ORF » Species Summary » Taeniopygia guttata » MED23 cDNA ORF clone

MED23 cDNA ORF clone, Taeniopygia guttata(zebra finch)

The following MED23 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the MED23 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
OTd08492 XM_002192493.4
Latest version!		 Taeniopygia guttata mediator complex subunit 23 (MED23), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OTd15915 XM_012572634.2
Latest version!		 Taeniopygia guttata mediator complex subunit 23 (MED23), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
View Old Accession Versions >>
OTd15915 XM_012572634.1 Taeniopygia guttata mediator complex subunit 23 (MED23), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OTd08492 XM_002192493.3 Taeniopygia guttata mediator complex subunit 23 (MED23), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
Hide Old Accession Versions >>

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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)
    MED23 ( XM_002192493.4 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002192529.2 Taeniopygia guttata mediator complex subunit 23 (MED23), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OTd08492
    Clone ID Related Accession (Same CDS sequence) XM_002192493.4 , XM_002192493.3
    Accession Version XM_002192493.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4134bp)
    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 mediator of RNA polymerase II transcription subunit 23 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044214.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_002192493.3. ##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
    ATGGCGATCC CCATGGTGCC CATGGAGACG CAGCTGCAGA GCATCTTCGA GGAGGTGGTG 
    AAAACAGAAG TAATTGAAGA AGCTTTTCCT GGGATGTTTA TGGACACTCC TGAAGATGAG 
    AGAACCAAAC TGATCAGCTG CCTGGGAGCT TTTAGACAGT TCTGGAGCAG TCTTTCCCAG 
    GAGTCCCATG AACAGTGTGT CCAGTGGATT GTAAGATTCA TACACAGCCA ACATAGTCCT 
    AAAAGAATTT CTTTTCTTTA TGACTGCCTA GCAATGGCAG TAGAAACTGG ACTTTTGCCA 
    CCCAGGATGG TTTGTGAATC TCTGATAAAC TCCGATACAC TTGAGTGGGA AAGGACTCAG 
    CTGTGGGCGT TAACGTTCAA ATTGGTTCGG AAGATTATTG GAGGTGTAGA CTACAAGGGT 
    GTGCGTGATC TGCTAAAAGT CATCCTAGAG AAAATCCTAA CAATTCCAAA CACTGTGAGC 
    TCAGCTGTTG TACAGCAGCT TTTAGCAGCA AGAGAGGTGG TAGCCTACAT CTTGGAAAGA 
    AATGCTTGTT TGCTGCCTGC CTACTTTGCA GTTACAGAAA TCAGAAAACT ATATCCTGAA 
    GGAAAACTTC CCCACTGGTT ACTTGGTAAT TTAGTATCAG ATTTTGTGGA TACCTTCAGA 
    CCTACAGCAA GAATAAATTC TATTTGTGGT CGCTGTAGTC TCCTTCCTGT GGTAAATAAT 
    TCTGGTGCCA TGTGTAATTC ATGGAAGCTG GATCCTACAA CGCTTCGTTT TCCTTTGAAA 
    GGTCTCTTAC CATATGATAA GGATCTGTTT GAGCCACAGA CTGCTTTGTT GAGATATGTG 
    CTGGAACAAC CGTATTCCAG GGATATGGTC TGCAATATGC TAGGTCTGAA TAAGCAGCAT 
    AAGCAACGTT GCCCTGTGCT GGAGGACCAG CTGGTGGATC TTGTGGTGTA TGCCATGGAA 
    CGGTCTGAGA CTGAAGAGAA GTTTGATGAT GGTGGAACCA GTCAGCTTCT GTGGCAGCAT 
    CTCTCCAGCC AGCTCATTTT CTTTGTGCTC TTTCAGTTTG CAAGTTTTCC TCATATGGTC 
    CTGTCACTCC ATCAAAAGTT GGCAGGCCGT GGTCTCATTA AGGGGAGAGA CCACCTGATG 
    TGGGTGCTAC TCCAGTTCAT CTCTGGCAGC ATCCAGAAGA ATGCACTGGC TGACTTTCTC 
    CCAGTTATGA AGCTGTTTGA CCTCCTGTAT CCTGAGAAAG AATATATTCC TGTACCTGAC 
    ATTAACAAAC CCCAGTCAAC TCATGCTTTT GCAATGACCT GCATTTGGAT TCATCTGAAC 
    CGGAAGGCTC ATAGTGACAA CTCCAAGTTG CAGATTCCCA TTCCTCATTC TCTTAAACTT 
    CACCATGAGT TTTTGCAACA GAGCTTAAGG AATAAGAACT TACAGATGAA TGACTACAAA 
    ATTGCCTTGT TGTGCAATGC TTACTCAACC AATTCTGAGT GTTTCACTTT GCCAATGGGT 
    GTGCTAGTAG AGACTATTTA TGGAAATGGC AACATGAGGA CACCTCTTCC AGGCACTAAT 
    TGCATGGCAT CAGGGTCTAT CACCCCATTG CCAATGAACC TCTTGGATTC ACTCACAGTT 
    CATGCCAAAA TGAGTCTCAT TCACAGCATA GCTACAAGGG TAATTAAGCT GGCTCATGCA 
    AAATCTAGTG TGGCCTTGGC TCCTGCTCTT GTGGAAACCT ATAGTCGCCT ATTGGTTTAT 
    ATGGAAATAG AATCCTTGGG CATCAAAGGC TTCATCAGTC AGCTCCTGCC AACAGTGTTC 
    AAATCTCATG CATGGGGAAT TTTGCATACT CTGCTGGAAA TGTTTAGCTA TCGGATGCAT 
    CACATCCAGC CTCATTACAG AGTCCAGCTC CTCAGCCATC TTCATTCCTT GGCTGCTGTG 
    CCACAGACTA ATCAGAACCA ACTTCATCTC TGTGTTGAGA GTACTGCTCT AAGGCTCATC 
    ACAGCTTTGG GCAGCTCGGA AGTCCAACCG CAGTTCACAC GGTTCCTCAA TGATCCCAAA 
    ACAGTTCTTT CAGCAGAATC AGAAGAACTC AACAGGGCTT TGATTTTAAC TCTGGCAAGG 
    GCAACACACG TGACAGACTT CTTCACAGGC TCTGATTCAA TCCAGGGAAC TTGGTGCAAG 
    GACATACTGC AGACTATCAT GAGTTTCACT CCACATAACT GGGCATCACA TACACTAAGC 
    TGTTTTCCAG CTCCTCTGCA GGTATTCTTC AAGCAGAACA ACGTGCCTCA GGAAAGCCGT 
    TTTAATCTGA AGAAGAATGT GGAAGAAGAA TACCGGAAGT GGAAGTCGAT GACCAGTGAG 
    AATGAAATAA TCACACACTT CTCTGCTCAA GGTTCATCCC CGCTTTTCCT TTGTCTCCTG 
    TGGAAGATGT TGTTAGACAC TGATCACATT AATCAAATTG GTTACAGAGT GTTAGAAAGA 
    ATTGGGGCCA GAGCACTGGT GGCACATGTC AGGACATTTG CAGATTTTTT GGTGTATGAA 
    TTCTCTACAT CTGCAGGAGG ACAGCAGCTC AACAAATGTA TTGAGATTCT CAATGACATG 
    GTGTGGAAAT ACAATATTGT AACACTGGAT AGGTTGATAC TCTGTTTGGC TATGCGTAGT 
    CATGAAGGCA ATGAAGCTCA AGTTTGTTAC TTCATAATCC AGTTACTCTT ACTGAAGCCA 
    AATGATTTCA GAAACAGAGT GAGTGACTTT GTGAAGGAGA ATTCTCCGGA ACACTGGCTG 
    CAGAATGACT GGCACACAAA GCATATGAGT TACCACAAGA AATACCCTGA AAAGCTGTAT 
    TTTGAAGGCT TGGCAGAGCA AGTGAATCCC CCAGTTCAGA TCCAGCCCCA GTACTTGCCA 
    ATTTATTTTG GAAATGTATG CCTGCGCTTT CTGCCAGTGT TTGACATTGT AATTCATAGA 
    TTTCTGGAAT TGCTTCCAGT GTCCAAATCA CTAGAAACTT TATTGGATCA TCTGGGAGGT 
    TTATACAAAT TCCATGACCG ACCAGTGACC TACCTGTACA ACACTCTTCA CTATTATGAG 
    GGGCATCTGA GAGATCGCAC AAACCTCAAG AGAAAACTTG TTCATGCCAT AATTGGCTCC 
    CTCAAAGATA ATCGTCCACT AGGCTGGTGT CTGAGTGATA CTTACCTCAA ATGTGCCATG 
    AATCCCCGAG AAGAGAATCC ATGGGTTCCT GATGATGCTT ACTATTGCAA GCTCATTGGA 
    AGACTAGTAG ACACTATGGC AGGCAAATCA CCTGGTCCAT TTCCAAATTG TGACTGGAGA 
    TTCAATGAGT TTCCTAACCC AGCTGCCCAT GCTCTGCACG TTACCTGTGT TGAGCTCATG 
    GCTCTGGCTG TTCCAGGGAA GGAGGTGGGC AATGCTCTGC TGAATGTTGT GCTGAAGAGT 
    CAGCCCCTGG TGCCAAGAGA GAACATCACA GCTTGGATGA ATGCAATTGG ACTGATTATC 
    ACAGCCTTAC CAGAGCCGTA CTGGATTGTT CTCCATGACT GCATTGTGAA TGTCATCAAC 
    AGTCCCAGCT TGACATCAGA GACAGAGTGG GTTGGTTACC CGTTCCAGCT GTTTGACTTC 
    ACAGCATGTC ACCAGTCTTA CTCCGAGATG AGTTGTAGCT ACACTTTGGC TTTGGCACAT 
    GCGGTTTGGC ATCATTCCAG CATTGGACAG CTTTCTCTCA TTCCTAAGTT CCTCACAGAA 
    GCTTTGATAC CCATTGTGAA AACAGAGTTC CAGTTGCTCT ATGTTTACCA CCTCGTTGGC 
    CCTTTCCTGC AACGATTCCA GCAGGAGAGG ACACGGTGCA TGATAGAGAT TGGAGTGGCA 
    TTTTATGAAA TGCTCCTGAA TGCAGATCGG TACAGCTCCC ACCTGAACTA CATGGATCCC 
    ATTTGTGATT TCTTGTATCA TATGAAATAT ATGTTTACAG GTGACAGTGT GAAAGACCAA 
    GTTGAGAAGA TAATTTGTAA TCTACGACCA GCTTTGAAAC TTCGGCTGCG CTTCATAACT 
    CACATCAGTA AAATGGAGCC AGCTGCTGTT TCACAGCAGC CGCTCAGCAG TGGGTCCCCA 
    GCACAACAGC CCAGCCAAGT GCCCGTCAAC GTGGCCTTGC CAGTAACCCA GTGA

