCC TGACATCCGG 
    CAACCCCCGT TTACAGACTA CAGGCAATCC TCCACGGACT ACCGGCAGCC CCCGCTGGAC 
    TACCGGCACC CGCCGGTGAT GGATTACCAG CAGCCACCGC CGCTGGACTA CAGGCAGCCC 
    CCGCTGATGG ACTACAGGCA GCACTCCCCT GACACCAGGC AGTTCCCCCT GTCCGAGTAC 
    AGGCAGCCCC AGGACTTTGA TTATTTCACC GTTGATTTGG AGAAAGGAGC CAAAGGATTT 
    GGGTTTAGTA TCCGAGGAGG AAGGGAGTAC AAAATGGATT TGTATGTGTT GAGGTTAGCA 
    GAAGATGGAC CAGCAGTAAG AAATGGAAGG ATGAGGGTAG GAGATCAAAT AATTGAAATC 
    AATGGAGAAA GCACAAGGGA CATGACACAT GCCAGAGCAA TAGAGCTAAT CAAGTCTGGT 
    GGCAGAAGAG TGCGACTGTT GTTGAAACGT GGAACAGGCC AGGTCCCAGA ATATGACGAG 
    CCAAACTCCT GGAGTGCTCC CTCTGCCACC GCCCCAGGTC TGCCGGAAGT AGCTCTTTCC 
    CTCGACGACA TAATCTCACC ATTATCTTCA TCACACATAG CCCCACCCTC TGACCCTTCT 
    CACCAGATAA GCCCAGAACC AACATGGGAT ATCAAGAGGG AACACGATAT AAGGAAACCA 
    AAGGAGCTTT CGGTGAACGG TCACAAAAAG AAAAGGTTAG GAGAACAAAG AGAAAGGTCA 
    GCAAGTCCTA AAAAGGTAGA CAGGTCAAAG CACGAAGAGG CTTCTTGGAA AGGATATTCA 
    GGAGGCAAAA GTAAGACCAC TGATGGTGGC AGGCCCACCT CAGAAAGCAA AGCGGTGGGA 
    CACAGCGTTA TGATCGAGGC TGGCGCAAGA GAGCACGTGT GTGCTGGAAC CAGTGATGAA 
    CAGTTTGGGA GGCTGAGGAA GCCAGAAAGC AAGAGAGGAG GATCTCTTAG CAAAAAAGAT 
    CACAGATCCA CAAACACCTG TGAGAAGTCA GCTGCAGCAC CCGACCATGT CAAGACCGAT 
    ACAGGAGCTA CCAAGACTTA CAGTAGCAAC CGCTGCAGCT CGCCTGGAAG TGATATGGAC 
    CACAGCCAGA GGGACCCTGA TGGGAAACCC AGCGAGTTCC CCAGGAAGGG ACATCTCCAC 
    TCCATTAGCA CTCGCAGCAC CAACACCACA GTTCGAAAGG CAACGGTCTC TCCAGGGCCG 
    TGGAAAATCC CTGGCTCAGA TAAGCTACCA AGCGTCCTGA AGTCTGGTAC TTCTGCCATG 
    AGCAGATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    MAGI2 ( XM_030263731.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030119591.1 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OTd33844
    Clone ID Related Accession (Same CDS sequence) XM_030263731.1
    Accession Version XM_030263731.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4563bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1565193600000
    Organism Taeniopygia guttata(zebra finch)
    Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTCCCGA TTACAAGGAG 
