ORF » Species Summary » Taeniopygia guttata » UGGT1 cDNA ORF clone

UGGT1 cDNA ORF clone, Taeniopygia guttata(zebra finch)

The following UGGT1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the UGGT1 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
OTd12177 XM_012575526.1
Latest version!		 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd15787 XM_012575525.1
Latest version!		 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd52020 XM_030280425.1
Latest version!		 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd52020 XM_030280426.1
Latest version!		 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd52021 XM_030280427.1
Latest version!		 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X3, 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)
    UGGT1 ( XM_012575526.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012430980.1 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OTd12177
    Clone ID Related Accession (Same CDS sequence) XM_012575526.1
    Accession Version XM_012575526.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4596bp)
    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 UDP-glucose:glycoprotein glucosyltransferase 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002199036.1) 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGGAATAC TTATTGCAGT TCTTGGAATC TGGTTCAGCT CTTCACTTGT AAAAGCAGAT 
    TCTAAGGCTG TGACAACATC TCTAACTACA AAGTGGTCTT CAACTCCTTT ACTCCTTGAA 
    ACAAGTGAAT TTTTATCAGA AGAAGGTCAA GAAAAATTCT GGAATTTTGT TGAAGCCAGT 
    GAGAATATTA AGACAGCTGA GCATGATGGT AGTGATTATT CTTCTTACCA GGAAATGCTG 
    AAAGTGGCCT GCCAGACTCT GTCACCTTTG CAGCAGAATT TGTTGAAATT TTCCCTGTCT 
    TTACGCTCCT ACTCTGCAGC AGTTCAAGCT TTTCAACAGA TAGCAGCAGA TGAATCTCCA 
    CCAAAGGGCT GTATCCTGTT TTTTGTTGTG CATGGGGAGA AAACATGTGA ATTTGACTCT 
    CTTGGAAACC TTTTACAGGC AGCTTCAGAC AGGCCAAAGC CATTTTTGTT CAAGGGGGAC 
    CACAAGTACC CAGCATCAAA CCCTGAAAGT CCTGTGGTCA TACTTTATGC AGAGATTGGC 
    TCAGAGGAGT TCTACAGAGA GCACAGGAGG CTTGCTTCAA AGGCTGAGGC AGGAGAAATC 
    ACTTATGTGC TCAGACACTA CATTGCTAAT CCCAGCAAGG AAAAGGTCTA CCTCTCTGGC 
    TATGGTGTAG AACTGGCTAT TAAAAGTACA GAATATAAGG CCAAGGATGA TACCCAGGTG 
    AAAGGCACAG ATGTGAATGC TACAGTCATA GATGAAAATG ACCCTATTGA TGAAGTGCAA 
    GGATTTCTGT TTGGAAAACT AAGACAGCTG TATCCTGACT TGTCAGAAGA GCTGAAAGAG 
    CTCAGAAAAC ACCTCGTGGA AAGTACCAAT GAAATGGCAC CTTTGAAAGT ATGGCAGCTC 
    CAAGATCTGA GTTTTCAAAC TGCTGCTCGC ATTTTGACTG CTCCCCCTGT GGATGCCCTG 
    ATGGTCATGA AAGATCTTAG TCAGAACTTT CCTACAAAGG CCAGAGCCAT AACAAAAACA 
    GTTGTTTCTT CGGAACTCAG AGCAGAAATT GAAGAGAACC AAAAGTATTT CAAGGGAACA 
    TTAGGATTGC AACCAGGAGA TTCTGCCCTA TTCATCAATG GACTGCTTAT TGATTTAGAC 
    ACTCAAGATA TATTTAGCTT GATTGATGTG CTCCGCAATG AAGCCCGTGT TATGGAAGGC 
    CTGCACAGCT TGGGAATTGA GGGAATTTCC TTACACAATG TCCTGAAGTT GAACATCCAG 
    CCATCAGACT CTGACTATGC TGTGGACATC AGAAGCCCTG CCATTTCATG GATCAACAAT 
    CTGGAAGTTG ATAGTCGGTA CAATTCCTGG CCTTCCAGTG TGCAGGAGCT GCTGCGTCCC 
    ACATTTCCTG GTGTGATCAG GCAAATCAGA AAAAACTTCC ATAATTTTGT GCTGATAGTA 
    GATCCTACTC ATGAGACCAC AGCAGAATTA CTGAATGTGG CAGAAATGTT CTTCAGTAAC 
    CACATCCCAC TGAGGATAGG ACTAGTCTTT GTGGTTAATG ACTCAGAAGA TGTTGATGGA 
    CTTCAGGATG CTGGTGTTGC CCTCCTTAGG ACATACAATT ACGTGGCACA AGAAATGGAC 
    AATAATTATG CTTTTCAGAC CGTCATGTCT ATATATAACA AAGTGAAAAC AGGGGACCAG 
    CTGAAAGTGG AACATGTTGT TAGTGTTCTT GAGAAACAAT ATCCTTATGT GGAAATCAAC 
    AGTGTGCTGG GAATTGATTC TGCCTATGAT CAAAACAGAA AGGCAGCAAG AGCTTACTAT 
    GAGCAAACTG GTGTAGGCCC TCTCCCTGTT GTCCTGTTCA ATGGGATGCC TTTCCAAAAA 
    GATCAGCTGG ATCCTGATGA CCTGGAAACT GTGACAATGC ACAAAATCCT GGAAACCACG 
    AGCATCTTCC AGCGAGCCGT GTACCTGGGT GAACTATCTA ATGACCAAGA TGTGGTTGAG 
    TATATCATGA ACCAGCCTAA TGTTGTTCCA AGAATTAACT CAAGAATCCT AAGGTCTGAC 
    AGAGAGTACC TAGATCTGAC AGGAATGAAT AACCATTTTG TGGATGACTT TGCTCGATTT 
    ACCACATTGG ATTCTAAAGA TAAGACAGCT GCTGTTGCAA ACAGCATGAC CTACTTAACA 
    AAGAAAGGAA TGTCTTCCAA GGAGATCTAT GATGATTCCT TTGTTAGACC TGTTACTTTT 
    TGGATTGTTG GTGATTTTGA TAAACCTTCA GGGAGGCAGT TGTTGTATGA TGCCATTAAA 
    CATCAGAAAT CCAGCAATAA CATTCGAATT GGCATGATTA ATAATCCTAG TGAAGAACCC 
    AACAGCCAGA ATACCATTGT AGCTAAAGCC ATATGGGCAG CTTTGCAGAC ACAAACATCA 
    AATAATGCCA AGAACTTCAT CACCAAGATG GCAAAAGAAG AAACTGTGAA GGCACTGGAG 
    GCAGGAGCTG ACATCTTGGA ATTTGCTGTT GGGGGTATGG ATACCAATAT TTTCAAAGAA 
    GCCTTCAAAT CTCCCAAGAT GGATTTTGTT CTGTCCCATG CTGTTTATTG CAGAGATGTT 
    CTAAAGCTGA AGAAGGGGCA GAGGGCTGTG ATCAGCAATG GACGGATTAT TGGCCCATTA 
    GAGGATGGAG AGATGTTCAA TCAGGATGAT TTTCATCTCC TTGAAAATAT CATATTAAAG 
    ACATCGGGAC AGAAAATCAA ATCTCAGATT CAGCAGCTGG GATTTGAAGA AGATCTGGCA 
    AGTGATTTGG TAATGAAAGT GGATGCTCTT CTTTCTGCTC AGCCAAAAGG AGAGGCAAGG 
    ATTGAGTATC AGTTTTTTGA AGAACGATAC AGTGCAGTTA AACTGAGACC AAAAGAGGGG 
    GAGACATACT TTGATGTTGT GGCTATTGTT GATCCCGTGA CCAGAGATGC TCAGAGACTT 
    GCTCCATTAC TTTTGGTTTT GAACCAATTG ATAAATATGA ACCTGAGAGT GTTTATGAAC 
    TGCCAGTCTA AGCTTTCTGA CATGCCACTG AAAAGCTTTT ACCGCTATGT TTTGGAGCCA 
    GAGATTTCTT TCACAGCAGA GAATAACTTT GCTCCAGGAC CAATTGCCAA GTTTTTAGAC 
    ATGCCCCAGT CTCCACTGTT CACTCTGAAT TTAAATACTC CTGAGAGTTG GATGGTGGAG 
    TCTGTTAGAA CCCCCTATGA CCTTGACAAT ATCTTCTTAG AGGAGGTGGA GAGTGTTGTA 
    GCTGCAGAGT ATGAACTGGA GTACCTGCTG CTGGAGGGCC ACTGCTATGA CATTACAACT 
    GGGCAGCCAC CTCGGGGGCT CCAGTTCACC CTGGGCACCT CCAGCAGCCC TGTCATCGTG 
    GACACCATCG TTATGGCCAA CCTGGGCTAC TTCCAATTAA AAGCCAATCC TGGTGCATGG 
    ACTCTAAGAC TGAGAAAAGG CAGATCTGAA GATATTTACA GGATCTACAG CCACGATGGC 
    ACAGACTCTC CACCTGAAGC TAATGAAGTT ATTGTTGTTC TCAATAACTT CAAGAGCAAA 
    ATTATTAAAG TGAAGGTGCA GAAAAAGTTT GATATGATGA ATGAAGATCT TCTAAGTGAT 
    GGCACCAATG AGAATGAATC TGGATTTTGG GAATCACTCA AATGGGGATT CACAGGAGGG 
    CAAAAGAATG AAGATGTGAA ACAGGATAAA GATGATGTAC TAAATATATT CTCTGTGGCT 
    TCAGGACACC TATATGAGAG ATTCCTACGC ATAATGATGT TGTCTGTGCT GAAACACACC 
    AAGACTCCTT TAAAGTTTTG GTTTCTGAAG AACTACTTAT CACCTACATT CAAGGAGTTC 
    ATCCCATACA TGGCCAAGAA GTACAATTTC CAGTATGAGC TTGTCCAGTA TAAATGGCCA 
    CGCTGGCTGC ACCAACAAAC AGAGAAGCAG CGAATCATCT GGGGTTACAA GATCCTCTTT 
    CTAGATGTGC TCTTCCCATT AGCTGTTGAT AAAATCCTCT TTGTGGATGC TGATCAGATT 
    GTGCGCACAG ATCTGAAAGA ATTGAGGGAT TTGAATCTGG ATGGTGCTCC TTATGGATAC 
    ACCCCATTCT GTGACAGCCG AAGGGAAATG GATGGCTACA GGTTCTGGAA ATCAGGATAC 
    TGGGCAAGTC ATTTAGCTGG AAGAAAATAC CACATCAGTG CTCTGTATGT TGTGGATCTG 
    AAGAAGTTCA GGAAGATAGC AGCTGGAGAT CGACTCAGAG GACAGTATCA GGGCCTGAGT 
    CAGGATCCAA ACAGTCTGTC CAACCTTGAT CAGGATTTGC CAAACAACAT GATTCACCAA 
    GTACCCATCA AGTCCCTTCC CCAGGAGTGG CTGTGGTGTG AAACATGGTG TGATGACTCC 
    TCGAAGAAGA GAGCAAAAAC CATTGATCTG TGTAACAACC CAATGACCAA AGAGCCCAAG 
    CTGCAGGCAG CCATGAGGAT AGTTCCAGAA TGGCAGGACT ATGATCAAGA AATCAAACTG 
    CTCCAGAGTC AATTCCAGAA GGAAAAAGAA ATGGGAACAC CAGCTGAGAT GCCAGGACAA 
    CACACACATG ATCCAGCAAC ACATGTGGAA TTATGA

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

    RefSeq XP_012430980.1
    CDS7..4602
    Translation

    Target ORF information:

    RefSeq Version XM_012575526.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012575526.1