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

    RefSeq XP_002192529.2
    CDS85..4218
    Translation

    Target ORF information:

    RefSeq Version XM_002192493.4
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata mediator complex subunit 23 (MED23), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002192493.4

    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
    ATGGCGATCC CCATGGTGCC CATGGAGACG CAGCTGCAGA GCATCTTCGA GGAGGTGGTG 
    AAAACAGAAG TAATTGAAGA AGCTTTTCCT GGGATGTTTA TGGACACTCC TGAAGATGAG 
    AGAACCAAAC TGATCAGCTG CCTGGGAGCT TTTAGACAGT TCTGGAGCAG TCTTTCCCAG 
    GAGTCCCATG AACAGTGTGT CCAGTGGATT GTAAGATTCA TACACAGCCA ACATAGTCCT 
    AAAAGAATTT CTTTTCTTTA TGACTGCCTA GCAATGGCAG TAGAAACTGG ACTTTTGCCA 
    CCCAGGATGG TTTGTGAATC TCTGATAAAC TCCGATACAC TTGAGTGGGA AAGGACTCAG 
    CTGTGGGCGT TAACGTTCAA ATTGGTTCGG AAGATTATTG GAGGTGTAGA CTACAAGGGT 
    GTGCGTGATC TGCTAAAAGT CATCCTAGAG AAAATCCTAA CAATTCCAAA CACTGTGAGC 
    TCAGCTGTTG TACAGCAGCT TTTAGCAGCA AGAGAGGTGG TAGCCTACAT CTTGGAAAGA 
    AATGCTTGTT TGCTGCCTGC CTACTTTGCA GTTACAGAAA TCAGAAAACT ATATCCTGAA 
    GGAAAACTTC CCCACTGGTT ACTTGGTAAT TTAGTATCAG ATTTTGTGGA TACCTTCAGA 
    CCTACAGCAA GAATAAATTC TATTTGTGGT CGCTGTAGTC TCCTTCCTGT GGTAAATAAT 
    TCTGGTGCCA TGTGTAATTC ATGGAAGCTG GATCCTACAA CGCTTCGTTT TCCTTTGAAA 
    GGTCTCTTAC CATATGATAA GGATCTGTTT GAGCCACAGA CTGCTTTGTT GAGATATGTG 
    CTGGAACAAC CGTATTCCAG GGATATGGTC TGCAATATGC TAGGTCTGAA TAAGCAGCAT 
    AAGCAACGTT GCCCTGTGCT GGAGGACCAG CTGGTGGATC TTGTGGTGTA TGCCATGGAA 
    CGGTCTGAGA CTGAAGAGAA GTTTGATGAT GGTGGAACCA GTCAGCTTCT GTGGCAGCAT 
    CTCTCCAGCC AGCTCATTTT CTTTGTGCTC TTTCAGTTTG CAAGTTTTCC TCATATGGTC 
    CTGTCACTCC ATCAAAAGTT GGCAGGCCGT GGTCTCATTA AGGGGAGAGA CCACCTGATG 
    TGGGTGCTAC TCCAGTTCAT CTCTGGCAGC ATCCAGAAGA ATGCACTGGC TGACTTTCTC 
    CCAGTTATGA AGCTGTTTGA CCTCCTGTAT CCTGAGAAAG AATATATTCC TGTACCTGAC 
    ATTAACAAAC CCCAGTCAAC TCATGCTTTT GCAATGACCT GCATTTGGAT TCATCTGAAC 
    CGGAAGGCTC ATAGTGACAA CTCCAAGTTG CAGATTCCCA TTCCTCATTC TCTTAAACTT 
    CACCATGAGT TTTTGCAACA GAGCTTAAGG AATAAGAACT TACAGATGAA TGACTACAAA 
    ATTGCCTTGT TGTGCAATGC TTACTCAACC AATTCTGAGT GTTTCACTTT GCCAATGGGT 
    GTGCTAGTAG AGACTATTTA TGGAAATGGC AACATGAGGA CACCTCTTCC AGGCACTAAT 
    TGCATGGCAT CAGGGTCTAT CACCCCATTG CCAATGAACC TCTTGGATTC ACTCACAGTT 
    CATGCCAAAA TGAGTCTCAT TCACAGCATA GCTACAAGGG TAATTAAGCT GGCTCATGCA 
    AAATCTAGTG TGGCCTTGGC TCCTGCTCTT GTGGAAACCT ATAGTCGCCT ATTGGTTTAT 
    ATGGAAATAG AATCCTTGGG CATCAAAGGC TTCATCAGTC AGCTCCTGCC AACAGTGTTC 
    AAATCTCATG CATGGGGAAT TTTGCATACT CTGCTGGAAA TGTTTAGCTA TCGGATGCAT 
    CACATCCAGC CTCATTACAG AGTCCAGCTC CTCAGCCATC TTCATTCCTT GGCTGCTGTG 
    CCACAGACTA ATCAGAACCA ACTTCATCTC TGTGTTGAGA GTACTGCTCT AAGGCTCATC 
    ACAGCTTTGG GCAGCTCGGA AGTCCAACCG CAGTTCACAC GGTTCCTCAA TGATCCCAAA 
    ACAGTTCTTT CAGCAGAATC AGAAGAACTC AACAGGGCTT TGATTTTAAC TCTGGCAAGG 
    GCAACACACG TGACAGACTT CTTCACAGGC TCTGATTCAA TCCAGGGAAC TTGGTGCAAG 
    GACATACTGC AGACTATCAT GAGTTTCACT CCACATAACT GGGCATCACA TACACTAAGC 
    TGTTTTCCAG CTCCTCTGCA GGTATTCTTC AAGCAGAACA ACGTGCCTCA GGAAAGCCGT 
    TTTAATCTGA AGAAGAATGT GGAAGAAGAA TACCGGAAGT GGAAGTCGAT GACCAGTGAG 
    AATGAAATAA TCACACACTT CTCTGCTCAA GGTTCATCCC CGCTTTTCCT TTGTCTCCTG 
    TGGAAGATGT TGTTAGACAC TGATCACATT AATCAAATTG GTTACAGAGT GTTAGAAAGA 
    ATTGGGGCCA GAGCACTGGT GGCACATGTC AGGACATTTG CAGATTTTTT GGTGTATGAA 
    TTCTCTACAT CTGCAGGAGG ACAGCAGCTC AACAAATGTA TTGAGATTCT CAATGACATG 
    GTGTGGAAAT ACAATATTGT AACACTGGAT AGGTTGATAC TCTGTTTGGC TATGCGTAGT 
    CATGAAGGCA ATGAAGCTCA AGTTTGTTAC TTCATAATCC AGTTACTCTT ACTGAAGCCA 
    AATGATTTCA GAAACAGAGT GAGTGACTTT GTGAAGGAGA ATTCTCCGGA ACACTGGCTG 
    CAGAATGACT GGCACACAAA GCATATGAGT TACCACAAGA AATACCCTGA AAAGCTGTAT 
    TTTGAAGGCT TGGCAGAGCA AGTGAATCCC CCAGTTCAGA TCCAGCCCCA GTACTTGCCA 
    ATTTATTTTG GAAATGTATG CCTGCGCTTT CTGCCAGTGT TTGACATTGT AATTCATAGA 
    TTTCTGGAAT TGCTTCCAGT GTCCAAATCA CTAGAAACTT TATTGGATCA TCTGGGAGGT 
    TTATACAAAT TCCATGACCG ACCAGTGACC TACCTGTACA ACACTCTTCA CTATTATGAG 
    GGGCATCTGA GAGATCGCAC AAACCTCAAG AGAAAACTTG TTCATGCCAT AATTGGCTCC 
    CTCAAAGATA ATCGTCCACT AGGCTGGTGT CTGAGTGATA CTTACCTCAA ATGTGCCATG 
    AATCCCCGAG AAGAGAATCC ATGGGTTCCT GATGATGCTT ACTATTGCAA GCTCATTGGA 
    AGACTAGTAG ACACTATGGC AGGCAAATCA CCTGGTCCAT TTCCAAATTG TGACTGGAGA 
    TTCAATGAGT TTCCTAACCC AGCTGCCCAT GCTCTGCACG TTACCTGTGT TGAGCTCATG 
    GCTCTGGCTG TTCCAGGGAA GGAGGTGGGC AATGCTCTGC TGAATGTTGT GCTGAAGAGT 
    CAGCCCCTGG TGCCAAGAGA GAACATCACA GCTTGGATGA ATGCAATTGG ACTGATTATC 
    ACAGCCTTAC CAGAGCCGTA CTGGATTGTT CTCCATGACT GCATTGTGAA TGTCATCAAC 
    AGTCCCAGCT TGACATCAGA GACAGAGTGG GTTGGTTACC CGTTCCAGCT GTTTGACTTC 
    ACAGCATGTC ACCAGTCTTA CTCCGAGATG AGTTGTAGCT ACACTTTGGC TTTGGCACAT 
    GCGGTTTGGC ATCATTCCAG CATTGGACAG CTTTCTCTCA TTCCTAAGTT CCTCACAGAA 
    GCTTTGATAC CCATTGTGAA AACAGAGTTC CAGTTGCTCT ATGTTTACCA CCTCGTTGGC 
    CCTTTCCTGC AACGATTCCA GCAGGAGAGG ACACGGTGCA TGATAGAGAT TGGAGTGGCA 
    TTTTATGAAA TGCTCCTGAA TGCAGATCGG TACAGCTCCC ACCTGAACTA CATGGATCCC 
    ATTTGTGATT TCTTGTATCA TATGAAATAT ATGTTTACAG GTGACAGTGT GAAAGACCAA 
    GTTGAGAAGA TAATTTGTAA TCTACGACCA GCTTTGAAAC TTCGGCTGCG CTTCATAACT 
    CACATCAGTA AAATGGAGCC AGCTGCTGTT TCACAGCAGC CGCTCAGCAG TGGGTCCCCA 
    GCACAACAGC CCAGCCAAGT GCCCGTCAAC GTGGCCTTGC CAGTAACCCA GTGA