    CTGGATGTTC ACCTTCGGAG AATGGAGTCT GGGTTTGGCT TCAGGATCCT GGGAGGAGAT 
    GAGCCTGGGC AGCCTATTCT CATCGGAGCA GTAATTGCCA TGGGCTCCGC AGACCGAGAT 
    GGTCGTCTCC ATCCTGGGGA TGAGCTGGTG TACGTAGATG GGATCCCAGT GGCCGGCAAA 
    ACCCACCGAT ATGTGATTGA TCTTATGCAT AATGCTGCCC GAAACGGGCA GGTGAATCTT 
    ACTGTGAGGA GAAAGGTGCT ACCCACAGAG TCCTCCAGCC AGAAAGGTGC CCCCGCGCCC 
    GGTGCGACGC CCCCTCGCAG CTCCCCCAGC GCGAGGAAAA TGGCCAATAA CCAAGGAGAA 
    CCCTGCCCAG AGAATGGCAG AAGCCCAGGC TCGGTGTCTA CACACCACAG CTCTCCAAGA 
    AGTGACTACA CGACCTATGC CAACAGCAAC CACGCGGCCT CCGGCAGCAG CGCCACTCCC 
    CCCGAGGGCT TCGCGTCGCA CAGCCTGCAA ACCAGCGACG TGGTCATCCA CCGCAAGGAG 
    AACGAAGGCT TCGGCTTCGT CATCATCAGC TCCCTCAACA GGCCCGAGTC TGGCTCCACA 
    ATAACTGTAC CCCATAAAAT AGGGCGGATA ATTGATGGAA GCCCTGCGGA TCGCTGTGCA 
    AAACTTAAAG TTGGAGACCG GATCTTAGCT GTGAATGGCC AGTCTATTAT TAACATGCCT 
    CATGCAGATA TTGTGAAGCT AATTAAAGAT GCAGGTCTCA GTGTAACTCT TCGCATCATT 
    CCTCAGGAGG AGCTGAACAG CCCAGCCTCG GCCCCCAGCT CGGAGAAGCA GAGCCCCATG 
    GCCCAGCAGC ACAGCCCCAT GGCCCAGCAG AGTCCCCTGG CGCAGCAGAG CCCCGTCGCC 
    CAGCACAGCC CCGTGGCCCA GCCGCCACCT CCACAGCCCC TCCAGCCCCA GGGACACGAG 
    AACAGTTACA GGTCAGAAGT AAAAGCCAGG CAGGATGTGA AGCCTGACAT CCGGCAACCC 
    CCGTTTACAG ACTACAGGCA ATCCTCCACG GACTACCGGC AGCCCCCGCT GGACTACCGG 
    CACCCGCCGG TGATGGATTA CCAGCAGCCA CCGCCGCTGG ACTACAGGCA GCCCCCGCTG 
    ATGGACTACA GGCAGCACTC CCCTGACACC AGGCAGTTCC CCCTGTCCGA GTACAGGCAG 
    CCCCAGGACT TTGATTATTT CACCGTTGAT TTGGAGAAAG GAGCCAAAGG ATTTGGGTTT 
    AGTATCCGAG GAGGAAGGGA GTACAAAATG GATTTGTATG TGTTGAGGTT AGCAGAAGAT 
    GGACCAGCAG TAAGAAATGG AAGGATGAGG GTAGGAGATC AAATAATTGA AATCAATGGA 
    GAAAGCACAA GGGACATGAC ACATGCCAGA GCAATAGAGC TAATCAAGTC TGGTGGCAGA 
    AGAGTGCGAC TGTTGTTGAA ACGTGGAACA GGCCAGGTCC CAGAATATGA CGAGCCAAAC 
    TCCTGGAGTG CTCCCTCTGC CACCGCCCCA GGTCTGCCGG AAGTAGCTCT TTCCCTCGAC 
    GACATAATCT CACCATTATC TTCATCACAC ATAGCCCCAC CCTCTGACCC TTCTCACCAG 
    ATAAGCCCAG AACCAACATG GGATATCAAG AGGGAACACG ATATAAGGAA ACCAAAGGAG 
    CTTTCGGTGA ACGGTCACAA AAAGAAAAGG TTAGGAGAAC AAAGAGAAAG GTCAGCAAGT 
    CCTAAAAAGG TAGACAGGTC AAAGCACGAA GAGGCTTCTT GGAAAGGATA TTCAGGAGGC 