    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
    ATGGGAATAC TTATTGCAGT TCTTGGAATC TGGTTCAGCT CTTCACTTGT AAAAGCAGAT 
    TCTAAGGCTG TGACAACATC TCTAACTACA AAGTGGTCTT CAACTCCTTT ACTCCTTGAA 
    ACAAGTGAAT TTTTATCAGA AGAAGGTCAA GAAAAATTCT GGAATTTTGT TGAAGCCAGT 
    GAGAATATTA AGACAGCTGA GCATGATGGT AGTGATTATT CTTCTTACCA GGAAATGCTG 
    AAAGTGGCCT GCCAGACTCT GTCACCTTTG CAGCAGAATT TGTTGAAATT TTCCCTGTCT 
    TTACGCTCCT ACTCTGCAGC AGTTCAAGCT TTTCAACAGA TAGCAGCAGA TGAATCTCCA 
    CCAAAGGGCT GTATCCTGTT TTTTGTTGTG CATGGGGAGA AAACATGTGA ATTTGACTCT 
    CTTGGAAACC TTTTACAGGC AGCTTCAGAC AGGCCAAAGC CATTTTTGTT CAAGGGGGAC 
    CACAAGTACC CAGCATCAAA CCCTGAAAGT CCTGTGGTCA TACTTTATGC AGAGATTGGC 
    TCAGAGGAGT TCTACAGAGA GCACAGGAGG CTTGCTTCAA AGGCTGAGGC AGGAGAAATC 
    ACTTATGTGC TCAGACACTA CATTGCTAAT CCCAGCAAGG AAAAGGTCTA CCTCTCTGGC 
    TATGGTGTAG AACTGGCTAT TAAAAGTACA GAATATAAGG CCAAGGATGA TACCCAGGTG 
    AAAGGCACAG ATGTGAATGC TACAGTCATA GATGAAAATG ACCCTATTGA TGAAGTGCAA 
    GGATTTCTGT TTGGAAAACT AAGACAGCTG TATCCTGACT TGTCAGAAGA GCTGAAAGAG 
    CTCAGAAAAC ACCTCGTGGA AAGTACCAAT GAAATGGCAC CTTTGAAAGT ATGGCAGCTC 
    CAAGATCTGA GTTTTCAAAC TGCTGCTCGC ATTTTGACTG CTCCCCCTGT GGATGCCCTG 
    ATGGTCATGA AAGATCTTAG TCAGAACTTT CCTACAAAGG CCAGAGCCAT AACAAAAACA 
    GTTGTTTCTT CGGAACTCAG AGCAGAAATT GAAGAGAACC AAAAGTATTT CAAGGGAACA 
    TTAGGATTGC AACCAGGAGA TTCTGCCCTA TTCATCAATG GACTGCTTAT TGATTTAGAC 
    ACTCAAGATA TATTTAGCTT GATTGATGTG CTCCGCAATG AAGCCCGTGT TATGGAAGGC 
    CTGCACAGCT TGGGAATTGA GGGAATTTCC TTACACAATG TCCTGAAGTT GAACATCCAG 
    CCATCAGACT CTGACTATGC TGTGGACATC AGAAGCCCTG CCATTTCATG GATCAACAAT 
    CTGGAAGTTG ATAGTCGGTA CAATTCCTGG CCTTCCAGTG TGCAGGAGCT GCTGCGTCCC 
    ACATTTCCTG GTGTGATCAG GCAAATCAGA AAAAACTTCC ATAATTTTGT GCTGATAGTA 
    GATCCTACTC ATGAGACCAC AGCAGAATTA CTGAATGTGG CAGAAATGTT CTTCAGTAAC 
    CACATCCCAC TGAGGATAGG ACTAGTCTTT GTGGTTAATG ACTCAGAAGA TGTTGATGGA 
    CTTCAGGATG CTGGTGTTGC CCTCCTTAGG ACATACAATT ACGTGGCACA AGAAATGGAC 
    AATAATTATG CTTTTCAGAC CGTCATGTCT ATATATAACA AAGTGAAAAC AGGGGACCAG 
    CTGAAAGTGG AACATGTTGT TAGTGTTCTT GAGAAACAAT ATCCTTATGT GGAAATCAAC 
    AGTGTGCTGG GAATTGATTC TGCCTATGAT CAAAACAGAA AGGCAGCAAG AGCTTACTAT 
    GAGCAAACTG GTGTAGGCCC TCTCCCTGTT GTCCTGTTCA ATGGGATGCC TTTCCAAAAA 
    GATCAGCTGG ATCCTGATGA CCTGGAAACT GTGACAATGC ACAAAATCCT GGAAACCACG 
    AGCATCTTCC AGCGAGCCGT GTACCTGGGT GAACTATCTA ATGACCAAGA TGTGGTTGAG 
    TATATCATGA ACCAGCCTAA TGTTGTTCCA AGAATTAACT CAAGAATCCT AAGGTCTGAC 
    AGAGAGTACC TAGATCTGAC AGGAATGAAT AACCATTTTG TGGATGACTT TGCTCGATTT 
    ACCACATTGG ATTCTAAAGA TAAGACAGCT GCTGTTGCAA ACAGCATGAC CTACTTAACA 
    AAGAAAGGAA TGTCTTCCAA GGAGATCTAT GATGATTCCT TTGTTAGACC TGTTACTTTT 
    TGGATTGTTG GTGATTTTGA TAAACCTTCA GGGAGGCAGT TGTTGTATGA TGCCATTAAA 
    CATCAGAAAT CCAGCAATAA CATTCGAATT GGCATGATTA ATAATCCTAG TGAAGAACCC 
    AACAGCCAGA ATACCATTGT AGCTAAAGCC ATATGGGCAG CTTTGCAGAC ACAAACATCA 
    AATAATGCCA AGAACTTCAT CACCAAGATG GCAAAAGAAG AAACTGTGAA GGCACTGGAG 
    GCAGGAGCTG ACATCTTGGA ATTTGCTGTT GGGGGTATGG ATACCAATAT TTTCAAAGAA 
    GCCTTCAAAT CTCCCAAGAT GGATTTTGTT CTGTCCCATG CTGTTTATTG CAGAGATGTT 
    CTAAAGCTGA AGAAGGGGCA GAGGGCTGTG ATCAGCAATG GACGGATTAT TGGCCCATTA 
    GAGGATGGAG AGATGTTCAA TCAGGATGAT TTTCATCTCC TTGAAAATAT CATATTAAAG 
    ACATCGGGAC AGAAAATCAA ATCTCAGATT CAGCAGCTGG GATTTGAAGA AGATCTGGCA 
    AGTGATTTGG TAATGAAAGT GGATGCTCTT CTTTCTGCTC AGCCAAAAGG AGAGGCAAGG 
    ATTGAGTATC AGTTTTTTGA AGAACGATAC AGTGCAGTTA AACTGAGACC AAAAGAGGGG 
    GAGACATACT TTGATGTTGT GGCTATTGTT GATCCCGTGA CCAGAGATGC TCAGAGACTT 
    GCTCCATTAC TTTTGGTTTT GAACCAATTG ATAAATATGA ACCTGAGAGT GTTTATGAAC 
    TGCCAGTCTA AGCTTTCTGA CATGCCACTG AAAAGCTTTT ACCGCTATGT TTTGGAGCCA 
    GAGATTTCTT TCACAGCAGA GAATAACTTT GCTCCAGGAC CAATTGCCAA GTTTTTAGAC 
    ATGCCCCAGT CTCCACTGTT CACTCTGAAT TTAAATACTC CTGAGAGTTG GATGGTGGAG 
    TCTGTTAGAA CCCCCTATGA CCTTGACAAT ATCTTCTTAG AGGAGGTGGA GAGTGTTGTA 
    GCTGCAGAGT ATGAACTGGA GTACCTGCTG CTGGAGGGCC ACTGCTATGA CATTACAACT 
    GGGCAGCCAC CTCGGGGGCT CCAGTTCACC CTGGGCACCT CCAGCAGCCC TGTCATCGTG 
    GACACCATCG TTATGGCCAA CCTGGGCTAC TTCCAATTAA AAGCCAATCC TGGTGCATGG 
    ACTCTAAGAC TGAGAAAAGG CAGATCTGAA GATATTTACA GGATCTACAG CCACGATGGC 
    ACAGACTCTC CACCTGAAGC TAATGAAGTT ATTGTTGTTC TCAATAACTT CAAGAGCAAA 
    ATTATTAAAG TGAAGGTGCA GAAAAAGTTT GATATGATGA ATGAAGATCT TCTAAGTGAT 
    GGCACCAATG AGAATGAATC TGGATTTTGG GAATCACTCA AATGGGGATT CACAGGAGGG 
    CAAAAGAATG AAGATGTGAA ACAGGATAAA GATGATGTAC TAAATATATT CTCTGTGGCT 
    TCAGGACACC TATATGAGAG ATTCCTACGC ATAATGATGT TGTCTGTGCT GAAACACACC 
    AAGACTCCTT TAAAGTTTTG GTTTCTGAAG AACTACTTAT CACCTACATT CAAGGAGTTC 
    ATCCCATACA TGGCCAAGAA GTACAATTTC CAGTATGAGC TTGTCCAGTA TAAATGGCCA 
    CGCTGGCTGC ACCAACAAAC AGAGAAGCAG CGAATCATCT GGGGTTACAA GATCCTCTTT 
    CTAGATGTGC TCTTCCCATT AGCTGTTGAT AAAATCCTCT TTGTGGATGC TGATCAGATT 
    GTGCGCACAG ATCTGAAAGA ATTGAGGGAT TTGAATCTGG ATGGTGCTCC TTATGGATAC 
    ACCCCATTCT GTGACAGCCG AAGGGAAATG GATGGCTACA GGTTCTGGAA ATCAGGATAC 
    TGGGCAAGTC ATTTAGCTGG AAGAAAATAC CACATCAGTG CTCTGTATGT TGTGGATCTG 
    AAGAAGTTCA GGAAGATAGC AGCTGGAGAT CGACTCAGAG GACAGTATCA GGGCCTGAGT 
    CAGGATCCAA ACAGTCTGTC CAACCTTGAT CAGGATTTGC CAAACAACAT GATTCACCAA 
    GTACCCATCA AGTCCCTTCC CCAGGAGTGG CTGTGGTGTG AAACATGGTG TGATGACTCC 
    TCGAAGAAGA GAGCAAAAAC CATTGATCTG TGTAACAACC CAATGACCAA AGAGCCCAAG 
    CTGCAGGCAG CCATGAGGAT AGTTCCAGAA TGGCAGGACT ATGATCAAGA AATCAAACTG 
    CTCCAGAGTC AATTCCAGAA GGAAAAAGAA ATGGGAACAC CAGCTGAGAT GCCAGGACAA 
    CACACACATG ATCCAGCAAC ACATGTGGAA TTATGA