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

    MED23 ( XM_002192493.3 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002192529.2 Taeniopygia guttata mediator complex subunit 23 (MED23), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OTd08492
    Clone ID Related Accession (Same CDS sequence) XM_002192493.4 , XM_002192493.3
    Accession Version XM_002192493.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4134bp)
    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 mediator of RNA polymerase II transcription subunit 23 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198512.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_002192493.2. ##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## 

    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
    ATGGCGATCC CCATGGTGCC CATGGAGACG CAGCTGCAGA GCATCTTCGA GGAGGTGGTG 
    AAAACAGAAG TAATTGAAGA AGCTTTTCCT GGGATGTTTA TGGACACTCC TGAAGATGAG 
    AGAACCAAAC TGATCAGCTG CCTGGGAGCT TTTAGACAGT TCTGGAGCAG TCTTTCCCAG 
    GAGTCCCATG AACAGTGTGT CCAGTGGATT GTAAGATTCA TACACAGCCA ACATAGTCCT 
    AAAAGAATTT CTTTTCTTTA TGACTGCCTA GCAATGGCAG TAGAAACTGG ACTTTTGCCA 
    CCCAGGATGG TTTGTGAATC TCTGATAAAC TCCGATACAC TTGAGTGGGA AAGGACTCAG 
    CTGTGGGCGT TAACGTTCAA ATTGGTTCGG AAGATTATTG GAGGTGTAGA CTACAAGGGT 
    GTGCGTGATC TGCTAAAAGT CATCCTAGAG AAAATCCTAA CAATTCCAAA CACTGTGAGC 
    TCAGCTGTTG TACAGCAGCT TTTAGCAGCA AGAGAGGTGG TAGCCTACAT CTTGGAAAGA 
    AATGCTTGTT TGCTGCCTGC CTACTTTGCA GTTACAGAAA TCAGAAAACT ATATCCTGAA 
    GGAAAACTTC CCCACTGGTT ACTTGGTAAT TTAGTATCAG ATTTTGTGGA TACCTTCAGA 
    CCTACAGCAA GAATAAATTC TATTTGTGGT CGCTGTAGTC TCCTTCCTGT GGTAAATAAT 
    TCTGGTGCCA TGTGTAATTC ATGGAAGCTG GATCCTACAA CGCTTCGTTT TCCTTTGAAA 
    GGTCTCTTAC CATATGATAA GGATCTGTTT GAGCCACAGA CTGCTTTGTT GAGATATGTG 
    CTGGAACAAC CGTATTCCAG GGATATGGTC TGCAATATGC TAGGTCTGAA TAAGCAGCAT 
    AAGCAACGTT GCCCTGTGCT GGAGGACCAG CTGGTGGATC TTGTGGTGTA TGCCATGGAA 
    CGGTCTGAGA CTGAAGAGAA GTTTGATGAT GGTGGAACCA GTCAGCTTCT GTGGCAGCAT 
    CTCTCCAGCC AGCTCATTTT CTTTGTGCTC TTTCAGTTTG CAAGTTTTCC TCATATGGTC 
    CTGTCACTCC ATCAAAAGTT GGCAGGCCGT GGTCTCATTA AGGGGAGAGA CCACCTGATG 
    TGGGTGCTAC TCCAGTTCAT CTCTGGCAGC ATCCAGAAGA ATGCACTGGC TGACTTTCTC 
    CCAGTTATGA AGCTGTTTGA CCTCCTGTAT CCTGAGAAAG AATATATTCC TGTACCTGAC 
    ATTAACAAAC CCCAGTCAAC TCATGCTTTT GCAATGACCT GCATTTGGAT TCATCTGAAC 
    CGGAAGGCTC ATAGTGACAA CTCCAAGTTG CAGATTCCCA TTCCTCATTC TCTTAAACTT 
    CACCATGAGT TTTTGCAACA GAGCTTAAGG AATAAGAACT TACAGATGAA TGACTACAAA 
    ATTGCCTTGT TGTGCAATGC TTACTCAACC AATTCTGAGT GTTTCACTTT GCCAATGGGT 
    GTGCTAGTAG AGACTATTTA TGGAAATGGC AACATGAGGA CACCTCTTCC AGGCACTAAT 
    TGCATGGCAT CAGGGTCTAT CACCCCATTG CCAATGAACC TCTTGGATTC ACTCACAGTT 
    CATGCCAAAA TGAGTCTCAT TCACAGCATA GCTACAAGGG TAATTAAGCT GGCTCATGCA 
    AAATCTAGTG TGGCCTTGGC TCCTGCTCTT GTGGAAACCT ATAGTCGCCT ATTGGTTTAT 
    ATGGAAATAG AATCCTTGGG CATCAAAGGC TTCATCAGTC AGCTCCTGCC AACAGTGTTC 
    AAATCTCATG CATGGGGAAT TTTGCATACT CTGCTGGAAA TGTTTAGCTA TCGGATGCAT 
    CACATCCAGC CTCATTACAG AGTCCAGCTC CTCAGCCATC TTCATTCCTT GGCTGCTGTG 
    CCACAGACTA ATCAGAACCA ACTTCATCTC TGTGTTGAGA GTACTGCTCT AAGGCTCATC 
    ACAGCTTTGG GCAGCTCGGA AGTCCAACCG CAGTTCACAC GGTTCCTCAA TGATCCCAAA 
    ACAGTTCTTT CAGCAGAATC AGAAGAACTC AACAGGGCTT TGATTTTAAC TCTGGCAAGG 
    GCAACACACG TGACAGACTT CTTCACAGGC TCTGATTCAA TCCAGGGAAC TTGGTGCAAG 
    GACATACTGC AGACTATCAT GAGTTTCACT CCACATAACT GGGCATCACA TACACTAAGC 
    TGTTTTCCAG CTCCTCTGCA GGTATTCTTC AAGCAGAACA ACGTGCCTCA GGAAAGCCGT 
    TTTAATCTGA AGAAGAATGT GGAAGAAGAA TACCGGAAGT GGAAGTCGAT GACCAGTGAG 
    AATGAAATAA TCACACACTT CTCTGCTCAA GGTTCATCCC CGCTTTTCCT TTGTCTCCTG 
    TGGAAGATGT TGTTAGACAC TGATCACATT AATCAAATTG GTTACAGAGT GTTAGAAAGA 
    ATTGGGGCCA GAGCACTGGT GGCACATGTC AGGACATTTG CAGATTTTTT GGTGTATGAA 
    TTCTCTACAT CTGCAGGAGG ACAGCAGCTC AACAAATGTA TTGAGATTCT CAATGACATG 
    GTGTGGAAAT ACAATATTGT AACACTGGAT AGGTTGATAC TCTGTTTGGC TATGCGTAGT 
    CATGAAGGCA ATGAAGCTCA AGTTTGTTAC TTCATAATCC AGTTACTCTT ACTGAAGCCA 
    AATGATTTCA GAAACAGAGT GAGTGACTTT GTGAAGGAGA ATTCTCCGGA ACACTGGCTG 
    CAGAATGACT GGCACACAAA GCATATGAGT TACCACAAGA AATACCCTGA AAAGCTGTAT 
    TTTGAAGGCT TGGCAGAGCA AGTGAATCCC CCAGTTCAGA TCCAGCCCCA GTACTTGCCA 
    ATTTATTTTG GAAATGTATG CCTGCGCTTT CTGCCAGTGT TTGACATTGT AATTCATAGA 
    TTTCTGGAAT TGCTTCCAGT GTCCAAATCA CTAGAAACTT TATTGGATCA TCTGGGAGGT 
    TTATACAAAT TCCATGACCG ACCAGTGACC TACCTGTACA ACACTCTTCA CTATTATGAG 
    GGGCATCTGA GAGATCGCAC AAACCTCAAG AGAAAACTTG TTCATGCCAT AATTGGCTCC 
    CTCAAAGATA ATCGTCCACT AGGCTGGTGT CTGAGTGATA CTTACCTCAA ATGTGCCATG 
    AATCCCCGAG AAGAGAATCC ATGGGTTCCT GATGATGCTT ACTATTGCAA GCTCATTGGA 
    AGACTAGTAG ACACTATGGC AGGCAAATCA CCTGGTCCAT TTCCAAATTG TGACTGGAGA 
    TTCAATGAGT TTCCTAACCC AGCTGCCCAT GCTCTGCACG TTACCTGTGT TGAGCTCATG 
    GCTCTGGCTG TTCCAGGGAA GGAGGTGGGC AATGCTCTGC TGAATGTTGT GCTGAAGAGT 
    CAGCCCCTGG TGCCAAGAGA GAACATCACA GCTTGGATGA ATGCAATTGG ACTGATTATC 
    ACAGCCTTAC CAGAGCCGTA CTGGATTGTT CTCCATGACT GCATTGTGAA TGTCATCAAC 
    AGTCCCAGCT TGACATCAGA GACAGAGTGG GTTGGTTACC CGTTCCAGCT GTTTGACTTC 
    ACAGCATGTC ACCAGTCTTA CTCCGAGATG AGTTGTAGCT ACACTTTGGC TTTGGCACAT 
    GCGGTTTGGC ATCATTCCAG CATTGGACAG CTTTCTCTCA TTCCTAAGTT CCTCACAGAA 
    GCTTTGATAC CCATTGTGAA AACAGAGTTC CAGTTGCTCT ATGTTTACCA CCTCGTTGGC 
    CCTTTCCTGC AACGATTCCA GCAGGAGAGG ACACGGTGCA TGATAGAGAT TGGAGTGGCA 
    TTTTATGAAA TGCTCCTGAA TGCAGATCGG TACAGCTCCC ACCTGAACTA CATGGATCCC 
    ATTTGTGATT TCTTGTATCA TATGAAATAT ATGTTTACAG GTGACAGTGT GAAAGACCAA 
    GTTGAGAAGA TAATTTGTAA TCTACGACCA GCTTTGAAAC TTCGGCTGCG CTTCATAACT 
    CACATCAGTA AAATGGAGCC AGCTGCTGTT TCACAGCAGC CGCTCAGCAG TGGGTCCCCA 
    GCACAACAGC CCAGCCAAGT GCCCGTCAAC GTGGCCTTGC CAGTAACCCA GTGA