    AAAAGTAAGA CCACTGATGG TGGCAGGCCC ACCTCAGAAA GCAAAGCGGT GGGACACAGC 
    GTTATGATCG AGGCTGGCGC AAGAGAGCAC GTGTGTGCTG GAACCAGTGA TGAACAGTTT 
    GGGAGGCTGA GGAAGCCAGA AAGCAAGAGA GGAGGATCTC TTAGCAAAAA AGATCACAGA 
    TCCACAAACA CCTGTGAGAA GTCAGCTGCA GCACCCGACC ATGTCAAGAC CGATACAGGA 
    GCTACCAAGA CTTACAGTAG CAACCGCTGC AGCTCGCCTG GAAGTGATAT GGACCACAGC 
    CAGAGGGACC CTGATGGGAA ACCCAGCGAG TTCCCCAGGA AGGGACATCT CCACTCCATT 
    AGCACTCGCA GCACCAACAC CACAGTTCGA AAGGCAACGG TCTCTCCAGG GCCGTGGAAA 
    ATCCCTGGCT CAGATAAGCT ACCAAGCGTC CTGAAGTCTG GTACTTCTGC CATGAGCAGA 
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_030119591.1
    CDS266..4828
    Translation

    Target ORF information:

    RefSeq Version XM_030263731.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030263731.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTCCCGA TTACAAGGAG 
    CTGGATGTTC ACCTTCGGAG AATGGAGTCT GGGTTTGGCT TCAGGATCCT GGGAGGAGAT 
    GAGCCTGGGC AGCCTATTCT CATCGGAGCA GTAATTGCCA TGGGCTCCGC AGACCGAGAT 
    GGTCGTCTCC ATCCTGGGGA TGAGCTGGTG TACGTAGATG GGATCCCAGT GGCCGGCAAA 
    ACCCACCGAT ATGTGATTGA TCTTATGCAT AATGCTGCCC GAAACGGGCA GGTGAATCTT 
    ACTGTGAGGA GAAAGGTGCT ACCCACAGAG TCCTCCAGCC AGAAAGGTGC CCCCGCGCCC 
    GGTGCGACGC CCCCTCGCAG CTCCCCCAGC GCGAGGAAAA TGGCCAATAA CCAAGGAGAA 
    CCCTGCCCAG AGAATGGCAG AAGCCCAGGC TCGGTGTCTA CACACCACAG CTCTCCAAGA 
    AGTGACTACA CGACCTATGC CAACAGCAAC CACGCGGCCT CCGGCAGCAG CGCCACTCCC 
    CCCGAGGGCT TCGCGTCGCA CAGCCTGCAA ACCAGCGACG TGGTCATCCA CCGCAAGGAG 
    AACGAAGGCT TCGGCTTCGT CATCATCAGC TCCCTCAACA GGCCCGAGTC TGGCTCCACA 
    ATAACTGTAC CCCATAAAAT AGGGCGGATA ATTGATGGAA GCCCTGCGGA TCGCTGTGCA 
    AAACTTAAAG TTGGAGACCG GATCTTAGCT GTGAATGGCC AGTCTATTAT TAACATGCCT 
    CATGCAGATA TTGTGAAGCT AATTAAAGAT GCAGGTCTCA GTGTAACTCT TCGCATCATT 
    CCTCAGGAGG AGCTGAACAG CCCAGCCTCG GCCCCCAGCT CGGAGAAGCA GAGCCCCATG 
    GCCCAGCAGC ACAGCCCCAT GGCCCAGCAG AGTCCCCTGG CGCAGCAGAG CCCCGTCGCC 
    CAGCACAGCC CCGTGGCCCA GCCGCCACCT CCACAGCCCC TCCAGCCCCA GGGACACGAG 
    AACAGTTACA GGTCAGAAGT AAAAGCCAGG CAGGATGTGA AGCCTGACAT CCGGCAACCC 
    CCGTTTACAG ACTACAGGCA ATCCTCCACG GACTACCGGC AGCCCCCGCT GGACTACCGG 