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

    UGGT1 ( XM_012575525.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012430979.1 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OTd15787
    Clone ID Related Accession (Same CDS sequence) XM_012575525.1
    Accession Version XM_012575525.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4647bp)
    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 UDP-glucose:glycoprotein glucosyltransferase 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002199036.1) 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
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGAATAC TTATTGCAGT TCTTGGAATC TGGTTCAGCT CTTCACTTGT AAAAGCAGAT 
    TCTAAGGCTG TGACAACATC TCTAACTACA AAGTGGTCTT CAACTCCTTT ACTCCTTGAA 
    ACAAGTGAAT TTTTATCAGA AGAAGGTCAA GAAAAATTCT GGAATTTTGT TGAAGCCAGT 
    GAGAATATTA AGACAGCTGA GCATGATGGT AGTGATTATT CTTCTTACCA GGAAATGCTG 
    AAAGTGGCCT GCCAGACTCT GTCACCTTTG CAGCAGAATT TGTTGAAATT TTCCCTGTCT 
    TTACGCTCCT ACTCTGCAGC AGTTCAAGCT TTTCAACAGA TAGCAGCAGA TGAATCTCCA 
    CCAAAGGGCT GTATCCTGTT TTTTGTTGTG CATGGGGAGA AAACATGTGA ATTTGACTCT 
    CTTGGAAACC TTTTACAGGC AGCTTCAGAC AGGCCAAAGC CATTTTTGTT CAAGGGGGAC 
    CACAAGTACC CAGCATCAAA CCCTGAAAGT CCTGTGGTCA TACTTTATGC AGAGATTGGC 
    TCAGAGGAGT TCTACAGAGA GCACAGGAGG CTTGCTTCAA AGGCTGAGGC AGGAGAAATC 
    ACTTATGTGC TCAGACACTA CATTGCTAAT CCCAGCAAGG AAAAGGTCTA CCTCTCTGGC 
    TATGGTGTAG AACTGGCTAT TAAAAGTACA GAATATAAGG CCAAGGATGA TACCCAGGTG 
    AAAGGCACAG ATGTGAATGC TACAGTCATA GATGAAAATG ACCCTATTGA TGAAGTGCAA 
    GGATTTCTGT TTGGAAAACT AAGACAGCTG TATCCTGACT TGTCAGAAGA GCTGAAAGAG 
    CTCAGAAAAC ACCTCGTGGA AAGTACCAAT GAAATGGCAC CTTTGAAAGT ATGGCAGCTC 
    CAAGATCTGA GTTTTCAAAC TGCTGCTCGC ATTTTGACTG CTCCCCCTGT GGATGCCCTG 
    ATGGTCATGA AAGATCTTAG TCAGAACTTT CCTACAAAGG CCAGAGCCAT AACAAAAACA 
    GTTGTTTCTT CGGAACTCAG AGCAGAAATT GAAGAGAACC AAAAGTATTT CAAGGGAACA 
    TTAGGATTGC AACCAGGAGA TTCTGCCCTA TTCATCAATG GACTGCTTAT TGATTTAGAC 
    ACTCAAGATA TATTTAGCTT GATTGATGTG CTCCGCAATG AAGCCCGTGT TATGGAAGGC 
    CTGCACAGCT TGGGAATTGA GGGAATTTCC TTACACAATG TCCTGAAGTT GAACATCCAG 
    CCATCAGACT CTGACTATGC TGTGGACATC AGAAGCCCTG CCATTTCATG GATCAACAAT 
    CTGGAAGTTG ATAGTCGGTA CAATTCCTGG CCTTCCAGTG TGCAGGAGCT GCTGCGTCCC 
    ACATTTCCTG GTGTGATCAG GCAAATCAGA AAAAACTTCC ATAATTTTGT GCTGATAGTA 
    GATCCTACTC ATGAGACCAC AGCAGAATTA CTGAATGTGG CAGAAATGTT CTTCAGTAAC 
    CACATCCCAC TGAGGATAGG ACTAGTCTTT GTGGTTAATG ACTCAGAAGA TGTTGATGGA 
    CTTCAGGATG CTGGTGTTGC CCTCCTTAGG ACATACAATT ACGTGGCACA AGAAATGGAC 
    AATAATTATG CTTTTCAGAC CGTCATGTCT ATATATAACA AAGTGAAAAC AGGGGACCAG 
    CTGAAAGTGG AACATGTTGT TAGTGTTCTT GAGAAACAAT ATCCTTATGT GGAAATCAAC 
    AGTGTGCTGG GAATTGATTC TGCCTATGAT CAAAACAGAA AGGCAGCAAG AGCTTACTAT 
    GAGCAAACTG GTGTAGGCCC TCTCCCTGTT GTCCTGTTCA ATGGGATGCC TTTCCAAAAA 
    GATCAGCTGG ATCCTGATGA CCTGGAAACT GTGACAATGC ACAAAATCCT GGAAACCACG 
    AGCATCTTCC AGCGAGCCGT GTACCTGGGT GAACTATCTA ATGACCAAGA TGTGGTTGAG 
    TATATCATGA ACCAGCCTAA TGTTGTTCCA AGAATTAACT CAAGAATCCT AAGGTCTGAC 
    AGAGAGTACC TAGATCTGAC AGGAATGAAT AACCATTTTG TGGATGACTT TGCTCGATTT 
    ACCACATTGG ATTCTAAAGA TAAGACAGCT GCTGTTGCAA ACAGCATGAC CTACTTAACA 
    AAGAAAGGAA TGTCTTCCAA GGAGATCTAT GATGATTCCT TTGTTAGACC TGTTACTTTT 
    TGGATTGTTG GTGATTTTGA TAAACCTTCA GGGAGGCAGT TGTTGTATGA TGCCATTAAA 
    CATCAGAAAT CCAGCAATAA CATTCGAATT GGCATGATTA ATAATCCTAG TGAAGAACCC 
    AACAGCCAGA ATACCATTGT AGCTAAAGCC ATATGGGCAG CTTTGCAGAC ACAAACATCA 
    AATAATGCCA AGAACTTCAT CACCAAGATG GCAAAAGAAG AAACTGTGAA GGCACTGGAG 
    GCAGGAGCTG ACATCTTGGA ATTTGCTGTT GGGGGTATGG ATACCAATAT TTTCAAAGAA 
    GCCTTCAAAT CTCCCAAGAT GGATTTTGTT CTGTCCCATG CTGTTTATTG CAGAGATGTT 
    CTAAAGCTGA AGAAGGGGCA GAGGGCTGTG ATCAGCAATG GACGGATTAT TGGCCCATTA 
    GAGGATGGAG AGATGTTCAA TCAGGATGAT TTTCATCTCC TTGAAAATAT CATATTAAAG 
    ACATCGGGAC AGAAAATCAA ATCTCAGATT CAGCAGCTGG GATTTGAAGA AGATCTGGCA 
    AGTGATTTGG TAATGAAAGT GGATGCTCTT CTTTCTGCTC AGCCAAAAGG AGAGGCAAGG 
    ATTGAGTATC AGTTTTTTGA AGAACGATAC AGTGCAGTTA AACTGAGACC AAAAGAGGGG 
    GAGACATACT TTGATGTTGT GGCTATTGTT GATCCCGTGA CCAGAGATGC TCAGAGACTT 
    GCTCCATTAC TTTTGGTTTT GAACCAATTG ATAAATATGA ACCTGAGAGT GTTTATGAAC 
    TGCCAGTCTA AGCTTTCTGA CATGCCACTG AAAAGCTTTT ACCGCTATGT TTTGGAGCCA 
    GAGATTTCTT TCACAGCAGA GAATAACTTT GCTCCAGGAC CAATTGCCAA GTTTTTAGAC 
    ATGCCCCAGT CTCCACTGTT CACTCTGAAT TTAAATACTC CTGAGAGTTG GATGGTGGAG 
    TCTGTTAGAA CCCCCTATGA CCTTGACAAT ATCTTCTTAG AGGAGGTGGA GAGTGTTGTA 
    GCTGCAGAGT ATGAACTGGA GTACCTGCTG CTGGAGGGCC ACTGCTATGA CATTACAACT 
    GGGCAGCCAC CTCGGGGGCT CCAGTTCACC CTGGGCACCT CCAGCAGCCC TGTCATCGTG 
    GACACCATCG TTATGGCCAA CCTGGGCTAC TTCCAATTAA AAGCCAATCC TGGTGCATGG 
    ACTCTAAGAC TGAGAAAAGG CAGATCTGAA GATATTTACA GGATCTACAG CCACGATGGC 
    ACAGACTCTC CACCTGAAGC TAATGAAGTT ATTGTTGTTC TCAATAACTT CAAGAGCAAA 
    ATTATTAAAG TGAAGGTGCA GAAAAAGTTT GATATGATGA ATGAAGATCT TCTAAGTGAT 
    GGCACCAATG AGAATGAATC TGGATTTTGG GAATCACTCA AATGGGGATT CACAGGAGGG 
    CAAAAGAATG AAGATGTGAA ACAGGATAAA GATGATGTAC TAAATATATT CTCTGTGGCT 
    TCAGGACACC TATATGAGAG ATTCCTACGC ATAATGATGT TGTCTGTGCT GAAACACACC 
    AAGACTCCTT TAAAGTTTTG GTTTCTGAAG AACTACTTAT CACCTACATT CAAGGAGTTC 
    ATCCCATACA TGGCCAAGAA GTACAATTTC CAGTATGAGC TTGTCCAGTA TAAATGGCCA 
    CGCTGGCTGC ACCAACAAAC AGAGAAGCAG CGAATCATCT GGGGTTACAA GATCCTCTTT 
    CTAGATGTGC TCTTCCCATT AGCTGTTGAT AAAATCCTCT TTGTGGATGC TGATCAGATT 
    GTGCGCACAG ATCTGAAAGA ATTGAGGGAT TTGAATCTGG ATGGTGCTCC TTATGGATAC 
    ACCCCATTCT GTGACAGCCG AAGGGAAATG GATGGCTACA GGTTCTGGAA ATCAGGATAC 
    TGGGCAAGTC ATTTAGCTGG AAGAAAATAC CACATCAGTG CTCTGTATGT TGTGGATCTG 
    AAGAAGTTCA GGAAGATAGC AGCTGGAGAT CGACTCAGAG GACAGTATCA GGGCCTGAGT 
    CAGGATCCAA ACAGTCTGTC CAACCTTGAT CAGGATTTGC CAAACAACAT GATTCACCAA 
    GTACCCATCA AGTCCCTTCC CCAGGAGTGG CTGTGGTGTG AAACATGGTG TGATGACTCC 
    TCGAAGAAGA GAGCAAAAAC CATTGATCTG TGTAACAACC CAATGACCAA AGAGCCCAAG 
    CTGCAGGCAG CCATGAGGAT AGTTCCAGAA TGGCAGGACT ATGATCAAGA AATCAAACTG 
    CTCCAGAGTC AATTCCAGAA GGAAAAAGAA ATGGGAACAC CAGCTGAGAT GCCAGGACAA 
    CACACACATG GATCTGGATT GCTGGAATTA GCATTACTGG TGTTTTGCAC CTGTGGTGGA 
    GATGAAAGAT CCCATGATGG AATTTAG

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

    RefSeq XP_012430979.1
    CDS7..4653
    Translation

    Target ORF information:

    RefSeq Version XM_012575525.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012575525.1

    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
    4621
    ATGGGAATAC TTATTGCAGT TCTTGGAATC TGGTTCAGCT CTTCACTTGT AAAAGCAGAT 
    TCTAAGGCTG TGACAACATC TCTAACTACA AAGTGGTCTT CAACTCCTTT ACTCCTTGAA 
    ACAAGTGAAT TTTTATCAGA AGAAGGTCAA GAAAAATTCT GGAATTTTGT TGAAGCCAGT 
    GAGAATATTA AGACAGCTGA GCATGATGGT AGTGATTATT CTTCTTACCA GGAAATGCTG 
    AAAGTGGCCT GCCAGACTCT GTCACCTTTG CAGCAGAATT TGTTGAAATT TTCCCTGTCT 
    TTACGCTCCT ACTCTGCAGC AGTTCAAGCT TTTCAACAGA TAGCAGCAGA TGAATCTCCA 
    CCAAAGGGCT GTATCCTGTT TTTTGTTGTG CATGGGGAGA AAACATGTGA ATTTGACTCT 
    CTTGGAAACC TTTTACAGGC AGCTTCAGAC AGGCCAAAGC CATTTTTGTT CAAGGGGGAC 
    CACAAGTACC CAGCATCAAA CCCTGAAAGT CCTGTGGTCA TACTTTATGC AGAGATTGGC 
    TCAGAGGAGT TCTACAGAGA GCACAGGAGG CTTGCTTCAA AGGCTGAGGC AGGAGAAATC 
    ACTTATGTGC TCAGACACTA CATTGCTAAT CCCAGCAAGG AAAAGGTCTA CCTCTCTGGC 
    TATGGTGTAG AACTGGCTAT TAAAAGTACA GAATATAAGG CCAAGGATGA TACCCAGGTG 
    AAAGGCACAG ATGTGAATGC TACAGTCATA GATGAAAATG ACCCTATTGA TGAAGTGCAA 
    GGATTTCTGT TTGGAAAACT AAGACAGCTG TATCCTGACT TGTCAGAAGA GCTGAAAGAG 
    CTCAGAAAAC ACCTCGTGGA AAGTACCAAT GAAATGGCAC CTTTGAAAGT ATGGCAGCTC 
    CAAGATCTGA GTTTTCAAAC TGCTGCTCGC ATTTTGACTG CTCCCCCTGT GGATGCCCTG 
    ATGGTCATGA AAGATCTTAG TCAGAACTTT CCTACAAAGG CCAGAGCCAT AACAAAAACA 
    GTTGTTTCTT CGGAACTCAG AGCAGAAATT GAAGAGAACC AAAAGTATTT CAAGGGAACA 
    TTAGGATTGC AACCAGGAGA TTCTGCCCTA TTCATCAATG GACTGCTTAT TGATTTAGAC 
    ACTCAAGATA TATTTAGCTT GATTGATGTG CTCCGCAATG AAGCCCGTGT TATGGAAGGC 
    CTGCACAGCT TGGGAATTGA GGGAATTTCC TTACACAATG TCCTGAAGTT GAACATCCAG 
    CCATCAGACT CTGACTATGC TGTGGACATC AGAAGCCCTG CCATTTCATG GATCAACAAT 
    CTGGAAGTTG ATAGTCGGTA CAATTCCTGG CCTTCCAGTG TGCAGGAGCT GCTGCGTCCC 
    ACATTTCCTG GTGTGATCAG GCAAATCAGA AAAAACTTCC ATAATTTTGT GCTGATAGTA 
    GATCCTACTC ATGAGACCAC AGCAGAATTA CTGAATGTGG CAGAAATGTT CTTCAGTAAC 
    CACATCCCAC TGAGGATAGG ACTAGTCTTT GTGGTTAATG ACTCAGAAGA TGTTGATGGA 
    CTTCAGGATG CTGGTGTTGC CCTCCTTAGG ACATACAATT ACGTGGCACA AGAAATGGAC 
    AATAATTATG CTTTTCAGAC CGTCATGTCT ATATATAACA AAGTGAAAAC AGGGGACCAG 
    CTGAAAGTGG AACATGTTGT TAGTGTTCTT GAGAAACAAT ATCCTTATGT GGAAATCAAC 
    AGTGTGCTGG GAATTGATTC TGCCTATGAT CAAAACAGAA AGGCAGCAAG AGCTTACTAT 
    GAGCAAACTG GTGTAGGCCC TCTCCCTGTT GTCCTGTTCA ATGGGATGCC TTTCCAAAAA 
    GATCAGCTGG ATCCTGATGA CCTGGAAACT GTGACAATGC ACAAAATCCT GGAAACCACG 
    AGCATCTTCC AGCGAGCCGT GTACCTGGGT GAACTATCTA ATGACCAAGA TGTGGTTGAG 
    TATATCATGA ACCAGCCTAA TGTTGTTCCA AGAATTAACT CAAGAATCCT AAGGTCTGAC 
    AGAGAGTACC TAGATCTGAC AGGAATGAAT AACCATTTTG TGGATGACTT TGCTCGATTT 
    ACCACATTGG ATTCTAAAGA TAAGACAGCT GCTGTTGCAA ACAGCATGAC CTACTTAACA 
    AAGAAAGGAA TGTCTTCCAA GGAGATCTAT GATGATTCCT TTGTTAGACC TGTTACTTTT 
    TGGATTGTTG GTGATTTTGA TAAACCTTCA GGGAGGCAGT TGTTGTATGA TGCCATTAAA 
    CATCAGAAAT CCAGCAATAA CATTCGAATT GGCATGATTA ATAATCCTAG TGAAGAACCC 
    AACAGCCAGA ATACCATTGT AGCTAAAGCC ATATGGGCAG CTTTGCAGAC ACAAACATCA 
    AATAATGCCA AGAACTTCAT CACCAAGATG GCAAAAGAAG AAACTGTGAA GGCACTGGAG 
    GCAGGAGCTG ACATCTTGGA ATTTGCTGTT GGGGGTATGG ATACCAATAT TTTCAAAGAA 
    GCCTTCAAAT CTCCCAAGAT GGATTTTGTT CTGTCCCATG CTGTTTATTG CAGAGATGTT 
    CTAAAGCTGA AGAAGGGGCA GAGGGCTGTG ATCAGCAATG GACGGATTAT TGGCCCATTA 
    GAGGATGGAG AGATGTTCAA TCAGGATGAT TTTCATCTCC TTGAAAATAT CATATTAAAG 
    ACATCGGGAC AGAAAATCAA ATCTCAGATT CAGCAGCTGG GATTTGAAGA AGATCTGGCA 
    AGTGATTTGG TAATGAAAGT GGATGCTCTT CTTTCTGCTC AGCCAAAAGG AGAGGCAAGG 
    ATTGAGTATC AGTTTTTTGA AGAACGATAC AGTGCAGTTA AACTGAGACC AAAAGAGGGG 
    GAGACATACT TTGATGTTGT GGCTATTGTT GATCCCGTGA CCAGAGATGC TCAGAGACTT 
    GCTCCATTAC TTTTGGTTTT GAACCAATTG ATAAATATGA ACCTGAGAGT GTTTATGAAC 
    TGCCAGTCTA AGCTTTCTGA CATGCCACTG AAAAGCTTTT ACCGCTATGT TTTGGAGCCA 
    GAGATTTCTT TCACAGCAGA GAATAACTTT GCTCCAGGAC CAATTGCCAA GTTTTTAGAC 
    ATGCCCCAGT CTCCACTGTT CACTCTGAAT TTAAATACTC CTGAGAGTTG GATGGTGGAG 
    TCTGTTAGAA CCCCCTATGA CCTTGACAAT ATCTTCTTAG AGGAGGTGGA GAGTGTTGTA 
    GCTGCAGAGT ATGAACTGGA GTACCTGCTG CTGGAGGGCC ACTGCTATGA CATTACAACT 
    GGGCAGCCAC CTCGGGGGCT CCAGTTCACC CTGGGCACCT CCAGCAGCCC TGTCATCGTG 
    GACACCATCG TTATGGCCAA CCTGGGCTAC TTCCAATTAA AAGCCAATCC TGGTGCATGG 
    ACTCTAAGAC TGAGAAAAGG CAGATCTGAA GATATTTACA GGATCTACAG CCACGATGGC 
    ACAGACTCTC CACCTGAAGC TAATGAAGTT ATTGTTGTTC TCAATAACTT CAAGAGCAAA 
    ATTATTAAAG TGAAGGTGCA GAAAAAGTTT GATATGATGA ATGAAGATCT TCTAAGTGAT 
    GGCACCAATG AGAATGAATC TGGATTTTGG GAATCACTCA AATGGGGATT CACAGGAGGG 
    CAAAAGAATG AAGATGTGAA ACAGGATAAA GATGATGTAC TAAATATATT CTCTGTGGCT 
    TCAGGACACC TATATGAGAG ATTCCTACGC ATAATGATGT TGTCTGTGCT GAAACACACC 
    AAGACTCCTT TAAAGTTTTG GTTTCTGAAG AACTACTTAT CACCTACATT CAAGGAGTTC 
    ATCCCATACA TGGCCAAGAA GTACAATTTC CAGTATGAGC TTGTCCAGTA TAAATGGCCA 
    CGCTGGCTGC ACCAACAAAC AGAGAAGCAG CGAATCATCT GGGGTTACAA GATCCTCTTT 
    CTAGATGTGC TCTTCCCATT AGCTGTTGAT AAAATCCTCT TTGTGGATGC TGATCAGATT 
    GTGCGCACAG ATCTGAAAGA ATTGAGGGAT TTGAATCTGG ATGGTGCTCC TTATGGATAC 
    ACCCCATTCT GTGACAGCCG AAGGGAAATG GATGGCTACA GGTTCTGGAA ATCAGGATAC 
    TGGGCAAGTC ATTTAGCTGG AAGAAAATAC CACATCAGTG CTCTGTATGT TGTGGATCTG 
    AAGAAGTTCA GGAAGATAGC AGCTGGAGAT CGACTCAGAG GACAGTATCA GGGCCTGAGT 
    CAGGATCCAA ACAGTCTGTC CAACCTTGAT CAGGATTTGC CAAACAACAT GATTCACCAA 
    GTACCCATCA AGTCCCTTCC CCAGGAGTGG CTGTGGTGTG AAACATGGTG TGATGACTCC 
    TCGAAGAAGA GAGCAAAAAC CATTGATCTG TGTAACAACC CAATGACCAA AGAGCCCAAG 
    CTGCAGGCAG CCATGAGGAT AGTTCCAGAA TGGCAGGACT ATGATCAAGA AATCAAACTG 
    CTCCAGAGTC AATTCCAGAA GGAAAAAGAA ATGGGAACAC CAGCTGAGAT GCCAGGACAA 
    CACACACATG GATCTGGATT GCTGGAATTA GCATTACTGG TGTTTTGCAC CTGTGGTGGA 
    GATGAAAGAT CCCATGATGG AATTTAG