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

    RefSeq XP_002192529.2
    CDS51..4184
    Translation

    Target ORF information:

    RefSeq Version XM_002192493.3
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata mediator complex subunit 23 (MED23), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002192493.3

    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
    ATGGCGATCC CCATGGTGCC CATGGAGACG CAGCTGCAGA GCATCTTCGA GGAGGTGGTG 
    AAAACAGAAG TAATTGAAGA AGCTTTTCCT GGGATGTTTA TGGACACTCC TGAAGATGAG 
    AGAACCAAAC TGATCAGCTG CCTGGGAGCT TTTAGACAGT TCTGGAGCAG TCTTTCCCAG 
    GAGTCCCATG AACAGTGTGT CCAGTGGATT GTAAGATTCA TACACAGCCA ACATAGTCCT 
    AAAAGAATTT CTTTTCTTTA TGACTGCCTA GCAATGGCAG TAGAAACTGG ACTTTTGCCA 
    CCCAGGATGG TTTGTGAATC TCTGATAAAC TCCGATACAC TTGAGTGGGA AAGGACTCAG 
    CTGTGGGCGT TAACGTTCAA ATTGGTTCGG AAGATTATTG GAGGTGTAGA CTACAAGGGT 
    GTGCGTGATC TGCTAAAAGT CATCCTAGAG AAAATCCTAA CAATTCCAAA CACTGTGAGC 
    TCAGCTGTTG TACAGCAGCT TTTAGCAGCA AGAGAGGTGG TAGCCTACAT CTTGGAAAGA 
    AATGCTTGTT TGCTGCCTGC CTACTTTGCA GTTACAGAAA TCAGAAAACT ATATCCTGAA 
    GGAAAACTTC CCCACTGGTT ACTTGGTAAT TTAGTATCAG ATTTTGTGGA TACCTTCAGA 
    CCTACAGCAA GAATAAATTC TATTTGTGGT CGCTGTAGTC TCCTTCCTGT GGTAAATAAT 
    TCTGGTGCCA TGTGTAATTC ATGGAAGCTG GATCCTACAA CGCTTCGTTT TCCTTTGAAA 
    GGTCTCTTAC CATATGATAA GGATCTGTTT GAGCCACAGA CTGCTTTGTT GAGATATGTG 
    CTGGAACAAC CGTATTCCAG GGATATGGTC TGCAATATGC TAGGTCTGAA TAAGCAGCAT 
    AAGCAACGTT GCCCTGTGCT GGAGGACCAG CTGGTGGATC TTGTGGTGTA TGCCATGGAA 
    CGGTCTGAGA CTGAAGAGAA GTTTGATGAT GGTGGAACCA GTCAGCTTCT GTGGCAGCAT 
    CTCTCCAGCC AGCTCATTTT CTTTGTGCTC TTTCAGTTTG CAAGTTTTCC TCATATGGTC 
    CTGTCACTCC ATCAAAAGTT GGCAGGCCGT GGTCTCATTA AGGGGAGAGA CCACCTGATG 
    TGGGTGCTAC TCCAGTTCAT CTCTGGCAGC ATCCAGAAGA ATGCACTGGC TGACTTTCTC 
    CCAGTTATGA AGCTGTTTGA CCTCCTGTAT CCTGAGAAAG AATATATTCC TGTACCTGAC 
    ATTAACAAAC CCCAGTCAAC TCATGCTTTT GCAATGACCT GCATTTGGAT TCATCTGAAC 
    CGGAAGGCTC ATAGTGACAA CTCCAAGTTG CAGATTCCCA TTCCTCATTC TCTTAAACTT 
    CACCATGAGT TTTTGCAACA GAGCTTAAGG AATAAGAACT TACAGATGAA TGACTACAAA 
    ATTGCCTTGT TGTGCAATGC TTACTCAACC AATTCTGAGT GTTTCACTTT GCCAATGGGT 
    GTGCTAGTAG AGACTATTTA TGGAAATGGC AACATGAGGA CACCTCTTCC AGGCACTAAT 
    TGCATGGCAT CAGGGTCTAT CACCCCATTG CCAATGAACC TCTTGGATTC ACTCACAGTT 
    CATGCCAAAA TGAGTCTCAT TCACAGCATA GCTACAAGGG TAATTAAGCT GGCTCATGCA 
    AAATCTAGTG TGGCCTTGGC TCCTGCTCTT GTGGAAACCT ATAGTCGCCT ATTGGTTTAT 
    ATGGAAATAG AATCCTTGGG CATCAAAGGC TTCATCAGTC AGCTCCTGCC AACAGTGTTC 
    AAATCTCATG CATGGGGAAT TTTGCATACT CTGCTGGAAA TGTTTAGCTA TCGGATGCAT 
    CACATCCAGC CTCATTACAG AGTCCAGCTC CTCAGCCATC TTCATTCCTT GGCTGCTGTG 
    CCACAGACTA ATCAGAACCA ACTTCATCTC TGTGTTGAGA GTACTGCTCT AAGGCTCATC 
    ACAGCTTTGG GCAGCTCGGA AGTCCAACCG CAGTTCACAC GGTTCCTCAA TGATCCCAAA 
    ACAGTTCTTT CAGCAGAATC AGAAGAACTC AACAGGGCTT TGATTTTAAC TCTGGCAAGG 
    GCAACACACG TGACAGACTT CTTCACAGGC TCTGATTCAA TCCAGGGAAC TTGGTGCAAG 
    GACATACTGC AGACTATCAT GAGTTTCACT CCACATAACT GGGCATCACA TACACTAAGC 
    TGTTTTCCAG CTCCTCTGCA GGTATTCTTC AAGCAGAACA ACGTGCCTCA GGAAAGCCGT 
    TTTAATCTGA AGAAGAATGT GGAAGAAGAA TACCGGAAGT GGAAGTCGAT GACCAGTGAG 
    AATGAAATAA TCACACACTT CTCTGCTCAA GGTTCATCCC CGCTTTTCCT TTGTCTCCTG 
    TGGAAGATGT TGTTAGACAC TGATCACATT AATCAAATTG GTTACAGAGT GTTAGAAAGA 
    ATTGGGGCCA GAGCACTGGT GGCACATGTC AGGACATTTG CAGATTTTTT GGTGTATGAA 
    TTCTCTACAT CTGCAGGAGG ACAGCAGCTC AACAAATGTA TTGAGATTCT CAATGACATG 
    GTGTGGAAAT ACAATATTGT AACACTGGAT AGGTTGATAC TCTGTTTGGC TATGCGTAGT 
    CATGAAGGCA ATGAAGCTCA AGTTTGTTAC TTCATAATCC AGTTACTCTT ACTGAAGCCA 
    AATGATTTCA GAAACAGAGT GAGTGACTTT GTGAAGGAGA ATTCTCCGGA ACACTGGCTG 
    CAGAATGACT GGCACACAAA GCATATGAGT TACCACAAGA AATACCCTGA AAAGCTGTAT 
    TTTGAAGGCT TGGCAGAGCA AGTGAATCCC CCAGTTCAGA TCCAGCCCCA GTACTTGCCA 
    ATTTATTTTG GAAATGTATG CCTGCGCTTT CTGCCAGTGT TTGACATTGT AATTCATAGA 
    TTTCTGGAAT TGCTTCCAGT GTCCAAATCA CTAGAAACTT TATTGGATCA TCTGGGAGGT 
    TTATACAAAT TCCATGACCG ACCAGTGACC TACCTGTACA ACACTCTTCA CTATTATGAG 
    GGGCATCTGA GAGATCGCAC AAACCTCAAG AGAAAACTTG TTCATGCCAT AATTGGCTCC 
    CTCAAAGATA ATCGTCCACT AGGCTGGTGT CTGAGTGATA CTTACCTCAA ATGTGCCATG 
    AATCCCCGAG AAGAGAATCC ATGGGTTCCT GATGATGCTT ACTATTGCAA GCTCATTGGA 
    AGACTAGTAG ACACTATGGC AGGCAAATCA CCTGGTCCAT TTCCAAATTG TGACTGGAGA 
    TTCAATGAGT TTCCTAACCC AGCTGCCCAT GCTCTGCACG TTACCTGTGT TGAGCTCATG 
    GCTCTGGCTG TTCCAGGGAA GGAGGTGGGC AATGCTCTGC TGAATGTTGT GCTGAAGAGT 
    CAGCCCCTGG TGCCAAGAGA GAACATCACA GCTTGGATGA ATGCAATTGG ACTGATTATC 
    ACAGCCTTAC CAGAGCCGTA CTGGATTGTT CTCCATGACT GCATTGTGAA TGTCATCAAC 
    AGTCCCAGCT TGACATCAGA GACAGAGTGG GTTGGTTACC CGTTCCAGCT GTTTGACTTC 
    ACAGCATGTC ACCAGTCTTA CTCCGAGATG AGTTGTAGCT ACACTTTGGC TTTGGCACAT 
    GCGGTTTGGC ATCATTCCAG CATTGGACAG CTTTCTCTCA TTCCTAAGTT CCTCACAGAA 
    GCTTTGATAC CCATTGTGAA AACAGAGTTC CAGTTGCTCT ATGTTTACCA CCTCGTTGGC 
    CCTTTCCTGC AACGATTCCA GCAGGAGAGG ACACGGTGCA TGATAGAGAT TGGAGTGGCA 
    TTTTATGAAA TGCTCCTGAA TGCAGATCGG TACAGCTCCC ACCTGAACTA CATGGATCCC 
    ATTTGTGATT TCTTGTATCA TATGAAATAT ATGTTTACAG GTGACAGTGT GAAAGACCAA 
    GTTGAGAAGA TAATTTGTAA TCTACGACCA GCTTTGAAAC TTCGGCTGCG CTTCATAACT 
    CACATCAGTA AAATGGAGCC AGCTGCTGTT TCACAGCAGC CGCTCAGCAG TGGGTCCCCA 
    GCACAACAGC CCAGCCAAGT GCCCGTCAAC GTGGCCTTGC CAGTAACCCA GTGA