    CACCCGCCGG TGATGGATTA CCAGCAGCCA CCGCCGCTGG ACTACAGGCA GCCCCCGCTG 
    ATGGACTACA GGCAGCACTC CCCTGACACC AGGCAGTTCC CCCTGTCCGA GTACAGGCAG 
    CCCCAGGACT TTGATTATTT CACCGTTGAT TTGGAGAAAG GAGCCAAAGG ATTTGGGTTT 
    AGTATCCGAG GAGGAAGGGA GTACAAAATG GATTTGTATG TGTTGAGGTT AGCAGAAGAT 
    GGACCAGCAG TAAGAAATGG AAGGATGAGG GTAGGAGATC AAATAATTGA AATCAATGGA 
    GAAAGCACAA GGGACATGAC ACATGCCAGA GCAATAGAGC TAATCAAGTC TGGTGGCAGA 
    AGAGTGCGAC TGTTGTTGAA ACGTGGAACA GGCCAGGTCC CAGAATATGA CGAGCCAAAC 
    TCCTGGAGTG CTCCCTCTGC CACCGCCCCA GGTCTGCCGG AAGTAGCTCT TTCCCTCGAC 
    GACATAATCT CACCATTATC TTCATCACAC ATAGCCCCAC CCTCTGACCC TTCTCACCAG 
    ATAAGCCCAG AACCAACATG GGATATCAAG AGGGAACACG ATATAAGGAA ACCAAAGGAG 
    CTTTCGGTGA ACGGTCACAA AAAGAAAAGG TTAGGAGAAC AAAGAGAAAG GTCAGCAAGT 
    CCTAAAAAGG TAGACAGGTC AAAGCACGAA GAGGCTTCTT GGAAAGGATA TTCAGGAGGC 
    AAAAGTAAGA CCACTGATGG TGGCAGGCCC ACCTCAGAAA GCAAAGCGGT GGGACACAGC 
    GTTATGATCG AGGCTGGCGC AAGAGAGCAC GTGTGTGCTG GAACCAGTGA TGAACAGTTT 
    GGGAGGCTGA GGAAGCCAGA AAGCAAGAGA GGAGGATCTC TTAGCAAAAA AGATCACAGA 
    TCCACAAACA CCTGTGAGAA GTCAGCTGCA GCACCCGACC ATGTCAAGAC CGATACAGGA 
    GCTACCAAGA CTTACAGTAG CAACCGCTGC AGCTCGCCTG GAAGTGATAT GGACCACAGC 
    CAGAGGGACC CTGATGGGAA ACCCAGCGAG TTCCCCAGGA AGGGACATCT CCACTCCATT 
    AGCACTCGCA GCACCAACAC CACAGTTCGA AAGGCAACGG TCTCTCCAGG GCCGTGGAAA 
    ATCCCTGGCT CAGATAAGCT ACCAAGCGTC CTGAAGTCTG GTACTTCTGC CATGAGCAGA 
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    MAGI2 ( XM_030263732.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030119592.1 Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OTd33845
    Clone ID Related Accession (Same CDS sequence) XM_030263732.1
    Accession Version XM_030263732.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4524bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 1565193600000
    Organism Taeniopygia guttata(zebra finch)
    Product membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCA ACAAGTGCTG 
    CCCAGGACTG GTTTTCGAGC GGATTCCTCT GGTCCCGATT ACAAGGAGCT GGATGTTCAC 