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

    UGGT1 ( XM_030280425.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030136285.1 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OTd52020
    Clone ID Related Accession (Same CDS sequence) XM_030280425.1 , XM_030280426.1
    Accession Version XM_030280425.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4596bp)
    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 UDP-glucose:glycoprotein glucosyltransferase 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) 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
    ATGGGAATAC TTATTGCAGT TCTTGGAATC TGGTTCAGCT CTTCACTTGT AAAAGCAGAT 
    TCTAAGGCTG TGACAACATC TCTAACTACA AAGTGGTCTT CAACTCCTTT ACTCCTTGAA 
    ACAAGTGAAT TTTTATCAGA AGAAGGTCAA GAAAAATTCT GGAATTTTGT TGAAGCCAGT 
    GAGAATATTA AGACAGCTGA GCATGATGGT AGTGATTATT CTTCTTACCA GGAAATGCTG 
    AAAGTGGCCT GCCAGACTCT GTCACCTTTG CAGCAGAATT TGTTGAAATT TTCCCTGTCT 
    TTACGCTCCT ACTCTGCAGC AGTTCAAGCT TTTCAACAGA TAGCAGCAGA TGAATCTCCA 
    CCAAAGGGCT GTATCCTGTT TTTTGTTGTG CATGGGGAGA AAACATGTGA TTTTGACTCT 
    CTTGGAAACC TTTTACAGGC AGCTTCAGAC AGGCCAAAGC CATTTTTGTT CAAGGGGGAC 
    CACAAGTACC CAGCATCAAA CCCTGAAAGT CCTGTGGTCA TACTTTATGC AGAGATTGGC 
    TCAGAGGAGT TCTACAGAGA GCACAGGAGG CTTGCTTCAA AGGCTGAGGC AGGAGAAATC 
    ACTTATGTGC TCAGACACTA CATTGCTAAT CCCAGCAAGG AAAAGGTCTA CCTCTCTGGC 
    TATGGTGTAG AACTGGCTAT TAAAAGTACA GAATATAAGG CCAAGGATGA TACCCAGGTG 
    AAAGGCACAG ATGTGAATGC TACAGTCATA GATGAAAATG ACCCTATTGA TGAAGTGCAA 
    GGATTTCTGT TTGGAAAACT AAGACAGCTG TATCCTGACT TGTCAGAAGA GCTGAAAGAG 
    CTCAGAAAAC ACCTCGTGGA AAGTACCAAT GAAATGGCAC CTTTGAAAGT ATGGCAGCTC 
    CAAGATCTGA GTTTTCAAAC TGCTGCTCGC ATTTTGACTG CTCCCCCTGT GGATGCCCTG 
    ATGGTCATGA AAGATCTTAG TCAGAACTTT CCTACAAAGG CCAGAGCCAT AACAAAAACA 
    GTTGTTTCTT CGGAACTCAG AGCAGAAATT GAAGAGAACC AAAAGTATTT CAAGGGAACA 
    TTAGGATTGC AACCAGGAGA TTCTGCCCTA TTCATCAATG GACTGCTTAT TGATTTAGAC 
    ACTCAAGATA TATTTAGCTT GATTGATGTG CTCCGCAATG AAGCCCGTGT TATGGAAGGC 
    CTGCACAGCT TGGGAATTGA GGGAATTTCC TTACACAATG TCCTGAAGTT GAACATCCAG 
    CCATCAGACT CTGACTATGC TGTGGACATC AGAAGCCCTG CCATTTCATG GATCAACAAT 
    CTGGAAGTTG ATAGTCGGTA CAATTCCTGG CCTTCCAGTG TGCAGGAGCT GCTGCGTCCC 
    ACATTTCCTG GTGTGATCAG GCAAATCAGA AAAAACTTCC ATAATTTTGT GCTGATAGTA 
    GATCCTACTC ATGAGACCAC AGCAGAATTA CTGAATGTGG CAGAAATGTT CTTCAGTAAC 
    CACATCCCAC TGAGGATAGG ACTAGTCTTT GTGGTTAATG ACTCAGAAGA TGTTGATGGA 
    CTTCAGGATG CTGGTGTTGC CCTCCTTAGG ACATACAATT ACGTGGCACA AGAAATGGAC 
    AATAATTATG CTTTTCAGAC CGTCATGTCT ATATATAACA AAGTGAAAAC AGGGGACCAG 
    CTGAAAGTGG AACATGTTGT TAGTGTTCTT GAGAAACAAT ATCCTTATGT GGAAATCAAC 
    AGTGTGCTGG GAATTGATTC TGCCTATGAT CAAAACAGAA AGGCAGCAAG AGCTTACTAT 
    GAGCAAACTG GTGTAGGCCC TCTCCCTGTT GTCCTGTTCA ATGGGATGCC TTTCCAAAAA 
    GATCAGCTGG ATCCTGATGA CCTGGAAACT GTGACAATGC ACAAAATCCT GGAAACCACG 
    AGCATCTTCC AGCGAGCCGT GTACCTGGGT GAACTATCTA ATGACCAAGA TGTGGTTGAG 
    TATATCATGA ACCAGCCTAA TGTTGTTCCA AGAATTAACT CAAGAATCCT AAGGTCTGAC 
    AGAGAGTACC TAGATCTGAC AGGAATGAAT AACCATTTTG TGGATGACTT TGCTCGATTT 
    ACCACATTGG ATTCTAAAGA TAAGACAGCG GCTGTTGCAA ACAGCATGAC CTACTTAACA 
    AAGAAAGGAA TGTCTTCCAA GGAGATCTAT GATGATTCCT TTGTTAGACC TGTTACTTTT 
    TGGATTGTTG GTGATTTTGA TAAACCTTCA GGGAGGCAGT TGTTGTATGA TGCCATTAAA 
    CATCAGAAAT CCAGCAATAA CATTCGAATT GGCATGATTA ATAATCCTAG TGAAGAACCC 
    AACAGCCAGA ATACCATTGT AGCTAAAGCC ATATGGGCAG CTTTGCAGAC ACAAACATCA 
    AATAATGCCA AGAACTTCAT CACCAAGATG GCAAAAGAAG AAACTGTGAA GGCACTGGAG 
    GCAGGAGCTG ACATCTTGGA ATTTGCTGTT GGGGGTATGG ATACCAATAT TTTCAAAGAA 
    GCCTTCAAAT CTCCCAAGAT GGATTTTGTT CTGTCCCATG CTGTTTATTG CAGAGATGTT 
    CTAAAGCTGA AGAAGGGGCA GAGGGCTGTG ATCAGCAATG GACGGATTAT TGGCCCATTA 
    GAGGATGGAG AGATGTTCAA TCAGGATGAT TTTCATCTCC TTGAAAATAT CATATTAAAG 
    ACATCGGGAC AGAAAATCAA ATCTCAGATT CAGCAGCTGG GATTTGAAGA AGATCTGGCA 
    AGTGATTTGG TAATGAAAGT GGATGCTCTT CTTTCTGCTC AGCCAAAAGG AGAGGCAAGG 
    ATTGAGTATC AGTTTTTTGA AGAACGATAC AGTGCAGTTA AACTGAGACC AAAAGAGGGG 
    GAGACATACT TTGATGTTGT GGCTATTGTT GATCCCGTGA CCAGAGATGC TCAGAGACTT 
    GCTCCATTAC TTTTGGTTTT GAACCAATTG ATAAATATGA ACCTGAGAGT GTTTATGAAC 
    TGCCAGTCTA AGCTTTCTGA CATGCCACTG AAAAGCTTTT ACCGCTATGT TTTGGAGCCA 
    GAGATTTCTT TCACAGCAGA GAATAACTTT GCTCCAGGAC CAATTGCCAA GTTTTTAGAC 
    ATGCCCCAGT CTCCACTGTT CACTCTGAAT TTAAATACTC CTGAGAGTTG GATGGTGGAG 
    TCTGTTAGAA CCCCCTATGA CCTTGACAAT ATCTTCTTAG AGGAGGTGGA GAGTGTTGTA 
    GCTGCAGAGT ATGAACTGGA GTACCTGCTG CTGGAGGGCC ACTGCTATGA CATTACAACT 
    GGGCAGCCAC CTCGGGGGCT CCAGTTCACC CTGGGCACCT CCAGCAGCCC TGTCATCGTG 
    GACACCATCG TTATGGCCAA CCTGGGCTAC TTCCAATTAA AAGCCAATCC TGGTGCATGG 
    ACTCTAAGAC TGAGAAAAGG CAGATCTGAA GATATTTACA GGATCTACAG CCACGATGGC 
    ACAGACTCTC CACCTGAAGC TAATGAAGTT ATTGTTGTTC TCAATAACTT CAAGAGCAAA 
    ATTATTAAAG TGAAGGTGCA GAAAAAGTTT GATATGATGA ATGAAGATCT TCTAAGTGAT 
    GGCACCAATG AGAATGAATC TGGATTTTGG GAATCACTCA AATGGGGATT CACAGGAGGG 
    CAAAAGAATG AAGATGTGAA ACAGGATAAA GATGATGTAC TAAATATATT CTCTGTGGCT 
    TCAGGACACC TATATGAGAG ATTCCTACGC ATAATGATGT TGTCTGTGCT GAAACACACC 
    AAGACTCCTT TAAAGTTTTG GTTTCTGAAG AACTACTTAT CACCTACATT CAAGGAGTTC 
    ATCCCATACA TGGCCAAGAA GTACAATTTC CAGTATGAGC TTGTCCAGTA TAAATGGCCA 
    CGCTGGCTGC ACCAACAAAC AGAGAAGCAG CGAATCATCT GGGGTTACAA GATCCTCTTT 
    CTAGATGTGC TCTTCCCATT AGCTGTTGAT AAAATCCTCT TTGTGGATGC TGATCAGATT 
    GTGCGCACAG ATCTGAAAGA ATTGAGGGAT TTGAATCTGG ATGGTGCTCC TTATGGATAC 
    ACCCCATTCT GTGACAGCCG AAGGGAAATG GATGGCTACA GGTTCTGGAA ATCAGGATAC 
    TGGGCAAGTC ATTTAGCTGG AAGAAAATAC CACATCAGTG CTCTGTATGT TGTGGATCTG 
    AAGAAGTTCA GGAAGATAGC AGCTGGAGAT CGACTCAGAG GACAGTATCA GGGCCTGAGT 
    CAGGATCCAA ACAGTCTGTC CAACCTTGAT CAGGATTTGC CAAACAACAT GATTCACCAA 
    GTACCCATCA AGTCCCTCCC CCAGGAGTGG CTGTGGTGTG AAACATGGTG TGATGACTCC 
    TCGAAGAAGA GAGCAAAAAC CATTGATCTG TGTAACAACC CAATGACCAA AGAGCCCAAG 
    CTGCAGGCAG CCATGAGGAT AGTTCCAGAA TGGCAGGACT ATGATCAAGA AATCAAACTG 
    CTCCAGAGTC AATTCCAGAA GGAAAAAGAA ATGGGAACAC CAGCTGAGAT GCCAGGACAA 
    CACACACATG ATCCAGCAGC ACATGTGGAA TTATGA