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

    MED23 ( XM_012572634.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012428088.1 Taeniopygia guttata mediator complex subunit 23 (MED23), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OTd15915
    Clone ID Related Accession (Same CDS sequence) XM_012572634.1 , XM_012572634.2
    Accession Version XM_012572634.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4152bp)
    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 mediator of RNA polymerase II transcription subunit 23 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198512.1) 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## 

    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
    ATGGCGATCC CCATGGTGCC CATGGAGACG CAGCTGCAGA GCATCTTCGA GGAGGTGGTG 
    AAAACAGAAG TAATTGAAGA AGCTTTTCCT GGGATGTTTA TGGACACTCC TGAAGATGAG 
    AGAACCAAAC TGATCAGCTG CCTGGGAGCT TTTAGACAGT TCTGGAGCAG TCTTTCCCAG 
    GAGTCCCATG AACAGTGTGT CCAGTGGATT GTAAGATTCA TACACAGCCA ACATAGTCCT 
    AAAAGAATTT CTTTTCTTTA TGACTGCCTA GCAATGGCAG TAGAAACTGG ACTTTTGCCA 
    CCCAGGATGG TTTGTGAATC TCTGATAAAC TCCGATACAC TTGAGTGGGA AAGGACTCAG 
    CTGTGGGCGT TAACGTTCAA ATTGGTTCGG AAGATTATTG GAGGTGTAGA CTACAAGGGT 
    GTGCGTGATC TGCTAAAAGT CATCCTAGAG AAAATCCTAA CAATTCCAAA CACTGTGAGC 
    TCAGCTGTTG TACAGCAGCT TTTAGCAGCA AGAGAGGTGG TAGCCTACAT CTTGGAAAGA 
    AATGCTTGTT TGCTGCCTGC CTACTTTGCA GTTACAGAAA TCAGAAAACT ATATCCTGAA 
    GGAAAACTTC CCCACTGGTT ACTTGGTAAT TTAGTATCAG ATTTTGTGGA TACCTTCAGA 
    CCTACAGCAA GAATAAATTC TATTTGTGGT CGCTGTAGTC TCCTTCCTGT GGTAAATAAT 
    TCTGGTGCCA TGTGTAATTC ATGGAAGCTG GATCCTACAA CGCTTCGTTT TCCTTTGAAA 
    GGTCTCTTAC CATATGATAA GGATCTGTTT GAGCCACAGA CTGCTTTGTT GAGATATGTG 
    CTGGAACAAC CGTATTCCAG GGATATGGTC TGCAATATGC TAGGTCTGAA TAAGCAGACC 
    TTGAACATTG CTCAGCATAA GCAACGTTGC CCTGTGCTGG AGGACCAGCT GGTGGATCTT 
    GTGGTGTATG CCATGGAACG GTCTGAGACT GAAGAGAAGT TTGATGATGG TGGAACCAGT 
    CAGCTTCTGT GGCAGCATCT CTCCAGCCAG CTCATTTTCT TTGTGCTCTT TCAGTTTGCA 
    AGTTTTCCTC ATATGGTCCT GTCACTCCAT CAAAAGTTGG CAGGCCGTGG TCTCATTAAG 
    GGGAGAGACC ACCTGATGTG GGTGCTACTC CAGTTCATCT CTGGCAGCAT CCAGAAGAAT 
    GCACTGGCTG ACTTTCTCCC AGTTATGAAG CTGTTTGACC TCCTGTATCC TGAGAAAGAA 
    TATATTCCTG TACCTGACAT TAACAAACCC CAGTCAACTC ATGCTTTTGC AATGACCTGC 
    ATTTGGATTC ATCTGAACCG GAAGGCTCAT AGTGACAACT CCAAGTTGCA GATTCCCATT 
    CCTCATTCTC TTAAACTTCA CCATGAGTTT TTGCAACAGA GCTTAAGGAA TAAGAACTTA 
    CAGATGAATG ACTACAAAAT TGCCTTGTTG TGCAATGCTT ACTCAACCAA TTCTGAGTGT 
    TTCACTTTGC CAATGGGTGT GCTAGTAGAG ACTATTTATG GAAATGGCAA CATGAGGACA 
    CCTCTTCCAG GCACTAATTG CATGGCATCA GGGTCTATCA CCCCATTGCC AATGAACCTC 
    TTGGATTCAC TCACAGTTCA TGCCAAAATG AGTCTCATTC ACAGCATAGC TACAAGGGTA 
    ATTAAGCTGG CTCATGCAAA ATCTAGTGTG GCCTTGGCTC CTGCTCTTGT GGAAACCTAT 
    AGTCGCCTAT TGGTTTATAT GGAAATAGAA TCCTTGGGCA TCAAAGGCTT CATCAGTCAG 
    CTCCTGCCAA CAGTGTTCAA ATCTCATGCA TGGGGAATTT TGCATACTCT GCTGGAAATG 
    TTTAGCTATC GGATGCATCA CATCCAGCCT CATTACAGAG TCCAGCTCCT CAGCCATCTT 
    CATTCCTTGG CTGCTGTGCC ACAGACTAAT CAGAACCAAC TTCATCTCTG TGTTGAGAGT 
    ACTGCTCTAA GGCTCATCAC AGCTTTGGGC AGCTCGGAAG TCCAACCGCA GTTCACACGG 
    TTCCTCAATG ATCCCAAAAC AGTTCTTTCA GCAGAATCAG AAGAACTCAA CAGGGCTTTG 
    ATTTTAACTC TGGCAAGGGC AACACACGTG ACAGACTTCT TCACAGGCTC TGATTCAATC 
    CAGGGAACTT GGTGCAAGGA CATACTGCAG ACTATCATGA GTTTCACTCC ACATAACTGG 
    GCATCACATA CACTAAGCTG TTTTCCAGCT CCTCTGCAGG TATTCTTCAA GCAGAACAAC 
    GTGCCTCAGG AAAGCCGTTT TAATCTGAAG AAGAATGTGG AAGAAGAATA CCGGAAGTGG 
    AAGTCGATGA CCAGTGAGAA TGAAATAATC ACACACTTCT CTGCTCAAGG TTCATCCCCG 
    CTTTTCCTTT GTCTCCTGTG GAAGATGTTG TTAGACACTG ATCACATTAA TCAAATTGGT 
    TACAGAGTGT TAGAAAGAAT TGGGGCCAGA GCACTGGTGG CACATGTCAG GACATTTGCA 
    GATTTTTTGG TGTATGAATT CTCTACATCT GCAGGAGGAC AGCAGCTCAA CAAATGTATT 
    GAGATTCTCA ATGACATGGT GTGGAAATAC AATATTGTAA CACTGGATAG GTTGATACTC 
    TGTTTGGCTA TGCGTAGTCA TGAAGGCAAT GAAGCTCAAG TTTGTTACTT CATAATCCAG 
    TTACTCTTAC TGAAGCCAAA TGATTTCAGA AACAGAGTGA GTGACTTTGT GAAGGAGAAT 
    TCTCCGGAAC ACTGGCTGCA GAATGACTGG CACACAAAGC ATATGAGTTA CCACAAGAAA 
    TACCCTGAAA AGCTGTATTT TGAAGGCTTG GCAGAGCAAG TGAATCCCCC AGTTCAGATC 
    CAGCCCCAGT ACTTGCCAAT TTATTTTGGA AATGTATGCC TGCGCTTTCT GCCAGTGTTT 
    GACATTGTAA TTCATAGATT TCTGGAATTG CTTCCAGTGT CCAAATCACT AGAAACTTTA 
    TTGGATCATC TGGGAGGTTT ATACAAATTC CATGACCGAC CAGTGACCTA CCTGTACAAC 
    ACTCTTCACT ATTATGAGGG GCATCTGAGA GATCGCACAA ACCTCAAGAG AAAACTTGTT 
    CATGCCATAA TTGGCTCCCT CAAAGATAAT CGTCCACTAG GCTGGTGTCT GAGTGATACT 
    TACCTCAAAT GTGCCATGAA TCCCCGAGAA GAGAATCCAT GGGTTCCTGA TGATGCTTAC 
    TATTGCAAGC TCATTGGAAG ACTAGTAGAC ACTATGGCAG GCAAATCACC TGGTCCATTT 
    CCAAATTGTG ACTGGAGATT CAATGAGTTT CCTAACCCAG CTGCCCATGC TCTGCACGTT 
    ACCTGTGTTG AGCTCATGGC TCTGGCTGTT CCAGGGAAGG AGGTGGGCAA TGCTCTGCTG 
    AATGTTGTGC TGAAGAGTCA GCCCCTGGTG CCAAGAGAGA ACATCACAGC TTGGATGAAT 
    GCAATTGGAC TGATTATCAC AGCCTTACCA GAGCCGTACT GGATTGTTCT CCATGACTGC 
    ATTGTGAATG TCATCAACAG TCCCAGCTTG ACATCAGAGA CAGAGTGGGT TGGTTACCCG 
    TTCCAGCTGT TTGACTTCAC AGCATGTCAC CAGTCTTACT CCGAGATGAG TTGTAGCTAC 
    ACTTTGGCTT TGGCACATGC GGTTTGGCAT CATTCCAGCA TTGGACAGCT TTCTCTCATT 
    CCTAAGTTCC TCACAGAAGC TTTGATACCC ATTGTGAAAA CAGAGTTCCA GTTGCTCTAT 
    GTTTACCACC TCGTTGGCCC TTTCCTGCAA CGATTCCAGC AGGAGAGGAC ACGGTGCATG 
    ATAGAGATTG GAGTGGCATT TTATGAAATG CTCCTGAATG CAGATCGGTA CAGCTCCCAC 
    CTGAACTACA TGGATCCCAT TTGTGATTTC TTGTATCATA TGAAATATAT GTTTACAGGT 
    GACAGTGTGA AAGACCAAGT TGAGAAGATA ATTTGTAATC TACGACCAGC TTTGAAACTT 
    CGGCTGCGCT TCATAACTCA CATCAGTAAA ATGGAGCCAG CTGCTGTTTC ACAGCAGCCG 
    CTCAGCAGTG GGTCCCCAGC ACAACAGCCC AGCCAAGTGC CCGTCAACGT GGCCTTGCCA 
    GTAACCCAGT GA