    CTTCGGAGAA TGGAGTCTGG GTTTGGCTTC AGGATCCTGG GAGGAGATGA GCCTGGGCAG 
    CCTATTCTCA TCGGAGCAGT AATTGCCATG GGCTCCGCAG ACCGAGATGG TCGTCTCCAT 
    CCTGGGGATG AGCTGGTGTA CGTAGATGGG ATCCCAGTGG CCGGCAAAAC CCACCGATAT 
    GTGATTGATC TTATGCATAA TGCTGCCCGA AACGGGCAGG TGAATCTTAC TGTGAGGAGA 
    AAGGTGCTAC CCACAGGAGA ACCCTGCCCA GAGAATGGCA GAAGCCCAGG CTCGGTGTCT 
    ACACACCACA GCTCTCCAAG AAGTGACTAC ACGACCTATG CCAACAGCAA CCACGCGGCC 
    TCCGGCAGCA GCGCCACTCC CCCCGAGGGC TTCGCGTCGC ACAGCCTGCA AACCAGCGAC 
    GTGGTCATCC ACCGCAAGGA GAACGAAGGC TTCGGCTTCG TCATCATCAG CTCCCTCAAC 
    AGGCCCGAGT CTGGCTCCAC AATAACTGTA CCCCATAAAA TAGGGCGGAT AATTGATGGA 
    AGCCCTGCGG ATCGCTGTGC AAAACTTAAA GTTGGAGACC GGATCTTAGC TGTGAATGGC 
    CAGTCTATTA TTAACATGCC TCATGCAGAT ATTGTGAAGC TAATTAAAGA TGCAGGTCTC 
    AGTGTAACTC TTCGCATCAT TCCTCAGGAG GAGCTGAACA GCCCAGCCTC GGCCCCCAGC 
    TCGGAGAAGC AGAGCCCCAT GGCCCAGCAG CACAGCCCCA TGGCCCAGCA GAGTCCCCTG 
    GCGCAGCAGA GCCCCGTCGC CCAGCACAGC CCCGTGGCCC AGCCGCCACC TCCACAGCCC 
    CTCCAGCCCC AGGGACACGA GAACAGTTAC AGGTCAGAAG TAAAAGCCAG GCAGGATGTG 
    AAGCCTGACA TCCGGCAACC CCCGTTTACA GACTACAGGC AATCCTCCAC GGACTACCGG 
    CAGCCCCCGC TGGACTACCG GCACCCGCCG GTGATGGATT ACCAGCAGCC ACCGCCGCTG 
    GACTACAGGC AGCCCCCGCT GATGGACTAC AGGCAGCACT CCCCTGACAC CAGGCAGTTC 
    CCCCTGTCCG AGTACAGGCA GCCCCAGGAC TTTGATTATT TCACCGTTGA TTTGGAGAAA 
    GGAGCCAAAG GATTTGGGTT TAGTATCCGA GGAGGAAGGG AGTACAAAAT GGATTTGTAT 
    GTGTTGAGGT TAGCAGAAGA TGGACCAGCA GTAAGAAATG GAAGGATGAG GGTAGGAGAT 
    CAAATAATTG AAATCAATGG AGAAAGCACA AGGGACATGA CACATGCCAG AGCAATAGAG 
    CTAATCAAGT CTGGTGGCAG AAGAGTGCGA CTGTTGTTGA AACGTGGAAC AGGCCAGGTC 
    CCAGAATATG ACGAGCCAAA CTCCTGGAGT GCTCCCTCTG CCACCGCCCC AGGTCTGCCG 
    GAAGTAGCTC TTTCCCTCGA CGACATAATC TCACCATTAT CTTCATCACA CATAGCCCCA 
    CCCTCTGACC CTTCTCACCA GATAAGCCCA GAACCAACAT GGGATATCAA GAGGGAACAC 
    GATATAAGGA AACCAAAGGA GCTTTCGGTG AACGGTCACA AAAAGAAAAG GTTAGGAGAA 
    CAAAGAGAAA GGTCAGCAAG TCCTAAAAAG GTAGACAGGT CAAAGCACGA AGAGGCTTCT 
    TGGAAAGGAT ATTCAGGAGG CAAAAGTAAG ACCACTGATG GTGGCAGGCC CACCTCAGAA 
    AGCAAAGCGG TGGGACACAG CGTTATGATC GAGGCTGGCG CAAGAGAGCA CGTGTGTGCT 