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

    RefSeq XP_030136285.1
    CDS51..4646
    Translation

    Target ORF information:

    RefSeq Version XM_030280425.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030280425.1

    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
    ATGGGAATAC TTATTGCAGT TCTTGGAATC TGGTTCAGCT CTTCACTTGT AAAAGCAGAT 
    TCTAAGGCTG TGACAACATC TCTAACTACA AAGTGGTCTT CAACTCCTTT ACTCCTTGAA 
    ACAAGTGAAT TTTTATCAGA AGAAGGTCAA GAAAAATTCT GGAATTTTGT TGAAGCCAGT 
    GAGAATATTA AGACAGCTGA GCATGATGGT AGTGATTATT CTTCTTACCA GGAAATGCTG 
    AAAGTGGCCT GCCAGACTCT GTCACCTTTG CAGCAGAATT TGTTGAAATT TTCCCTGTCT 
    TTACGCTCCT ACTCTGCAGC AGTTCAAGCT TTTCAACAGA TAGCAGCAGA TGAATCTCCA 
    CCAAAGGGCT GTATCCTGTT TTTTGTTGTG CATGGGGAGA AAACATGTGA TTTTGACTCT 
    CTTGGAAACC TTTTACAGGC AGCTTCAGAC AGGCCAAAGC CATTTTTGTT CAAGGGGGAC 
    CACAAGTACC CAGCATCAAA CCCTGAAAGT CCTGTGGTCA TACTTTATGC AGAGATTGGC 
    TCAGAGGAGT TCTACAGAGA GCACAGGAGG CTTGCTTCAA AGGCTGAGGC AGGAGAAATC 
    ACTTATGTGC TCAGACACTA CATTGCTAAT CCCAGCAAGG AAAAGGTCTA CCTCTCTGGC 
    TATGGTGTAG AACTGGCTAT TAAAAGTACA GAATATAAGG CCAAGGATGA TACCCAGGTG 
    AAAGGCACAG ATGTGAATGC TACAGTCATA GATGAAAATG ACCCTATTGA TGAAGTGCAA 
    GGATTTCTGT TTGGAAAACT AAGACAGCTG TATCCTGACT TGTCAGAAGA GCTGAAAGAG 
    CTCAGAAAAC ACCTCGTGGA AAGTACCAAT GAAATGGCAC CTTTGAAAGT ATGGCAGCTC 
    CAAGATCTGA GTTTTCAAAC TGCTGCTCGC ATTTTGACTG CTCCCCCTGT GGATGCCCTG 
    ATGGTCATGA AAGATCTTAG TCAGAACTTT CCTACAAAGG CCAGAGCCAT AACAAAAACA 
    GTTGTTTCTT CGGAACTCAG AGCAGAAATT GAAGAGAACC AAAAGTATTT CAAGGGAACA 
    TTAGGATTGC AACCAGGAGA TTCTGCCCTA TTCATCAATG GACTGCTTAT TGATTTAGAC 
    ACTCAAGATA TATTTAGCTT GATTGATGTG CTCCGCAATG AAGCCCGTGT TATGGAAGGC 
    CTGCACAGCT TGGGAATTGA GGGAATTTCC TTACACAATG TCCTGAAGTT GAACATCCAG 
    CCATCAGACT CTGACTATGC TGTGGACATC AGAAGCCCTG CCATTTCATG GATCAACAAT 
    CTGGAAGTTG ATAGTCGGTA CAATTCCTGG CCTTCCAGTG TGCAGGAGCT GCTGCGTCCC 
    ACATTTCCTG GTGTGATCAG GCAAATCAGA AAAAACTTCC ATAATTTTGT GCTGATAGTA 
    GATCCTACTC ATGAGACCAC AGCAGAATTA CTGAATGTGG CAGAAATGTT CTTCAGTAAC 
    CACATCCCAC TGAGGATAGG ACTAGTCTTT GTGGTTAATG ACTCAGAAGA TGTTGATGGA 
    CTTCAGGATG CTGGTGTTGC CCTCCTTAGG ACATACAATT ACGTGGCACA AGAAATGGAC 
    AATAATTATG CTTTTCAGAC CGTCATGTCT ATATATAACA AAGTGAAAAC AGGGGACCAG 
    CTGAAAGTGG AACATGTTGT TAGTGTTCTT GAGAAACAAT ATCCTTATGT GGAAATCAAC 
    AGTGTGCTGG GAATTGATTC TGCCTATGAT CAAAACAGAA AGGCAGCAAG AGCTTACTAT 
    GAGCAAACTG GTGTAGGCCC TCTCCCTGTT GTCCTGTTCA ATGGGATGCC TTTCCAAAAA 
    GATCAGCTGG ATCCTGATGA CCTGGAAACT GTGACAATGC ACAAAATCCT GGAAACCACG 
    AGCATCTTCC AGCGAGCCGT GTACCTGGGT GAACTATCTA ATGACCAAGA TGTGGTTGAG 
    TATATCATGA ACCAGCCTAA TGTTGTTCCA AGAATTAACT CAAGAATCCT AAGGTCTGAC 
    AGAGAGTACC TAGATCTGAC AGGAATGAAT AACCATTTTG TGGATGACTT TGCTCGATTT 
    ACCACATTGG ATTCTAAAGA TAAGACAGCG GCTGTTGCAA ACAGCATGAC CTACTTAACA 
    AAGAAAGGAA TGTCTTCCAA GGAGATCTAT GATGATTCCT TTGTTAGACC TGTTACTTTT 
    TGGATTGTTG GTGATTTTGA TAAACCTTCA GGGAGGCAGT TGTTGTATGA TGCCATTAAA 
    CATCAGAAAT CCAGCAATAA CATTCGAATT GGCATGATTA ATAATCCTAG TGAAGAACCC 
    AACAGCCAGA ATACCATTGT AGCTAAAGCC ATATGGGCAG CTTTGCAGAC ACAAACATCA 
    AATAATGCCA AGAACTTCAT CACCAAGATG GCAAAAGAAG AAACTGTGAA GGCACTGGAG 
    GCAGGAGCTG ACATCTTGGA ATTTGCTGTT GGGGGTATGG ATACCAATAT TTTCAAAGAA 
    GCCTTCAAAT CTCCCAAGAT GGATTTTGTT CTGTCCCATG CTGTTTATTG CAGAGATGTT 
    CTAAAGCTGA AGAAGGGGCA GAGGGCTGTG ATCAGCAATG GACGGATTAT TGGCCCATTA 
    GAGGATGGAG AGATGTTCAA TCAGGATGAT TTTCATCTCC TTGAAAATAT CATATTAAAG 
    ACATCGGGAC AGAAAATCAA ATCTCAGATT CAGCAGCTGG GATTTGAAGA AGATCTGGCA 
    AGTGATTTGG TAATGAAAGT GGATGCTCTT CTTTCTGCTC AGCCAAAAGG AGAGGCAAGG 
    ATTGAGTATC AGTTTTTTGA AGAACGATAC AGTGCAGTTA AACTGAGACC AAAAGAGGGG 
    GAGACATACT TTGATGTTGT GGCTATTGTT GATCCCGTGA CCAGAGATGC TCAGAGACTT 
    GCTCCATTAC TTTTGGTTTT GAACCAATTG ATAAATATGA ACCTGAGAGT GTTTATGAAC 
    TGCCAGTCTA AGCTTTCTGA CATGCCACTG AAAAGCTTTT ACCGCTATGT TTTGGAGCCA 
    GAGATTTCTT TCACAGCAGA GAATAACTTT GCTCCAGGAC CAATTGCCAA GTTTTTAGAC 
    ATGCCCCAGT CTCCACTGTT CACTCTGAAT TTAAATACTC CTGAGAGTTG GATGGTGGAG 
    TCTGTTAGAA CCCCCTATGA CCTTGACAAT ATCTTCTTAG AGGAGGTGGA GAGTGTTGTA 
    GCTGCAGAGT ATGAACTGGA GTACCTGCTG CTGGAGGGCC ACTGCTATGA CATTACAACT 
    GGGCAGCCAC CTCGGGGGCT CCAGTTCACC CTGGGCACCT CCAGCAGCCC TGTCATCGTG 
    GACACCATCG TTATGGCCAA CCTGGGCTAC TTCCAATTAA AAGCCAATCC TGGTGCATGG 
    ACTCTAAGAC TGAGAAAAGG CAGATCTGAA GATATTTACA GGATCTACAG CCACGATGGC 
    ACAGACTCTC CACCTGAAGC TAATGAAGTT ATTGTTGTTC TCAATAACTT CAAGAGCAAA 
    ATTATTAAAG TGAAGGTGCA GAAAAAGTTT GATATGATGA ATGAAGATCT TCTAAGTGAT 
    GGCACCAATG AGAATGAATC TGGATTTTGG GAATCACTCA AATGGGGATT CACAGGAGGG 
    CAAAAGAATG AAGATGTGAA ACAGGATAAA GATGATGTAC TAAATATATT CTCTGTGGCT 
    TCAGGACACC TATATGAGAG ATTCCTACGC ATAATGATGT TGTCTGTGCT GAAACACACC 
    AAGACTCCTT TAAAGTTTTG GTTTCTGAAG AACTACTTAT CACCTACATT CAAGGAGTTC 
    ATCCCATACA TGGCCAAGAA GTACAATTTC CAGTATGAGC TTGTCCAGTA TAAATGGCCA 
    CGCTGGCTGC ACCAACAAAC AGAGAAGCAG CGAATCATCT GGGGTTACAA GATCCTCTTT 
    CTAGATGTGC TCTTCCCATT AGCTGTTGAT AAAATCCTCT TTGTGGATGC TGATCAGATT 
    GTGCGCACAG ATCTGAAAGA ATTGAGGGAT TTGAATCTGG ATGGTGCTCC TTATGGATAC 
    ACCCCATTCT GTGACAGCCG AAGGGAAATG GATGGCTACA GGTTCTGGAA ATCAGGATAC 
    TGGGCAAGTC ATTTAGCTGG AAGAAAATAC CACATCAGTG CTCTGTATGT TGTGGATCTG 
    AAGAAGTTCA GGAAGATAGC AGCTGGAGAT CGACTCAGAG GACAGTATCA GGGCCTGAGT 
    CAGGATCCAA ACAGTCTGTC CAACCTTGAT CAGGATTTGC CAAACAACAT GATTCACCAA 
    GTACCCATCA AGTCCCTCCC CCAGGAGTGG CTGTGGTGTG AAACATGGTG TGATGACTCC 
    TCGAAGAAGA GAGCAAAAAC CATTGATCTG TGTAACAACC CAATGACCAA AGAGCCCAAG 
    CTGCAGGCAG CCATGAGGAT AGTTCCAGAA TGGCAGGACT ATGATCAAGA AATCAAACTG 
    CTCCAGAGTC AATTCCAGAA GGAAAAAGAA ATGGGAACAC CAGCTGAGAT GCCAGGACAA 
    CACACACATG ATCCAGCAGC ACATGTGGAA TTATGA