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

    RefSeq XP_012428088.1
    CDS51..4202
    Translation

    Target ORF information:

    RefSeq Version XM_012572634.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata mediator complex subunit 23 (MED23), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012572634.1

    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
    ATGGCGATCC CCATGGTGCC CATGGAGACG CAGCTGCAGA GCATCTTCGA GGAGGTGGTG 
    AAAACAGAAG TAATTGAAGA AGCTTTTCCT GGGATGTTTA TGGACACTCC TGAAGATGAG 
    AGAACCAAAC TGATCAGCTG CCTGGGAGCT TTTAGACAGT TCTGGAGCAG TCTTTCCCAG 
    GAGTCCCATG AACAGTGTGT CCAGTGGATT GTAAGATTCA TACACAGCCA ACATAGTCCT 
    AAAAGAATTT CTTTTCTTTA TGACTGCCTA GCAATGGCAG TAGAAACTGG ACTTTTGCCA 
    CCCAGGATGG TTTGTGAATC TCTGATAAAC TCCGATACAC TTGAGTGGGA AAGGACTCAG 
    CTGTGGGCGT TAACGTTCAA ATTGGTTCGG AAGATTATTG GAGGTGTAGA CTACAAGGGT 
    GTGCGTGATC TGCTAAAAGT CATCCTAGAG AAAATCCTAA CAATTCCAAA CACTGTGAGC 
    TCAGCTGTTG TACAGCAGCT TTTAGCAGCA AGAGAGGTGG TAGCCTACAT CTTGGAAAGA 
    AATGCTTGTT TGCTGCCTGC CTACTTTGCA GTTACAGAAA TCAGAAAACT ATATCCTGAA 
    GGAAAACTTC CCCACTGGTT ACTTGGTAAT TTAGTATCAG ATTTTGTGGA TACCTTCAGA 
    CCTACAGCAA GAATAAATTC TATTTGTGGT CGCTGTAGTC TCCTTCCTGT GGTAAATAAT 
    TCTGGTGCCA TGTGTAATTC ATGGAAGCTG GATCCTACAA CGCTTCGTTT TCCTTTGAAA 
    GGTCTCTTAC CATATGATAA GGATCTGTTT GAGCCACAGA CTGCTTTGTT GAGATATGTG 
    CTGGAACAAC CGTATTCCAG GGATATGGTC TGCAATATGC TAGGTCTGAA TAAGCAGACC 
    TTGAACATTG CTCAGCATAA GCAACGTTGC CCTGTGCTGG AGGACCAGCT GGTGGATCTT 
    GTGGTGTATG CCATGGAACG GTCTGAGACT GAAGAGAAGT TTGATGATGG TGGAACCAGT 
    CAGCTTCTGT GGCAGCATCT CTCCAGCCAG CTCATTTTCT TTGTGCTCTT TCAGTTTGCA 
    AGTTTTCCTC ATATGGTCCT GTCACTCCAT CAAAAGTTGG CAGGCCGTGG TCTCATTAAG 
    GGGAGAGACC ACCTGATGTG GGTGCTACTC CAGTTCATCT CTGGCAGCAT CCAGAAGAAT 
    GCACTGGCTG ACTTTCTCCC AGTTATGAAG CTGTTTGACC TCCTGTATCC TGAGAAAGAA 
    TATATTCCTG TACCTGACAT TAACAAACCC CAGTCAACTC ATGCTTTTGC AATGACCTGC 
    ATTTGGATTC ATCTGAACCG GAAGGCTCAT AGTGACAACT CCAAGTTGCA GATTCCCATT 
    CCTCATTCTC TTAAACTTCA CCATGAGTTT TTGCAACAGA GCTTAAGGAA TAAGAACTTA 
    CAGATGAATG ACTACAAAAT TGCCTTGTTG TGCAATGCTT ACTCAACCAA TTCTGAGTGT 
    TTCACTTTGC CAATGGGTGT GCTAGTAGAG ACTATTTATG GAAATGGCAA CATGAGGACA 
    CCTCTTCCAG GCACTAATTG CATGGCATCA GGGTCTATCA CCCCATTGCC AATGAACCTC 
    TTGGATTCAC TCACAGTTCA TGCCAAAATG AGTCTCATTC ACAGCATAGC TACAAGGGTA 
    ATTAAGCTGG CTCATGCAAA ATCTAGTGTG GCCTTGGCTC CTGCTCTTGT GGAAACCTAT 
    AGTCGCCTAT TGGTTTATAT GGAAATAGAA TCCTTGGGCA TCAAAGGCTT CATCAGTCAG 
    CTCCTGCCAA CAGTGTTCAA ATCTCATGCA TGGGGAATTT TGCATACTCT GCTGGAAATG 
    TTTAGCTATC GGATGCATCA CATCCAGCCT CATTACAGAG TCCAGCTCCT CAGCCATCTT 
    CATTCCTTGG CTGCTGTGCC ACAGACTAAT CAGAACCAAC TTCATCTCTG TGTTGAGAGT 
    ACTGCTCTAA GGCTCATCAC AGCTTTGGGC AGCTCGGAAG TCCAACCGCA GTTCACACGG 
    TTCCTCAATG ATCCCAAAAC AGTTCTTTCA GCAGAATCAG AAGAACTCAA CAGGGCTTTG 
    ATTTTAACTC TGGCAAGGGC AACACACGTG ACAGACTTCT TCACAGGCTC TGATTCAATC 
    CAGGGAACTT GGTGCAAGGA CATACTGCAG ACTATCATGA GTTTCACTCC ACATAACTGG 
    GCATCACATA CACTAAGCTG TTTTCCAGCT CCTCTGCAGG TATTCTTCAA GCAGAACAAC 
    GTGCCTCAGG AAAGCCGTTT TAATCTGAAG AAGAATGTGG AAGAAGAATA CCGGAAGTGG 
    AAGTCGATGA CCAGTGAGAA TGAAATAATC ACACACTTCT CTGCTCAAGG TTCATCCCCG 
    CTTTTCCTTT GTCTCCTGTG GAAGATGTTG TTAGACACTG ATCACATTAA TCAAATTGGT 
    TACAGAGTGT TAGAAAGAAT TGGGGCCAGA GCACTGGTGG CACATGTCAG GACATTTGCA 
    GATTTTTTGG TGTATGAATT CTCTACATCT GCAGGAGGAC AGCAGCTCAA CAAATGTATT 
    GAGATTCTCA ATGACATGGT GTGGAAATAC AATATTGTAA CACTGGATAG GTTGATACTC 
    TGTTTGGCTA TGCGTAGTCA TGAAGGCAAT GAAGCTCAAG TTTGTTACTT CATAATCCAG 
    TTACTCTTAC TGAAGCCAAA TGATTTCAGA AACAGAGTGA GTGACTTTGT GAAGGAGAAT 
    TCTCCGGAAC ACTGGCTGCA GAATGACTGG CACACAAAGC ATATGAGTTA CCACAAGAAA 
    TACCCTGAAA AGCTGTATTT TGAAGGCTTG GCAGAGCAAG TGAATCCCCC AGTTCAGATC 
    CAGCCCCAGT ACTTGCCAAT TTATTTTGGA AATGTATGCC TGCGCTTTCT GCCAGTGTTT 
    GACATTGTAA TTCATAGATT TCTGGAATTG CTTCCAGTGT CCAAATCACT AGAAACTTTA 
    TTGGATCATC TGGGAGGTTT ATACAAATTC CATGACCGAC CAGTGACCTA CCTGTACAAC 
    ACTCTTCACT ATTATGAGGG GCATCTGAGA GATCGCACAA ACCTCAAGAG AAAACTTGTT 
    CATGCCATAA TTGGCTCCCT CAAAGATAAT CGTCCACTAG GCTGGTGTCT GAGTGATACT 
    TACCTCAAAT GTGCCATGAA TCCCCGAGAA GAGAATCCAT GGGTTCCTGA TGATGCTTAC 
    TATTGCAAGC TCATTGGAAG ACTAGTAGAC ACTATGGCAG GCAAATCACC TGGTCCATTT 
    CCAAATTGTG ACTGGAGATT CAATGAGTTT CCTAACCCAG CTGCCCATGC TCTGCACGTT 
    ACCTGTGTTG AGCTCATGGC TCTGGCTGTT CCAGGGAAGG AGGTGGGCAA TGCTCTGCTG 
    AATGTTGTGC TGAAGAGTCA GCCCCTGGTG CCAAGAGAGA ACATCACAGC TTGGATGAAT 
    GCAATTGGAC TGATTATCAC AGCCTTACCA GAGCCGTACT GGATTGTTCT CCATGACTGC 
    ATTGTGAATG TCATCAACAG TCCCAGCTTG ACATCAGAGA CAGAGTGGGT TGGTTACCCG 
    TTCCAGCTGT TTGACTTCAC AGCATGTCAC CAGTCTTACT CCGAGATGAG TTGTAGCTAC 
    ACTTTGGCTT TGGCACATGC GGTTTGGCAT CATTCCAGCA TTGGACAGCT TTCTCTCATT 
    CCTAAGTTCC TCACAGAAGC TTTGATACCC ATTGTGAAAA CAGAGTTCCA GTTGCTCTAT 
    GTTTACCACC TCGTTGGCCC TTTCCTGCAA CGATTCCAGC AGGAGAGGAC ACGGTGCATG 
    ATAGAGATTG GAGTGGCATT TTATGAAATG CTCCTGAATG CAGATCGGTA CAGCTCCCAC 
    CTGAACTACA TGGATCCCAT TTGTGATTTC TTGTATCATA TGAAATATAT GTTTACAGGT 
    GACAGTGTGA AAGACCAAGT TGAGAAGATA ATTTGTAATC TACGACCAGC TTTGAAACTT 
    CGGCTGCGCT TCATAACTCA CATCAGTAAA ATGGAGCCAG CTGCTGTTTC ACAGCAGCCG 
    CTCAGCAGTG GGTCCCCAGC ACAACAGCCC AGCCAAGTGC CCGTCAACGT GGCCTTGCCA 
    GTAACCCAGT GA