    GGAACCAGTG ATGAACAGTT TGGGAGGCTG AGGAAGCCAG AAAGCAAGAG AGGAGGATCT 
    CTTAGCAAAA AAGATCACAG ATCCACAAAC ACCTGTGAGA AGTCAGCTGC AGCACCCGAC 
    CATGTCAAGA CCGATACAGG AGCTACCAAG ACTTACAGTA GCAACCGCTG CAGCTCGCCT 
    GGAAGTGATA TGGACCACAG CCAGAGGGAC CCTGATGGGA AACCCAGCGA GTTCCCCAGG 
    AAGGGACATC TCCACTCCAT TAGCACTCGC AGCACCAACA CCACAGTTCG AAAGGCAACG 
    GTCTCTCCAG GGCCGTGGAA AATCCCTGGC TCAGATAAGC TACCAAGCGT CCTGAAGTCT 
    GGTACTTCTG CCATGAGCAG ATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_030119592.1
    CDS266..4789
    Translation

    Target ORF information:

    RefSeq Version XM_030263732.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata membrane associated guanylate kinase, WW and PDZ domain containing 2 (MAGI2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030263732.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGTCCAAGG GCTTGAAGAA AAAAAGCCAC TGGACGAGCA GAGTCCACGA GATCGTGATC 
    GTGAGGAACC CGGAGGGACA GCTGGGCTTC GAGCTGAAGG GGGGCGCCGA GAATGGCCAG 
    TTCCCCTACC TGGGGGAAGT GAAGCCCGGC AAGGTGGCCT ATGAGGGCGG CAGCAAGTTG 
    GTGCCGGAGG AGCTGCTGCT GGAGGTAAAC GAGACCCCCG TGGCCGGGCT CACCATCAGG 
    GATGTGCTGG CCGTGATCAA GCACTGCAAG GACCCCATCC GCCTCAAGTG CGTCAAGCAA 
    GGAGGCATCG TTGATAAGGA CCTTCGTCAC TACCTCAATC TACGGTTCCA GAAAGGCTCA 
    GTGGACCATG AGCTCCAGCA GATCATAAGA GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGGGAAGTC CCTGGTGTGG ACTATATTTT CATCACTGTT 
    GAAGATTTTA TGGAATTGGA GAAAAGTGGT GCTCTCCTAG AAAGTGGAAC ATATGAAGAC 
    AACTATTACG GCACTCCAAA GCCTCCAGCA GAACCGGCTC CGTTGCTGTT AAATGTGACA 
    GACCAGATCC TCCCAGGCGC CACTCCCGGG GCTGAAGGCA AGCGTAAAAG GAATAAGTCT 
    GTGAGCAATA TGGAGAAGAC AGGCATTGAA CCACCAGAGG AAGAAGAGGA AGAAAGACCT 
    GTGGTCAATG GAAATGACGT GACAGTAACA CCAGAATCGA GTGAACATGA AGAGAAGAGT 
    ACAGCTGTCT CGGGTGAGGC ATCTACCACC CAGCCTTGTC CTGCACCAGG ATATGGTCAG 
    CCTGAAGAAG CAAAGGAGGA TATGGATGTA ACAAAACAGA CTAAACCTGA AGAGAATGAT 
    GACTTGGGCC CACTGCCTGA TAACTGGGAA ATGGCTTATA CAGAAAAGGG GGAAGTGTAC 
    TTTATTGACC ATAACACAAA GACAACATCA TGGCTGGATC CACGACTTGC GAAAAAGGCT 
    AAACCTCCAG AAGAGTGCAA AGAAAATGAG CTTCCATATG GCTGGGAGAA AATTGATGAT 