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

    UGGT1 ( XM_030280426.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030136286.1 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OTd52020
    Clone ID Related Accession (Same CDS sequence) XM_030280425.1 , XM_030280426.1
    Accession Version XM_030280426.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4596bp)
    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 UDP-glucose:glycoprotein glucosyltransferase 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) 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
    ATGGGAATAC TTATTGCAGT TCTTGGAATC TGGTTCAGCT CTTCACTTGT AAAAGCAGAT 
    TCTAAGGCTG TGACAACATC TCTAACTACA AAGTGGTCTT CAACTCCTTT ACTCCTTGAA 
    ACAAGTGAAT TTTTATCAGA AGAAGGTCAA GAAAAATTCT GGAATTTTGT TGAAGCCAGT 
    GAGAATATTA AGACAGCTGA GCATGATGGT AGTGATTATT CTTCTTACCA GGAAATGCTG 
    AAAGTGGCCT GCCAGACTCT GTCACCTTTG CAGCAGAATT TGTTGAAATT TTCCCTGTCT 
    TTACGCTCCT ACTCTGCAGC AGTTCAAGCT TTTCAACAGA TAGCAGCAGA TGAATCTCCA 
    CCAAAGGGCT GTATCCTGTT TTTTGTTGTG CATGGGGAGA AAACATGTGA TTTTGACTCT 
    CTTGGAAACC TTTTACAGGC AGCTTCAGAC AGGCCAAAGC CATTTTTGTT CAAGGGGGAC 
    CACAAGTACC CAGCATCAAA CCCTGAAAGT CCTGTGGTCA TACTTTATGC AGAGATTGGC 
    TCAGAGGAGT TCTACAGAGA GCACAGGAGG CTTGCTTCAA AGGCTGAGGC AGGAGAAATC 
    ACTTATGTGC TCAGACACTA CATTGCTAAT CCCAGCAAGG AAAAGGTCTA CCTCTCTGGC 
    TATGGTGTAG AACTGGCTAT TAAAAGTACA GAATATAAGG CCAAGGATGA TACCCAGGTG 
    AAAGGCACAG ATGTGAATGC TACAGTCATA GATGAAAATG ACCCTATTGA TGAAGTGCAA 
    GGATTTCTGT TTGGAAAACT AAGACAGCTG TATCCTGACT TGTCAGAAGA GCTGAAAGAG 
    CTCAGAAAAC ACCTCGTGGA AAGTACCAAT GAAATGGCAC CTTTGAAAGT ATGGCAGCTC 
    CAAGATCTGA GTTTTCAAAC TGCTGCTCGC ATTTTGACTG CTCCCCCTGT GGATGCCCTG 
    ATGGTCATGA AAGATCTTAG TCAGAACTTT CCTACAAAGG CCAGAGCCAT AACAAAAACA 
    GTTGTTTCTT CGGAACTCAG AGCAGAAATT GAAGAGAACC AAAAGTATTT CAAGGGAACA 
    TTAGGATTGC AACCAGGAGA TTCTGCCCTA TTCATCAATG GACTGCTTAT TGATTTAGAC 
    ACTCAAGATA TATTTAGCTT GATTGATGTG CTCCGCAATG AAGCCCGTGT TATGGAAGGC 
    CTGCACAGCT TGGGAATTGA GGGAATTTCC TTACACAATG TCCTGAAGTT GAACATCCAG 
    CCATCAGACT CTGACTATGC TGTGGACATC AGAAGCCCTG CCATTTCATG GATCAACAAT 
    CTGGAAGTTG ATAGTCGGTA CAATTCCTGG CCTTCCAGTG TGCAGGAGCT GCTGCGTCCC 
    ACATTTCCTG GTGTGATCAG GCAAATCAGA AAAAACTTCC ATAATTTTGT GCTGATAGTA 
    GATCCTACTC ATGAGACCAC AGCAGAATTA CTGAATGTGG CAGAAATGTT CTTCAGTAAC 
    CACATCCCAC TGAGGATAGG ACTAGTCTTT GTGGTTAATG ACTCAGAAGA TGTTGATGGA 
    CTTCAGGATG CTGGTGTTGC CCTCCTTAGG ACATACAATT ACGTGGCACA AGAAATGGAC 
    AATAATTATG CTTTTCAGAC CGTCATGTCT ATATATAACA AAGTGAAAAC AGGGGACCAG 
    CTGAAAGTGG AACATGTTGT TAGTGTTCTT GAGAAACAAT ATCCTTATGT GGAAATCAAC 
    AGTGTGCTGG GAATTGATTC TGCCTATGAT CAAAACAGAA AGGCAGCAAG AGCTTACTAT 
    GAGCAAACTG GTGTAGGCCC TCTCCCTGTT GTCCTGTTCA ATGGGATGCC TTTCCAAAAA 
    GATCAGCTGG ATCCTGATGA CCTGGAAACT GTGACAATGC ACAAAATCCT GGAAACCACG 
    AGCATCTTCC AGCGAGCCGT GTACCTGGGT GAACTATCTA ATGACCAAGA TGTGGTTGAG 
    TATATCATGA ACCAGCCTAA TGTTGTTCCA AGAATTAACT CAAGAATCCT AAGGTCTGAC 
    AGAGAGTACC TAGATCTGAC AGGAATGAAT AACCATTTTG TGGATGACTT TGCTCGATTT 
    ACCACATTGG ATTCTAAAGA TAAGACAGCG GCTGTTGCAA ACAGCATGAC CTACTTAACA 
    AAGAAAGGAA TGTCTTCCAA GGAGATCTAT GATGATTCCT TTGTTAGACC TGTTACTTTT 
    TGGATTGTTG GTGATTTTGA TAAACCTTCA GGGAGGCAGT TGTTGTATGA TGCCATTAAA 
    CATCAGAAAT CCAGCAATAA CATTCGAATT GGCATGATTA ATAATCCTAG TGAAGAACCC 
    AACAGCCAGA ATACCATTGT AGCTAAAGCC ATATGGGCAG CTTTGCAGAC ACAAACATCA 
    AATAATGCCA AGAACTTCAT CACCAAGATG GCAAAAGAAG AAACTGTGAA GGCACTGGAG 
    GCAGGAGCTG ACATCTTGGA ATTTGCTGTT GGGGGTATGG ATACCAATAT TTTCAAAGAA 
    GCCTTCAAAT CTCCCAAGAT GGATTTTGTT CTGTCCCATG CTGTTTATTG CAGAGATGTT 
    CTAAAGCTGA AGAAGGGGCA GAGGGCTGTG ATCAGCAATG GACGGATTAT TGGCCCATTA 
    GAGGATGGAG AGATGTTCAA TCAGGATGAT TTTCATCTCC TTGAAAATAT CATATTAAAG 
    ACATCGGGAC AGAAAATCAA ATCTCAGATT CAGCAGCTGG GATTTGAAGA AGATCTGGCA 
    AGTGATTTGG TAATGAAAGT GGATGCTCTT CTTTCTGCTC AGCCAAAAGG AGAGGCAAGG 
    ATTGAGTATC AGTTTTTTGA AGAACGATAC AGTGCAGTTA AACTGAGACC AAAAGAGGGG 
    GAGACATACT TTGATGTTGT GGCTATTGTT GATCCCGTGA CCAGAGATGC TCAGAGACTT 
    GCTCCATTAC TTTTGGTTTT GAACCAATTG ATAAATATGA ACCTGAGAGT GTTTATGAAC 
    TGCCAGTCTA AGCTTTCTGA CATGCCACTG AAAAGCTTTT ACCGCTATGT TTTGGAGCCA 
    GAGATTTCTT TCACAGCAGA GAATAACTTT GCTCCAGGAC CAATTGCCAA GTTTTTAGAC 
    ATGCCCCAGT CTCCACTGTT CACTCTGAAT TTAAATACTC CTGAGAGTTG GATGGTGGAG 
    TCTGTTAGAA CCCCCTATGA CCTTGACAAT ATCTTCTTAG AGGAGGTGGA GAGTGTTGTA 
    GCTGCAGAGT ATGAACTGGA GTACCTGCTG CTGGAGGGCC ACTGCTATGA CATTACAACT 
    GGGCAGCCAC CTCGGGGGCT CCAGTTCACC CTGGGCACCT CCAGCAGCCC TGTCATCGTG 
    GACACCATCG TTATGGCCAA CCTGGGCTAC TTCCAATTAA AAGCCAATCC TGGTGCATGG 
    ACTCTAAGAC TGAGAAAAGG CAGATCTGAA GATATTTACA GGATCTACAG CCACGATGGC 
    ACAGACTCTC CACCTGAAGC TAATGAAGTT ATTGTTGTTC TCAATAACTT CAAGAGCAAA 
    ATTATTAAAG TGAAGGTGCA GAAAAAGTTT GATATGATGA ATGAAGATCT TCTAAGTGAT 
    GGCACCAATG AGAATGAATC TGGATTTTGG GAATCACTCA AATGGGGATT CACAGGAGGG 
    CAAAAGAATG AAGATGTGAA ACAGGATAAA GATGATGTAC TAAATATATT CTCTGTGGCT 
    TCAGGACACC TATATGAGAG ATTCCTACGC ATAATGATGT TGTCTGTGCT GAAACACACC 
    AAGACTCCTT TAAAGTTTTG GTTTCTGAAG AACTACTTAT CACCTACATT CAAGGAGTTC 
    ATCCCATACA TGGCCAAGAA GTACAATTTC CAGTATGAGC TTGTCCAGTA TAAATGGCCA 
    CGCTGGCTGC ACCAACAAAC AGAGAAGCAG CGAATCATCT GGGGTTACAA GATCCTCTTT 
    CTAGATGTGC TCTTCCCATT AGCTGTTGAT AAAATCCTCT TTGTGGATGC TGATCAGATT 
    GTGCGCACAG ATCTGAAAGA ATTGAGGGAT TTGAATCTGG ATGGTGCTCC TTATGGATAC 
    ACCCCATTCT GTGACAGCCG AAGGGAAATG GATGGCTACA GGTTCTGGAA ATCAGGATAC 
    TGGGCAAGTC ATTTAGCTGG AAGAAAATAC CACATCAGTG CTCTGTATGT TGTGGATCTG 
    AAGAAGTTCA GGAAGATAGC AGCTGGAGAT CGACTCAGAG GACAGTATCA GGGCCTGAGT 
    CAGGATCCAA ACAGTCTGTC CAACCTTGAT CAGGATTTGC CAAACAACAT GATTCACCAA 
    GTACCCATCA AGTCCCTCCC CCAGGAGTGG CTGTGGTGTG AAACATGGTG TGATGACTCC 
    TCGAAGAAGA GAGCAAAAAC CATTGATCTG TGTAACAACC CAATGACCAA AGAGCCCAAG 
    CTGCAGGCAG CCATGAGGAT AGTTCCAGAA TGGCAGGACT ATGATCAAGA AATCAAACTG 
    CTCCAGAGTC AATTCCAGAA GGAAAAAGAA ATGGGAACAC CAGCTGAGAT GCCAGGACAA 
    CACACACATG ATCCAGCAGC ACATGTGGAA TTATGA

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

    RefSeq XP_030136286.1
    CDS384..4979
    Translation

    Target ORF information:

    RefSeq Version XM_030280426.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030280426.1