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

    MED23 ( XM_012572634.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012428088.1 Taeniopygia guttata mediator complex subunit 23 (MED23), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OTd15915
    Clone ID Related Accession (Same CDS sequence) XM_012572634.1 , XM_012572634.2
    Accession Version XM_012572634.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4152bp)
    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 mediator of RNA polymerase II transcription subunit 23 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044214.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_012572634.1. ##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
    ATGGCGATCC CCATGGTGCC CATGGAGACG CAGCTGCAGA GCATCTTCGA GGAGGTGGTG 
    AAAACAGAAG TAATTGAAGA AGCTTTTCCT GGGATGTTTA TGGACACTCC TGAAGATGAG 
    AGAACCAAAC TGATCAGCTG CCTGGGAGCT TTTAGACAGT TCTGGAGCAG TCTTTCCCAG 
    GAGTCCCATG AACAGTGTGT CCAGTGGATT GTAAGATTCA TACACAGCCA ACATAGTCCT 
    AAAAGAATTT CTTTTCTTTA TGACTGCCTA GCAATGGCAG TAGAAACTGG ACTTTTGCCA 
    CCCAGGATGG TTTGTGAATC TCTGATAAAC TCCGATACAC TTGAGTGGGA AAGGACTCAG 
    CTGTGGGCGT TAACGTTCAA ATTGGTTCGG AAGATTATTG GAGGTGTAGA CTACAAGGGT 
    GTGCGTGATC TGCTAAAAGT CATCCTAGAG AAAATCCTAA CAATTCCAAA CACTGTGAGC 
    TCAGCTGTTG TACAGCAGCT TTTAGCAGCA AGAGAGGTGG TAGCCTACAT CTTGGAAAGA 
    AATGCTTGTT TGCTGCCTGC CTACTTTGCA GTTACAGAAA TCAGAAAACT ATATCCTGAA 
    GGAAAACTTC CCCACTGGTT ACTTGGTAAT TTAGTATCAG ATTTTGTGGA TACCTTCAGA 
    CCTACAGCAA GAATAAATTC TATTTGTGGT CGCTGTAGTC TCCTTCCTGT GGTAAATAAT 
    TCTGGTGCCA TGTGTAATTC ATGGAAGCTG GATCCTACAA CGCTTCGTTT TCCTTTGAAA 
    GGTCTCTTAC CATATGATAA GGATCTGTTT GAGCCACAGA CTGCTTTGTT GAGATATGTG 
    CTGGAACAAC CGTATTCCAG GGATATGGTC TGCAATATGC TAGGTCTGAA TAAGCAGACC 
    TTGAACATTG CTCAGCATAA GCAACGTTGC CCTGTGCTGG AGGACCAGCT GGTGGATCTT 
    GTGGTGTATG CCATGGAACG GTCTGAGACT GAAGAGAAGT TTGATGATGG TGGAACCAGT 
    CAGCTTCTGT GGCAGCATCT CTCCAGCCAG CTCATTTTCT TTGTGCTCTT TCAGTTTGCA 
    AGTTTTCCTC ATATGGTCCT GTCACTCCAT CAAAAGTTGG CAGGCCGTGG TCTCATTAAG 
    GGGAGAGACC ACCTGATGTG GGTGCTACTC CAGTTCATCT CTGGCAGCAT CCAGAAGAAT 
    GCACTGGCTG ACTTTCTCCC AGTTATGAAG CTGTTTGACC TCCTGTATCC TGAGAAAGAA 
    TATATTCCTG TACCTGACAT TAACAAACCC CAGTCAACTC ATGCTTTTGC AATGACCTGC 
    ATTTGGATTC ATCTGAACCG GAAGGCTCAT AGTGACAACT CCAAGTTGCA GATTCCCATT 
    CCTCATTCTC TTAAACTTCA CCATGAGTTT TTGCAACAGA GCTTAAGGAA TAAGAACTTA 
    CAGATGAATG ACTACAAAAT TGCCTTGTTG TGCAATGCTT ACTCAACCAA TTCTGAGTGT 
    TTCACTTTGC CAATGGGTGT GCTAGTAGAG ACTATTTATG GAAATGGCAA CATGAGGACA 
    CCTCTTCCAG GCACTAATTG CATGGCATCA GGGTCTATCA CCCCATTGCC AATGAACCTC 
    TTGGATTCAC TCACAGTTCA TGCCAAAATG AGTCTCATTC ACAGCATAGC TACAAGGGTA 
    ATTAAGCTGG CTCATGCAAA ATCTAGTGTG GCCTTGGCTC CTGCTCTTGT GGAAACCTAT 
    AGTCGCCTAT TGGTTTATAT GGAAATAGAA TCCTTGGGCA TCAAAGGCTT CATCAGTCAG 
    CTCCTGCCAA CAGTGTTCAA ATCTCATGCA TGGGGAATTT TGCATACTCT GCTGGAAATG 
    TTTAGCTATC GGATGCATCA CATCCAGCCT CATTACAGAG TCCAGCTCCT CAGCCATCTT 
    CATTCCTTGG CTGCTGTGCC ACAGACTAAT CAGAACCAAC TTCATCTCTG TGTTGAGAGT 
    ACTGCTCTAA GGCTCATCAC AGCTTTGGGC AGCTCGGAAG TCCAACCGCA GTTCACACGG 
    TTCCTCAATG ATCCCAAAAC AGTTCTTTCA GCAGAATCAG AAGAACTCAA CAGGGCTTTG 
    ATTTTAACTC TGGCAAGGGC AACACACGTG ACAGACTTCT TCACAGGCTC TGATTCAATC 
    CAGGGAACTT GGTGCAAGGA CATACTGCAG ACTATCATGA GTTTCACTCC ACATAACTGG 
    GCATCACATA CACTAAGCTG TTTTCCAGCT CCTCTGCAGG TATTCTTCAA GCAGAACAAC 
    GTGCCTCAGG AAAGCCGTTT TAATCTGAAG AAGAATGTGG AAGAAGAATA CCGGAAGTGG 
    AAGTCGATGA CCAGTGAGAA TGAAATAATC ACACACTTCT CTGCTCAAGG TTCATCCCCG 
    CTTTTCCTTT GTCTCCTGTG GAAGATGTTG TTAGACACTG ATCACATTAA TCAAATTGGT 
    TACAGAGTGT TAGAAAGAAT TGGGGCCAGA GCACTGGTGG CACATGTCAG GACATTTGCA 
    GATTTTTTGG TGTATGAATT CTCTACATCT GCAGGAGGAC AGCAGCTCAA CAAATGTATT 
    GAGATTCTCA ATGACATGGT GTGGAAATAC AATATTGTAA CACTGGATAG GTTGATACTC 
    TGTTTGGCTA TGCGTAGTCA TGAAGGCAAT GAAGCTCAAG TTTGTTACTT CATAATCCAG 
    TTACTCTTAC TGAAGCCAAA TGATTTCAGA AACAGAGTGA GTGACTTTGT GAAGGAGAAT 
    TCTCCGGAAC ACTGGCTGCA GAATGACTGG CACACAAAGC ATATGAGTTA CCACAAGAAA 
    TACCCTGAAA AGCTGTATTT TGAAGGCTTG GCAGAGCAAG TGAATCCCCC AGTTCAGATC 
    CAGCCCCAGT ACTTGCCAAT TTATTTTGGA AATGTATGCC TGCGCTTTCT GCCAGTGTTT 
    GACATTGTAA TTCATAGATT TCTGGAATTG CTTCCAGTGT CCAAATCACT AGAAACTTTA 
    TTGGATCATC TGGGAGGTTT ATACAAATTC CATGACCGAC CAGTGACCTA CCTGTACAAC 
    ACTCTTCACT ATTATGAGGG GCATCTGAGA GATCGCACAA ACCTCAAGAG AAAACTTGTT 
    CATGCCATAA TTGGCTCCCT CAAAGATAAT CGTCCACTAG GCTGGTGTCT GAGTGATACT 
    TACCTCAAAT GTGCCATGAA TCCCCGAGAA GAGAATCCAT GGGTTCCTGA TGATGCTTAC 
    TATTGCAAGC TCATTGGAAG ACTAGTAGAC ACTATGGCAG GCAAATCACC TGGTCCATTT 
    CCAAATTGTG ACTGGAGATT CAATGAGTTT CCTAACCCAG CTGCCCATGC TCTGCACGTT 
    ACCTGTGTTG AGCTCATGGC TCTGGCTGTT CCAGGGAAGG AGGTGGGCAA TGCTCTGCTG 
    AATGTTGTGC TGAAGAGTCA GCCCCTGGTG CCAAGAGAGA ACATCACAGC TTGGATGAAT 
    GCAATTGGAC TGATTATCAC AGCCTTACCA GAGCCGTACT GGATTGTTCT CCATGACTGC 
    ATTGTGAATG TCATCAACAG TCCCAGCTTG ACATCAGAGA CAGAGTGGGT TGGTTACCCG 
    TTCCAGCTGT TTGACTTCAC AGCATGTCAC CAGTCTTACT CCGAGATGAG TTGTAGCTAC 
    ACTTTGGCTT TGGCACATGC GGTTTGGCAT CATTCCAGCA TTGGACAGCT TTCTCTCATT 
    CCTAAGTTCC TCACAGAAGC TTTGATACCC ATTGTGAAAA CAGAGTTCCA GTTGCTCTAT 
    GTTTACCACC TCGTTGGCCC TTTCCTGCAA CGATTCCAGC AGGAGAGGAC ACGGTGCATG 
    ATAGAGATTG GAGTGGCATT TTATGAAATG CTCCTGAATG CAGATCGGTA CAGCTCCCAC 
    CTGAACTACA TGGATCCCAT TTGTGATTTC TTGTATCATA TGAAATATAT GTTTACAGGT 
    GACAGTGTGA AAGACCAAGT TGAGAAGATA ATTTGTAATC TACGACCAGC TTTGAAACTT 
    CGGCTGCGCT TCATAACTCA CATCAGTAAA ATGGAGCCAG CTGCTGTTTC ACAGCAGCCG 
    CTCAGCAGTG GGTCCCCAGC ACAACAGCCC AGCCAAGTGC CCGTCAACGT GGCCTTGCCA 
    GTAACCCAGT GA