    CCCATTTATG GCACTTATTA TGTTGACCAC ATAAATAGAA GAACTCAATT TGAAAACCCT 
    GTCCTAGAAG CAAAAAGGAA GCTACAGCAG CATAACATGC CCAACGCAGA ACTTGGAACA 
    AAGCCTATGC AGGCCCAAGG TTTCCGAGAA AAACCACTCT TCACCCGTGA TGCATCACAG 
    CTGAAGGGGA CTTTCCTCAG CACAACTCTT AAGAAAAGCA ACATGGGTTT TGGATTTACC 
    ATCATTGGTG GGGATGAGCC GGATGAGTTT CTCCAGGTGA AGAGTGTAAT TCCTGATGGG 
    CCTGCAGCAC AAGATGGGAA AATGGAAACA GGTGATGTGA TTGTCTATAT TAATGAAGTT 
    TGTGTCCTTG GACATACTCA CGCAGATGTA GTCAAACTCT TCCAGTCTGT TCCTATTGGT 
    CAGAGTGTCA ACTTGGTGCT ATGTCGTGGA TACCCTTTGC CCTTTGATCC TGAAGATCCT 
    GCCAACAGCA TGGTGCCACC CCTTGCAGTA ATGGAGAGGC CTCCGGTAGT GGTAAATGGA 
    AGACATAACT ATGAAACTTA TTTGGAATAC ATTTCTAGGA CTTCTCAGTC TGTTCCAGAC 
    GTAACAGATC GACCACCACA CTCCTTGCAC TCCATTCCAG CAGATAGTCA GCTTGATAGC 
    ACATTCCCAC CACCTGCCCA TGATGATAAT GTATCAATGG CTTCTTCTGG GGCCACCCAA 
    GCTGAACTCA TGACCTTAAC CATTGTGAAA GGGGCCCAGG GCTTTGGCTT CACTATAGCA 
    GACAGTCCTA CAGGACAGAG GGTGAAGCAA ATTCTAGACA TTCAGGGATG TCCTGGTTTG 
    TGTGAAGGTG ACCTCATTGT TGAGATCAAC CAGCAGAATG TACAGAACCT GAGCCATGCA 
    GAAGTAGTGG ATATACTTAA AGAATGTCCT GTTGGAAGTG AAACTTCTTT GATTATCCAT 
    AGAGGAGGTT TCTTTTCTCC ATGGAAAACT CCAAAGCCTA TGATGGAACG ATGGGAGAAT 
    CAAGGCAGCC CTCAAACAAG TGTGTCTGCT CCAGCTATGC CACAGAATAT TCCCTATCCA 
    CCCACTCTTC ACAGGAGTTC ATTTCCTGAT TCAACAGAGG CCTTTGATCC ACGAAAACCT 
    GACCCGTATG AGCTGTATGA GAAATCAAGA GCTATTTATG AAAGTAGGCA ACAAGTGCTG 
    CCCAGGACTG GTTTTCGAGC GGATTCCTCT GGTCCCGATT ACAAGGAGCT GGATGTTCAC 
    CTTCGGAGAA TGGAGTCTGG GTTTGGCTTC AGGATCCTGG GAGGAGATGA GCCTGGGCAG 
    CCTATTCTCA TCGGAGCAGT AATTGCCATG GGCTCCGCAG ACCGAGATGG TCGTCTCCAT 
    CCTGGGGATG AGCTGGTGTA CGTAGATGGG ATCCCAGTGG CCGGCAAAAC CCACCGATAT 
    GTGATTGATC TTATGCATAA TGCTGCCCGA AACGGGCAGG TGAATCTTAC TGTGAGGAGA 
    AAGGTGCTAC CCACAGGAGA ACCCTGCCCA GAGAATGGCA GAAGCCCAGG CTCGGTGTCT 
    ACACACCACA GCTCTCCAAG AAGTGACTAC ACGACCTATG CCAACAGCAA CCACGCGGCC 
    TCCGGCAGCA GCGCCACTCC CCCCGAGGGC TTCGCGTCGC ACAGCCTGCA AACCAGCGAC 
    GTGGTCATCC ACCGCAAGGA GAACGAAGGC TTCGGCTTCG TCATCATCAG CTCCCTCAAC 