    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
    ATGGGAATAC TTATTGCAGT TCTTGGAATC TGGTTCAGCT CTTCACTTGT AAAAGCAGAT 
    TCTAAGGCTG TGACAACATC TCTAACTACA AAGTGGTCTT CAACTCCTTT ACTCCTTGAA 
    ACAAGTGAAT TTTTATCAGA AGAAGGTCAA GAAAAATTCT GGAATTTTGT TGAAGCCAGT 
    GAGAATATTA AGACAGCTGA GCATGATGGT AGTGATTATT CTTCTTACCA GGAAATGCTG 
    AAAGTGGCCT GCCAGACTCT GTCACCTTTG CAGCAGAATT TGTTGAAATT TTCCCTGTCT 
    TTACGCTCCT ACTCTGCAGC AGTTCAAGCT TTTCAACAGA TAGCAGCAGA TGAATCTCCA 
    CCAAAGGGCT GTATCCTGTT TTTTGTTGTG CATGGGGAGA AAACATGTGA TTTTGACTCT 
    CTTGGAAACC TTTTACAGGC AGCTTCAGAC AGGCCAAAGC CATTTTTGTT CAAGGGGGAC 
    CACAAGTACC CAGCATCAAA CCCTGAAAGT CCTGTGGTCA TACTTTATGC AGAGATTGGC 
    TCAGAGGAGT TCTACAGAGA GCACAGGAGG CTTGCTTCAA AGGCTGAGGC AGGAGAAATC 
    ACTTATGTGC TCAGACACTA CATTGCTAAT CCCAGCAAGG AAAAGGTCTA CCTCTCTGGC 
    TATGGTGTAG AACTGGCTAT TAAAAGTACA GAATATAAGG CCAAGGATGA TACCCAGGTG 
    AAAGGCACAG ATGTGAATGC TACAGTCATA GATGAAAATG ACCCTATTGA TGAAGTGCAA 
    GGATTTCTGT TTGGAAAACT AAGACAGCTG TATCCTGACT TGTCAGAAGA GCTGAAAGAG 
    CTCAGAAAAC ACCTCGTGGA AAGTACCAAT GAAATGGCAC CTTTGAAAGT ATGGCAGCTC 
    CAAGATCTGA GTTTTCAAAC TGCTGCTCGC ATTTTGACTG CTCCCCCTGT GGATGCCCTG 
    ATGGTCATGA AAGATCTTAG TCAGAACTTT CCTACAAAGG CCAGAGCCAT AACAAAAACA 
    GTTGTTTCTT CGGAACTCAG AGCAGAAATT GAAGAGAACC AAAAGTATTT CAAGGGAACA 
    TTAGGATTGC AACCAGGAGA TTCTGCCCTA TTCATCAATG GACTGCTTAT TGATTTAGAC 
    ACTCAAGATA TATTTAGCTT GATTGATGTG CTCCGCAATG AAGCCCGTGT TATGGAAGGC 
    CTGCACAGCT TGGGAATTGA GGGAATTTCC TTACACAATG TCCTGAAGTT GAACATCCAG 
    CCATCAGACT CTGACTATGC TGTGGACATC AGAAGCCCTG CCATTTCATG GATCAACAAT 
    CTGGAAGTTG ATAGTCGGTA CAATTCCTGG CCTTCCAGTG TGCAGGAGCT GCTGCGTCCC 
    ACATTTCCTG GTGTGATCAG GCAAATCAGA AAAAACTTCC ATAATTTTGT GCTGATAGTA 
    GATCCTACTC ATGAGACCAC AGCAGAATTA CTGAATGTGG CAGAAATGTT CTTCAGTAAC 
    CACATCCCAC TGAGGATAGG ACTAGTCTTT GTGGTTAATG ACTCAGAAGA TGTTGATGGA 
    CTTCAGGATG CTGGTGTTGC CCTCCTTAGG ACATACAATT ACGTGGCACA AGAAATGGAC 
    AATAATTATG CTTTTCAGAC CGTCATGTCT ATATATAACA AAGTGAAAAC AGGGGACCAG 
    CTGAAAGTGG AACATGTTGT TAGTGTTCTT GAGAAACAAT ATCCTTATGT GGAAATCAAC 
    AGTGTGCTGG GAATTGATTC TGCCTATGAT CAAAACAGAA AGGCAGCAAG AGCTTACTAT 
    GAGCAAACTG GTGTAGGCCC TCTCCCTGTT GTCCTGTTCA ATGGGATGCC TTTCCAAAAA 
    GATCAGCTGG ATCCTGATGA CCTGGAAACT GTGACAATGC ACAAAATCCT GGAAACCACG 
    AGCATCTTCC AGCGAGCCGT GTACCTGGGT GAACTATCTA ATGACCAAGA TGTGGTTGAG 
    TATATCATGA ACCAGCCTAA TGTTGTTCCA AGAATTAACT CAAGAATCCT AAGGTCTGAC 
    AGAGAGTACC TAGATCTGAC AGGAATGAAT AACCATTTTG TGGATGACTT TGCTCGATTT 
    ACCACATTGG ATTCTAAAGA TAAGACAGCG GCTGTTGCAA ACAGCATGAC CTACTTAACA 
    AAGAAAGGAA TGTCTTCCAA GGAGATCTAT GATGATTCCT TTGTTAGACC TGTTACTTTT 
    TGGATTGTTG GTGATTTTGA TAAACCTTCA GGGAGGCAGT TGTTGTATGA TGCCATTAAA 
    CATCAGAAAT CCAGCAATAA CATTCGAATT GGCATGATTA ATAATCCTAG TGAAGAACCC 
    AACAGCCAGA ATACCATTGT AGCTAAAGCC ATATGGGCAG CTTTGCAGAC ACAAACATCA 
    AATAATGCCA AGAACTTCAT CACCAAGATG GCAAAAGAAG AAACTGTGAA GGCACTGGAG 
    GCAGGAGCTG ACATCTTGGA ATTTGCTGTT GGGGGTATGG ATACCAATAT TTTCAAAGAA 
    GCCTTCAAAT CTCCCAAGAT GGATTTTGTT CTGTCCCATG CTGTTTATTG CAGAGATGTT 
    CTAAAGCTGA AGAAGGGGCA GAGGGCTGTG ATCAGCAATG GACGGATTAT TGGCCCATTA 
    GAGGATGGAG AGATGTTCAA TCAGGATGAT TTTCATCTCC TTGAAAATAT CATATTAAAG 
    ACATCGGGAC AGAAAATCAA ATCTCAGATT CAGCAGCTGG GATTTGAAGA AGATCTGGCA 
    AGTGATTTGG TAATGAAAGT GGATGCTCTT CTTTCTGCTC AGCCAAAAGG AGAGGCAAGG 
    ATTGAGTATC AGTTTTTTGA AGAACGATAC AGTGCAGTTA AACTGAGACC AAAAGAGGGG 
    GAGACATACT TTGATGTTGT GGCTATTGTT GATCCCGTGA CCAGAGATGC TCAGAGACTT 
    GCTCCATTAC TTTTGGTTTT GAACCAATTG ATAAATATGA ACCTGAGAGT GTTTATGAAC 
    TGCCAGTCTA AGCTTTCTGA CATGCCACTG AAAAGCTTTT ACCGCTATGT TTTGGAGCCA 
    GAGATTTCTT TCACAGCAGA GAATAACTTT GCTCCAGGAC CAATTGCCAA GTTTTTAGAC 
    ATGCCCCAGT CTCCACTGTT CACTCTGAAT TTAAATACTC CTGAGAGTTG GATGGTGGAG 
    TCTGTTAGAA CCCCCTATGA CCTTGACAAT ATCTTCTTAG AGGAGGTGGA GAGTGTTGTA 
    GCTGCAGAGT ATGAACTGGA GTACCTGCTG CTGGAGGGCC ACTGCTATGA CATTACAACT 
    GGGCAGCCAC CTCGGGGGCT CCAGTTCACC CTGGGCACCT CCAGCAGCCC TGTCATCGTG 
    GACACCATCG TTATGGCCAA CCTGGGCTAC TTCCAATTAA AAGCCAATCC TGGTGCATGG 
    ACTCTAAGAC TGAGAAAAGG CAGATCTGAA GATATTTACA GGATCTACAG CCACGATGGC 
    ACAGACTCTC CACCTGAAGC TAATGAAGTT ATTGTTGTTC TCAATAACTT CAAGAGCAAA 
    ATTATTAAAG TGAAGGTGCA GAAAAAGTTT GATATGATGA ATGAAGATCT TCTAAGTGAT 
    GGCACCAATG AGAATGAATC TGGATTTTGG GAATCACTCA AATGGGGATT CACAGGAGGG 
    CAAAAGAATG AAGATGTGAA ACAGGATAAA GATGATGTAC TAAATATATT CTCTGTGGCT 
    TCAGGACACC TATATGAGAG ATTCCTACGC ATAATGATGT TGTCTGTGCT GAAACACACC 
    AAGACTCCTT TAAAGTTTTG GTTTCTGAAG AACTACTTAT CACCTACATT CAAGGAGTTC 
    ATCCCATACA TGGCCAAGAA GTACAATTTC CAGTATGAGC TTGTCCAGTA TAAATGGCCA 
    CGCTGGCTGC ACCAACAAAC AGAGAAGCAG CGAATCATCT GGGGTTACAA GATCCTCTTT 
    CTAGATGTGC TCTTCCCATT AGCTGTTGAT AAAATCCTCT TTGTGGATGC TGATCAGATT 
    GTGCGCACAG ATCTGAAAGA ATTGAGGGAT TTGAATCTGG ATGGTGCTCC TTATGGATAC 
    ACCCCATTCT GTGACAGCCG AAGGGAAATG GATGGCTACA GGTTCTGGAA ATCAGGATAC 
    TGGGCAAGTC ATTTAGCTGG AAGAAAATAC CACATCAGTG CTCTGTATGT TGTGGATCTG 
    AAGAAGTTCA GGAAGATAGC AGCTGGAGAT CGACTCAGAG GACAGTATCA GGGCCTGAGT 
    CAGGATCCAA ACAGTCTGTC CAACCTTGAT CAGGATTTGC CAAACAACAT GATTCACCAA 
    GTACCCATCA AGTCCCTCCC CCAGGAGTGG CTGTGGTGTG AAACATGGTG TGATGACTCC 
    TCGAAGAAGA GAGCAAAAAC CATTGATCTG TGTAACAACC CAATGACCAA AGAGCCCAAG 
    CTGCAGGCAG CCATGAGGAT AGTTCCAGAA TGGCAGGACT ATGATCAAGA AATCAAACTG 
    CTCCAGAGTC AATTCCAGAA GGAAAAAGAA ATGGGAACAC CAGCTGAGAT GCCAGGACAA 
    CACACACATG ATCCAGCAGC ACATGTGGAA TTATGA

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

    UGGT1 ( XM_030280427.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030136287.1 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OTd52021
    Clone ID Related Accession (Same CDS sequence) XM_030280427.1
    Accession Version XM_030280427.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4572bp)
    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 UDP-glucose:glycoprotein glucosyltransferase 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044221.1) annotated using gene prediction method: Gnomon, supported by 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
    ATGGGAATAC TTATTGCAGT TCTTGGAATC TGGTTCAGCT CTTCACTTGT AAAAGCAGAT 
    TCTAAGGCTG TGACAACATC TCTAACTACA AAGTGGTCTT CAACTCCTTT ACTCCTTGAA 
    ACAAGTGAAT TTTTATCAGA AGAAGGTCAA GAAAAATTCT GGAATTTTGT TGAAGCCAGT 
    GAGAATATTA AGACAGCTGA GCATGATGGT AGTGATTATT CTTCTTACCA GGAAATGCTG 
    AAAGTGGCCT GCCAGACTCT GTCACCTTTG CAGCAGAATT TGTTGAAATT TTCCCTGTCT 
    TTACGCTCCT ACTCTGCAGC AGTTCAAGCT TTTCAACAGA TAGCAGCAGA TGAATCTCCA 
    CCAAAGGGCT GTATCCTGTT TTTTGTTGTG CATGGGGAGA AAACATGTGA TTTTGACTCT 
    CTTGGAAACC TTTTACAGGC AGCTTCAGAC AGGCCAAAGC CATTTTTGTT CAAGGGGGAC 
    CACAAGTACC CAGCATCAAA CCCTGAAAGT CCTGTGGTCA TACTTTATGC AGAGATTGGC 
    TCAGAGGAGT TCTACAGAGA GCACAGGAGG CTTGCTTCAA AGGCTGAGGC AGGAGAAATC 
    ACTTATGTGC TCAGACACTA CATTGCTAAT CCCAGCAAGG AAAAGGTCTA CCTCTCTGGC 
    TATGGTGTAG AACTGGCTAT TAAAAGTACA GAATATAAGG CCAAGGATGA TACCCAGGTG 
    AAAGGCACAG ATGTGAATGC TACAGTCATA GATGAAAATG ACCCTATTGA TGAAGTGCAA 
    GGATTTCTGT TTGGAAAACT AAGACAGCTG TATCCTGACT TGTCAGAAGA GCTGAAAGAG 
    CTCAGAAAAC ACCTCGTGGA AAGTACCAAT GAAATGGCAC CTTTGAAAGT ATGGCAGCTC 
    CAAGATCTGA GTTTTCAAAC TGCTGCTCGC ATTTTGACTG CTCCCCCTGT GGATGCCCTG 
    ATGGTCATGA AAGATCTTAG TCAGAACTTT CCTACAAAGG CCAGAGCCAT AACAAAAACA 
    GTTGTTTCTT CGGAACTCAG AGCAGAAATT GAAGAGAACC AAAAGTATTT CAAGGGAACA 
    TTAGGATTGC AACCAGGAGA TTCTGCCCTA TTCATCAATG GACTGCTTAT TGATTTAGAC 
    ACTCAAGATA TATTTAGCTT GATTGATGTG CTCCGCAATG AAGCCCGTGT TATGGAAGGC 
    CTGCACAGCT TGGGAATTGA GGGAATTTCC TTACACAATG TCCTGAAGTT GAACATCCAG 
    CCATCAGACT CTGACTATGC TGTGGACATC AGAAGCCCTG CCATTTCATG GATCAACAAT 
    CTGGAAGTTG ATAGTCGGTA CAATTCCTGG CCTTCCAGTG TGCAGGAGCT GCTGCGTCCC 
    ACATTTCCTG GTGTGATCAG GCAAATCAGA AAAAACTTCC ATAATTTTGT GCTGATAGTA 
    GATCCTACTC ATGAGACCAC AGCAGAATTA CTGAATGTGG CAGAAATGTT CTTCAGTAAC 
    CACATCCCAC TGAGGATAGG ACTAGTCTTT GTGGTTAATG ACTCAGAAGA TGTTGATGGA 
    CTTCAGGATG CTGGTGTTGC CCTCCTTAGG ACATACAATT ACGTGGCACA AGAAATGGAC 
    AATAATTATG CTTTTCAGAC CGTCATGTCT ATATATAACA AAGTGAAAAC AGGGGACCAG 
    CTGAAAGTGG AACATGTTGT TAGTGTTCTT GAGAAACAAT ATCCTTATGT GGAAATCAAC 
    AGTGTGCTGG GAATTGATTC TGCCTATGAT CAAAACAGAA AGGCAGCAAG AGCTTACTAT 
    GAGCAAACTG GTGTAGGCCC TCTCCCTGTT GTCCTGTTCA ATGGGATGCC TTTCCAAAAA 
    GATCAGCTGG ATCCTGATGA CCTGGAAACT GTGACAATGC ACAAAATCCT GGAAACCACG 
    AGCATCTTCC AGCGAGCCGT GTACCTGGGT GAACTATCTA ATGACCAAGA TGTGGTTGAG 
    TATATCATGA ACCAGCCTAA TGTTGTTCCA AGAATTAACT CAAGAATCCT AAGGTCTGAC 
    AGAGAGTACC TAGATCTGAC AGGAATGAAT AACCATTTTG TGGATGACTT TGCTCGATTT 
    ACCACATTGG ATTCTAAAGA TAAGACAGCG GCTGTTGCAA ACAGCATGAC CTACTTAACA 
    AAGAAAGATG ATTCCTTTGT TAGACCTGTT ACTTTTTGGA TTGTTGGTGA TTTTGATAAA 
    CCTTCAGGGA GGCAGTTGTT GTATGATGCC ATTAAACATC AGAAATCCAG CAATAACATT 
    CGAATTGGCA TGATTAATAA TCCTAGTGAA GAACCCAACA GCCAGAATAC CATTGTAGCT 
    AAAGCCATAT GGGCAGCTTT GCAGACACAA ACATCAAATA ATGCCAAGAA CTTCATCACC 
    AAGATGGCAA AAGAAGAAAC TGTGAAGGCA CTGGAGGCAG GAGCTGACAT CTTGGAATTT 
    GCTGTTGGGG GTATGGATAC CAATATTTTC AAAGAAGCCT TCAAATCTCC CAAGATGGAT 
    TTTGTTCTGT CCCATGCTGT TTATTGCAGA GATGTTCTAA AGCTGAAGAA GGGGCAGAGG 
    GCTGTGATCA GCAATGGACG GATTATTGGC CCATTAGAGG ATGGAGAGAT GTTCAATCAG 
    GATGATTTTC ATCTCCTTGA AAATATCATA TTAAAGACAT CGGGACAGAA AATCAAATCT 
    CAGATTCAGC AGCTGGGATT TGAAGAAGAT CTGGCAAGTG ATTTGGTAAT GAAAGTGGAT 
    GCTCTTCTTT CTGCTCAGCC AAAAGGAGAG GCAAGGATTG AGTATCAGTT TTTTGAAGAA 
    CGATACAGTG CAGTTAAACT GAGACCAAAA GAGGGGGAGA CATACTTTGA TGTTGTGGCT 
    ATTGTTGATC CCGTGACCAG AGATGCTCAG AGACTTGCTC CATTACTTTT GGTTTTGAAC 
    CAATTGATAA ATATGAACCT GAGAGTGTTT ATGAACTGCC AGTCTAAGCT TTCTGACATG 
    CCACTGAAAA GCTTTTACCG CTATGTTTTG GAGCCAGAGA TTTCTTTCAC AGCAGAGAAT 
    AACTTTGCTC CAGGACCAAT TGCCAAGTTT TTAGACATGC CCCAGTCTCC ACTGTTCACT 
    CTGAATTTAA ATACTCCTGA GAGTTGGATG GTGGAGTCTG TTAGAACCCC CTATGACCTT 
    GACAATATCT TCTTAGAGGA GGTGGAGAGT GTTGTAGCTG CAGAGTATGA ACTGGAGTAC 
    CTGCTGCTGG AGGGCCACTG CTATGACATT ACAACTGGGC AGCCACCTCG GGGGCTCCAG 
    TTCACCCTGG GCACCTCCAG CAGCCCTGTC ATCGTGGACA CCATCGTTAT GGCCAACCTG 
    GGCTACTTCC AATTAAAAGC CAATCCTGGT GCATGGACTC TAAGACTGAG AAAAGGCAGA 
    TCTGAAGATA TTTACAGGAT CTACAGCCAC GATGGCACAG ACTCTCCACC TGAAGCTAAT 
    GAAGTTATTG TTGTTCTCAA TAACTTCAAG AGCAAAATTA TTAAAGTGAA GGTGCAGAAA 
    AAGTTTGATA TGATGAATGA AGATCTTCTA AGTGATGGCA CCAATGAGAA TGAATCTGGA 
    TTTTGGGAAT CACTCAAATG GGGATTCACA GGAGGGCAAA AGAATGAAGA TGTGAAACAG 
    GATAAAGATG ATGTACTAAA TATATTCTCT GTGGCTTCAG GACACCTATA TGAGAGATTC 
    CTACGCATAA TGATGTTGTC TGTGCTGAAA CACACCAAGA CTCCTTTAAA GTTTTGGTTT 
    CTGAAGAACT ACTTATCACC TACATTCAAG GAGTTCATCC CATACATGGC CAAGAAGTAC 
    AATTTCCAGT ATGAGCTTGT CCAGTATAAA TGGCCACGCT GGCTGCACCA ACAAACAGAG 
    AAGCAGCGAA TCATCTGGGG TTACAAGATC CTCTTTCTAG ATGTGCTCTT CCCATTAGCT 
    GTTGATAAAA TCCTCTTTGT GGATGCTGAT CAGATTGTGC GCACAGATCT GAAAGAATTG 
    AGGGATTTGA ATCTGGATGG TGCTCCTTAT GGATACACCC CATTCTGTGA CAGCCGAAGG 
    GAAATGGATG GCTACAGGTT CTGGAAATCA GGATACTGGG CAAGTCATTT AGCTGGAAGA 
    AAATACCACA TCAGTGCTCT GTATGTTGTG GATCTGAAGA AGTTCAGGAA GATAGCAGCT 
    GGAGATCGAC TCAGAGGACA GTATCAGGGC CTGAGTCAGG ATCCAAACAG TCTGTCCAAC 
    CTTGATCAGG ATTTGCCAAA CAACATGATT CACCAAGTAC CCATCAAGTC CCTCCCCCAG 
    GAGTGGCTGT GGTGTGAAAC ATGGTGTGAT GACTCCTCGA AGAAGAGAGC AAAAACCATT 
    GATCTGTGTA ACAACCCAAT GACCAAAGAG CCCAAGCTGC AGGCAGCCAT GAGGATAGTT 
    CCAGAATGGC AGGACTATGA TCAAGAAATC AAACTGCTCC AGAGTCAATT CCAGAAGGAA 
    AAAGAAATGG GAACACCAGC TGAGATGCCA GGACAACACA CACATGATCC AGCAGCACAT 
    GTGGAATTAT GA