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

    RefSeq XP_012428088.1
    CDS77..4228
    Translation

    Target ORF information:

    RefSeq Version XM_012572634.2
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata mediator complex subunit 23 (MED23), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012572634.2

    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
    ATGGCGATCC CCATGGTGCC CATGGAGACG CAGCTGCAGA GCATCTTCGA GGAGGTGGTG 
    AAAACAGAAG TAATTGAAGA AGCTTTTCCT GGGATGTTTA TGGACACTCC TGAAGATGAG 
    AGAACCAAAC TGATCAGCTG CCTGGGAGCT TTTAGACAGT TCTGGAGCAG TCTTTCCCAG 
    GAGTCCCATG AACAGTGTGT CCAGTGGATT GTAAGATTCA TACACAGCCA ACATAGTCCT 
    AAAAGAATTT CTTTTCTTTA TGACTGCCTA GCAATGGCAG TAGAAACTGG ACTTTTGCCA 
    CCCAGGATGG TTTGTGAATC TCTGATAAAC TCCGATACAC TTGAGTGGGA AAGGACTCAG 
    CTGTGGGCGT TAACGTTCAA ATTGGTTCGG AAGATTATTG GAGGTGTAGA CTACAAGGGT 
    GTGCGTGATC TGCTAAAAGT CATCCTAGAG AAAATCCTAA CAATTCCAAA CACTGTGAGC 
    TCAGCTGTTG TACAGCAGCT TTTAGCAGCA AGAGAGGTGG TAGCCTACAT CTTGGAAAGA 
    AATGCTTGTT TGCTGCCTGC CTACTTTGCA GTTACAGAAA TCAGAAAACT ATATCCTGAA 
    GGAAAACTTC CCCACTGGTT ACTTGGTAAT TTAGTATCAG ATTTTGTGGA TACCTTCAGA 
    CCTACAGCAA GAATAAATTC TATTTGTGGT CGCTGTAGTC TCCTTCCTGT GGTAAATAAT 
    TCTGGTGCCA TGTGTAATTC ATGGAAGCTG GATCCTACAA CGCTTCGTTT TCCTTTGAAA 
    GGTCTCTTAC CATATGATAA GGATCTGTTT GAGCCACAGA CTGCTTTGTT GAGATATGTG 
    CTGGAACAAC CGTATTCCAG GGATATGGTC TGCAATATGC TAGGTCTGAA TAAGCAGACC 
    TTGAACATTG CTCAGCATAA GCAACGTTGC CCTGTGCTGG AGGACCAGCT GGTGGATCTT 
    GTGGTGTATG CCATGGAACG GTCTGAGACT GAAGAGAAGT TTGATGATGG TGGAACCAGT 
    CAGCTTCTGT GGCAGCATCT CTCCAGCCAG CTCATTTTCT TTGTGCTCTT TCAGTTTGCA 
    AGTTTTCCTC ATATGGTCCT GTCACTCCAT CAAAAGTTGG CAGGCCGTGG TCTCATTAAG 
    GGGAGAGACC ACCTGATGTG GGTGCTACTC CAGTTCATCT CTGGCAGCAT CCAGAAGAAT 
    GCACTGGCTG ACTTTCTCCC AGTTATGAAG CTGTTTGACC TCCTGTATCC TGAGAAAGAA 
    TATATTCCTG TACCTGACAT TAACAAACCC CAGTCAACTC ATGCTTTTGC AATGACCTGC 
    ATTTGGATTC ATCTGAACCG GAAGGCTCAT AGTGACAACT CCAAGTTGCA GATTCCCATT 
    CCTCATTCTC TTAAACTTCA CCATGAGTTT TTGCAACAGA GCTTAAGGAA TAAGAACTTA 
    CAGATGAATG ACTACAAAAT TGCCTTGTTG TGCAATGCTT ACTCAACCAA TTCTGAGTGT 
    TTCACTTTGC CAATGGGTGT GCTAGTAGAG ACTATTTATG GAAATGGCAA CATGAGGACA 
    CCTCTTCCAG GCACTAATTG CATGGCATCA GGGTCTATCA CCCCATTGCC AATGAACCTC 
    TTGGATTCAC TCACAGTTCA TGCCAAAATG AGTCTCATTC ACAGCATAGC TACAAGGGTA 
    ATTAAGCTGG CTCATGCAAA ATCTAGTGTG GCCTTGGCTC CTGCTCTTGT GGAAACCTAT 
    AGTCGCCTAT TGGTTTATAT GGAAATAGAA TCCTTGGGCA TCAAAGGCTT CATCAGTCAG 
    CTCCTGCCAA CAGTGTTCAA ATCTCATGCA TGGGGAATTT TGCATACTCT GCTGGAAATG 
    TTTAGCTATC GGATGCATCA CATCCAGCCT CATTACAGAG TCCAGCTCCT CAGCCATCTT 
    CATTCCTTGG CTGCTGTGCC ACAGACTAAT CAGAACCAAC TTCATCTCTG TGTTGAGAGT 
    ACTGCTCTAA GGCTCATCAC AGCTTTGGGC AGCTCGGAAG TCCAACCGCA GTTCACACGG 
    TTCCTCAATG ATCCCAAAAC AGTTCTTTCA GCAGAATCAG AAGAACTCAA CAGGGCTTTG 
    ATTTTAACTC TGGCAAGGGC AACACACGTG ACAGACTTCT TCACAGGCTC TGATTCAATC 
    CAGGGAACTT GGTGCAAGGA CATACTGCAG ACTATCATGA GTTTCACTCC ACATAACTGG 
    GCATCACATA CACTAAGCTG TTTTCCAGCT CCTCTGCAGG TATTCTTCAA GCAGAACAAC 
    GTGCCTCAGG AAAGCCGTTT TAATCTGAAG AAGAATGTGG AAGAAGAATA CCGGAAGTGG 
    AAGTCGATGA CCAGTGAGAA TGAAATAATC ACACACTTCT CTGCTCAAGG TTCATCCCCG 
    CTTTTCCTTT GTCTCCTGTG GAAGATGTTG TTAGACACTG ATCACATTAA TCAAATTGGT 
    TACAGAGTGT TAGAAAGAAT TGGGGCCAGA GCACTGGTGG CACATGTCAG GACATTTGCA 
    GATTTTTTGG TGTATGAATT CTCTACATCT GCAGGAGGAC AGCAGCTCAA CAAATGTATT 
    GAGATTCTCA ATGACATGGT GTGGAAATAC AATATTGTAA CACTGGATAG GTTGATACTC 
    TGTTTGGCTA TGCGTAGTCA TGAAGGCAAT GAAGCTCAAG TTTGTTACTT CATAATCCAG 
    TTACTCTTAC TGAAGCCAAA TGATTTCAGA AACAGAGTGA GTGACTTTGT GAAGGAGAAT 
    TCTCCGGAAC ACTGGCTGCA GAATGACTGG CACACAAAGC ATATGAGTTA CCACAAGAAA 
    TACCCTGAAA AGCTGTATTT TGAAGGCTTG GCAGAGCAAG TGAATCCCCC AGTTCAGATC 
    CAGCCCCAGT ACTTGCCAAT TTATTTTGGA AATGTATGCC TGCGCTTTCT GCCAGTGTTT 
    GACATTGTAA TTCATAGATT TCTGGAATTG CTTCCAGTGT CCAAATCACT AGAAACTTTA 
    TTGGATCATC TGGGAGGTTT ATACAAATTC CATGACCGAC CAGTGACCTA CCTGTACAAC 
    ACTCTTCACT ATTATGAGGG GCATCTGAGA GATCGCACAA ACCTCAAGAG AAAACTTGTT 
    CATGCCATAA TTGGCTCCCT CAAAGATAAT CGTCCACTAG GCTGGTGTCT GAGTGATACT 
    TACCTCAAAT GTGCCATGAA TCCCCGAGAA GAGAATCCAT GGGTTCCTGA TGATGCTTAC 
    TATTGCAAGC TCATTGGAAG ACTAGTAGAC ACTATGGCAG GCAAATCACC TGGTCCATTT 
    CCAAATTGTG ACTGGAGATT CAATGAGTTT CCTAACCCAG CTGCCCATGC TCTGCACGTT 
    ACCTGTGTTG AGCTCATGGC TCTGGCTGTT CCAGGGAAGG AGGTGGGCAA TGCTCTGCTG 
    AATGTTGTGC TGAAGAGTCA GCCCCTGGTG CCAAGAGAGA ACATCACAGC TTGGATGAAT 
    GCAATTGGAC TGATTATCAC AGCCTTACCA GAGCCGTACT GGATTGTTCT CCATGACTGC 
    ATTGTGAATG TCATCAACAG TCCCAGCTTG ACATCAGAGA CAGAGTGGGT TGGTTACCCG 
    TTCCAGCTGT TTGACTTCAC AGCATGTCAC CAGTCTTACT CCGAGATGAG TTGTAGCTAC 
    ACTTTGGCTT TGGCACATGC GGTTTGGCAT CATTCCAGCA TTGGACAGCT TTCTCTCATT 
    CCTAAGTTCC TCACAGAAGC TTTGATACCC ATTGTGAAAA CAGAGTTCCA GTTGCTCTAT 
    GTTTACCACC TCGTTGGCCC TTTCCTGCAA CGATTCCAGC AGGAGAGGAC ACGGTGCATG 
    ATAGAGATTG GAGTGGCATT TTATGAAATG CTCCTGAATG CAGATCGGTA CAGCTCCCAC 
    CTGAACTACA TGGATCCCAT TTGTGATTTC TTGTATCATA TGAAATATAT GTTTACAGGT 
    GACAGTGTGA AAGACCAAGT TGAGAAGATA ATTTGTAATC TACGACCAGC TTTGAAACTT 
    CGGCTGCGCT TCATAACTCA CATCAGTAAA ATGGAGCCAG CTGCTGTTTC ACAGCAGCCG 
    CTCAGCAGTG GGTCCCCAGC ACAACAGCCC AGCCAAGTGC CCGTCAACGT GGCCTTGCCA 
    GTAACCCAGT GA

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

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