    AGGCCCGAGT CTGGCTCCAC AATAACTGTA CCCCATAAAA TAGGGCGGAT AATTGATGGA 
    AGCCCTGCGG ATCGCTGTGC AAAACTTAAA GTTGGAGACC GGATCTTAGC TGTGAATGGC 
    CAGTCTATTA TTAACATGCC TCATGCAGAT ATTGTGAAGC TAATTAAAGA TGCAGGTCTC 
    AGTGTAACTC TTCGCATCAT TCCTCAGGAG GAGCTGAACA GCCCAGCCTC GGCCCCCAGC 
    TCGGAGAAGC AGAGCCCCAT GGCCCAGCAG CACAGCCCCA TGGCCCAGCA GAGTCCCCTG 
    GCGCAGCAGA GCCCCGTCGC CCAGCACAGC CCCGTGGCCC AGCCGCCACC TCCACAGCCC 
    CTCCAGCCCC AGGGACACGA GAACAGTTAC AGGTCAGAAG TAAAAGCCAG GCAGGATGTG 
    AAGCCTGACA TCCGGCAACC CCCGTTTACA GACTACAGGC AATCCTCCAC GGACTACCGG 
    CAGCCCCCGC TGGACTACCG GCACCCGCCG GTGATGGATT ACCAGCAGCC ACCGCCGCTG 
    GACTACAGGC AGCCCCCGCT GATGGACTAC AGGCAGCACT CCCCTGACAC CAGGCAGTTC 
    CCCCTGTCCG AGTACAGGCA GCCCCAGGAC TTTGATTATT TCACCGTTGA TTTGGAGAAA 
    GGAGCCAAAG GATTTGGGTT TAGTATCCGA GGAGGAAGGG AGTACAAAAT GGATTTGTAT 
    GTGTTGAGGT TAGCAGAAGA TGGACCAGCA GTAAGAAATG GAAGGATGAG GGTAGGAGAT 
    CAAATAATTG AAATCAATGG AGAAAGCACA AGGGACATGA CACATGCCAG AGCAATAGAG 
    CTAATCAAGT CTGGTGGCAG AAGAGTGCGA CTGTTGTTGA AACGTGGAAC AGGCCAGGTC 
    CCAGAATATG ACGAGCCAAA CTCCTGGAGT GCTCCCTCTG CCACCGCCCC AGGTCTGCCG 
    GAAGTAGCTC TTTCCCTCGA CGACATAATC TCACCATTAT CTTCATCACA CATAGCCCCA 
    CCCTCTGACC CTTCTCACCA GATAAGCCCA GAACCAACAT GGGATATCAA GAGGGAACAC 
    GATATAAGGA AACCAAAGGA GCTTTCGGTG AACGGTCACA AAAAGAAAAG GTTAGGAGAA 
    CAAAGAGAAA GGTCAGCAAG TCCTAAAAAG GTAGACAGGT CAAAGCACGA AGAGGCTTCT 
    TGGAAAGGAT ATTCAGGAGG CAAAAGTAAG ACCACTGATG GTGGCAGGCC CACCTCAGAA 
    AGCAAAGCGG TGGGACACAG CGTTATGATC GAGGCTGGCG CAAGAGAGCA CGTGTGTGCT 
    GGAACCAGTG ATGAACAGTT TGGGAGGCTG AGGAAGCCAG AAAGCAAGAG AGGAGGATCT 
    CTTAGCAAAA AAGATCACAG ATCCACAAAC ACCTGTGAGA AGTCAGCTGC AGCACCCGAC 
    CATGTCAAGA CCGATACAGG AGCTACCAAG ACTTACAGTA GCAACCGCTG CAGCTCGCCT 
    GGAAGTGATA TGGACCACAG CCAGAGGGAC CCTGATGGGA AACCCAGCGA GTTCCCCAGG 
    AAGGGACATC TCCACTCCAT TAGCACTCGC AGCACCAACA CCACAGTTCG AAAGGCAACG 
    GTCTCTCCAG GGCCGTGGAA AATCCCTGGC TCAGATAAGC TACCAAGCGT CCTGAAGTCT 
    GGTACTTCTG CCATGAGCAG ATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

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