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

    RefSeq XP_030136287.1
    CDS49..4620
    Translation

    Target ORF information:

    RefSeq Version XM_030280427.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 1 (UGGT1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030280427.1

    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
    ATGGGAATAC TTATTGCAGT TCTTGGAATC TGGTTCAGCT CTTCACTTGT AAAAGCAGAT 
    TCTAAGGCTG TGACAACATC TCTAACTACA AAGTGGTCTT CAACTCCTTT ACTCCTTGAA 
    ACAAGTGAAT TTTTATCAGA AGAAGGTCAA GAAAAATTCT GGAATTTTGT TGAAGCCAGT 
    GAGAATATTA AGACAGCTGA GCATGATGGT AGTGATTATT CTTCTTACCA GGAAATGCTG 
    AAAGTGGCCT GCCAGACTCT GTCACCTTTG CAGCAGAATT TGTTGAAATT TTCCCTGTCT 
    TTACGCTCCT ACTCTGCAGC AGTTCAAGCT TTTCAACAGA TAGCAGCAGA TGAATCTCCA 
    CCAAAGGGCT GTATCCTGTT TTTTGTTGTG CATGGGGAGA AAACATGTGA TTTTGACTCT 
    CTTGGAAACC TTTTACAGGC AGCTTCAGAC AGGCCAAAGC CATTTTTGTT CAAGGGGGAC 
    CACAAGTACC CAGCATCAAA CCCTGAAAGT CCTGTGGTCA TACTTTATGC AGAGATTGGC 
    TCAGAGGAGT TCTACAGAGA GCACAGGAGG CTTGCTTCAA AGGCTGAGGC AGGAGAAATC 
    ACTTATGTGC TCAGACACTA CATTGCTAAT CCCAGCAAGG AAAAGGTCTA CCTCTCTGGC 
    TATGGTGTAG AACTGGCTAT TAAAAGTACA GAATATAAGG CCAAGGATGA TACCCAGGTG 
    AAAGGCACAG ATGTGAATGC TACAGTCATA GATGAAAATG ACCCTATTGA TGAAGTGCAA 
    GGATTTCTGT TTGGAAAACT AAGACAGCTG TATCCTGACT TGTCAGAAGA GCTGAAAGAG 
    CTCAGAAAAC ACCTCGTGGA AAGTACCAAT GAAATGGCAC CTTTGAAAGT ATGGCAGCTC 
    CAAGATCTGA GTTTTCAAAC TGCTGCTCGC ATTTTGACTG CTCCCCCTGT GGATGCCCTG 
    ATGGTCATGA AAGATCTTAG TCAGAACTTT CCTACAAAGG CCAGAGCCAT AACAAAAACA 
    GTTGTTTCTT CGGAACTCAG AGCAGAAATT GAAGAGAACC AAAAGTATTT CAAGGGAACA 
    TTAGGATTGC AACCAGGAGA TTCTGCCCTA TTCATCAATG GACTGCTTAT TGATTTAGAC 
    ACTCAAGATA TATTTAGCTT GATTGATGTG CTCCGCAATG AAGCCCGTGT TATGGAAGGC 
    CTGCACAGCT TGGGAATTGA GGGAATTTCC TTACACAATG TCCTGAAGTT GAACATCCAG 
    CCATCAGACT CTGACTATGC TGTGGACATC AGAAGCCCTG CCATTTCATG GATCAACAAT 
    CTGGAAGTTG ATAGTCGGTA CAATTCCTGG CCTTCCAGTG TGCAGGAGCT GCTGCGTCCC 
    ACATTTCCTG GTGTGATCAG GCAAATCAGA AAAAACTTCC ATAATTTTGT GCTGATAGTA 
    GATCCTACTC ATGAGACCAC AGCAGAATTA CTGAATGTGG CAGAAATGTT CTTCAGTAAC 
    CACATCCCAC TGAGGATAGG ACTAGTCTTT GTGGTTAATG ACTCAGAAGA TGTTGATGGA 
    CTTCAGGATG CTGGTGTTGC CCTCCTTAGG ACATACAATT ACGTGGCACA AGAAATGGAC 
    AATAATTATG CTTTTCAGAC CGTCATGTCT ATATATAACA AAGTGAAAAC AGGGGACCAG 
    CTGAAAGTGG AACATGTTGT TAGTGTTCTT GAGAAACAAT ATCCTTATGT GGAAATCAAC 
    AGTGTGCTGG GAATTGATTC TGCCTATGAT CAAAACAGAA AGGCAGCAAG AGCTTACTAT 
    GAGCAAACTG GTGTAGGCCC TCTCCCTGTT GTCCTGTTCA ATGGGATGCC TTTCCAAAAA 
    GATCAGCTGG ATCCTGATGA CCTGGAAACT GTGACAATGC ACAAAATCCT GGAAACCACG 
    AGCATCTTCC AGCGAGCCGT GTACCTGGGT GAACTATCTA ATGACCAAGA TGTGGTTGAG 
    TATATCATGA ACCAGCCTAA TGTTGTTCCA AGAATTAACT CAAGAATCCT AAGGTCTGAC 
    AGAGAGTACC TAGATCTGAC AGGAATGAAT AACCATTTTG TGGATGACTT TGCTCGATTT 
    ACCACATTGG ATTCTAAAGA TAAGACAGCG GCTGTTGCAA ACAGCATGAC CTACTTAACA 
    AAGAAAGATG ATTCCTTTGT TAGACCTGTT ACTTTTTGGA TTGTTGGTGA TTTTGATAAA 
    CCTTCAGGGA GGCAGTTGTT GTATGATGCC ATTAAACATC AGAAATCCAG CAATAACATT 
    CGAATTGGCA TGATTAATAA TCCTAGTGAA GAACCCAACA GCCAGAATAC CATTGTAGCT 
    AAAGCCATAT GGGCAGCTTT GCAGACACAA ACATCAAATA ATGCCAAGAA CTTCATCACC 
    AAGATGGCAA AAGAAGAAAC TGTGAAGGCA CTGGAGGCAG GAGCTGACAT CTTGGAATTT 
    GCTGTTGGGG GTATGGATAC CAATATTTTC AAAGAAGCCT TCAAATCTCC CAAGATGGAT 
    TTTGTTCTGT CCCATGCTGT TTATTGCAGA GATGTTCTAA AGCTGAAGAA GGGGCAGAGG 
    GCTGTGATCA GCAATGGACG GATTATTGGC CCATTAGAGG ATGGAGAGAT GTTCAATCAG 
    GATGATTTTC ATCTCCTTGA AAATATCATA TTAAAGACAT CGGGACAGAA AATCAAATCT 
    CAGATTCAGC AGCTGGGATT TGAAGAAGAT CTGGCAAGTG ATTTGGTAAT GAAAGTGGAT 
    GCTCTTCTTT CTGCTCAGCC AAAAGGAGAG GCAAGGATTG AGTATCAGTT TTTTGAAGAA 
    CGATACAGTG CAGTTAAACT GAGACCAAAA GAGGGGGAGA CATACTTTGA TGTTGTGGCT 
    ATTGTTGATC CCGTGACCAG AGATGCTCAG AGACTTGCTC CATTACTTTT GGTTTTGAAC 
    CAATTGATAA ATATGAACCT GAGAGTGTTT ATGAACTGCC AGTCTAAGCT TTCTGACATG 
    CCACTGAAAA GCTTTTACCG CTATGTTTTG GAGCCAGAGA TTTCTTTCAC AGCAGAGAAT 
    AACTTTGCTC CAGGACCAAT TGCCAAGTTT TTAGACATGC CCCAGTCTCC ACTGTTCACT 
    CTGAATTTAA ATACTCCTGA GAGTTGGATG GTGGAGTCTG TTAGAACCCC CTATGACCTT 
    GACAATATCT TCTTAGAGGA GGTGGAGAGT GTTGTAGCTG CAGAGTATGA ACTGGAGTAC 
    CTGCTGCTGG AGGGCCACTG CTATGACATT ACAACTGGGC AGCCACCTCG GGGGCTCCAG 
    TTCACCCTGG GCACCTCCAG CAGCCCTGTC ATCGTGGACA CCATCGTTAT GGCCAACCTG 
    GGCTACTTCC AATTAAAAGC CAATCCTGGT GCATGGACTC TAAGACTGAG AAAAGGCAGA 
    TCTGAAGATA TTTACAGGAT CTACAGCCAC GATGGCACAG ACTCTCCACC TGAAGCTAAT 
    GAAGTTATTG TTGTTCTCAA TAACTTCAAG AGCAAAATTA TTAAAGTGAA GGTGCAGAAA 
    AAGTTTGATA TGATGAATGA AGATCTTCTA AGTGATGGCA CCAATGAGAA TGAATCTGGA 
    TTTTGGGAAT CACTCAAATG GGGATTCACA GGAGGGCAAA AGAATGAAGA TGTGAAACAG 
    GATAAAGATG ATGTACTAAA TATATTCTCT GTGGCTTCAG GACACCTATA TGAGAGATTC 
    CTACGCATAA TGATGTTGTC TGTGCTGAAA CACACCAAGA CTCCTTTAAA GTTTTGGTTT 
    CTGAAGAACT ACTTATCACC TACATTCAAG GAGTTCATCC CATACATGGC CAAGAAGTAC 
    AATTTCCAGT ATGAGCTTGT CCAGTATAAA TGGCCACGCT GGCTGCACCA ACAAACAGAG 
    AAGCAGCGAA TCATCTGGGG TTACAAGATC CTCTTTCTAG ATGTGCTCTT CCCATTAGCT 
    GTTGATAAAA TCCTCTTTGT GGATGCTGAT CAGATTGTGC GCACAGATCT GAAAGAATTG 
    AGGGATTTGA ATCTGGATGG TGCTCCTTAT GGATACACCC CATTCTGTGA CAGCCGAAGG 
    GAAATGGATG GCTACAGGTT CTGGAAATCA GGATACTGGG CAAGTCATTT AGCTGGAAGA 
    AAATACCACA TCAGTGCTCT GTATGTTGTG GATCTGAAGA AGTTCAGGAA GATAGCAGCT 
    GGAGATCGAC TCAGAGGACA GTATCAGGGC CTGAGTCAGG ATCCAAACAG TCTGTCCAAC 
    CTTGATCAGG ATTTGCCAAA CAACATGATT CACCAAGTAC CCATCAAGTC CCTCCCCCAG 
    GAGTGGCTGT GGTGTGAAAC ATGGTGTGAT GACTCCTCGA AGAAGAGAGC AAAAACCATT 
    GATCTGTGTA ACAACCCAAT GACCAAAGAG CCCAAGCTGC AGGCAGCCAT GAGGATAGTT 
    CCAGAATGGC AGGACTATGA TCAAGAAATC AAACTGCTCC AGAGTCAATT CCAGAAGGAA 
    AAAGAAATGG GAACACCAGC TGAGATGCCA GGACAACACA CACATGATCC AGCAGCACAT 
    GTGGAATTAT GA

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

REQUEST A QUOTE

EMAIL

gene@genscript.com

PHONE

1-877-436-7274

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