ORF » Species Summary » Taeniopygia guttata » UGGT2 cDNA ORF clone

UGGT2 cDNA ORF clone, Taeniopygia guttata(zebra finch)

The following UGGT2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the UGGT2 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
OTd25254 XM_030276218.1
Latest version!		 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OTd25255 XM_030276225.1
Latest version!		 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OTd04453 XM_002196765.3
Latest version!		 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd25252 XM_030276202.1
Latest version!		 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd25253 XM_002196765.4
Latest version!		 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), transcript variant X2, 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)
    UGGT2 ( XM_030276218.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030132078.1 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OTd25254
    Clone ID Related Accession (Same CDS sequence) XM_030276218.1
    Accession Version XM_030276218.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4014bp)
    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 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044211.1) 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
    ATGGGTACGA AAGACTTTGT CAAATTCCAC AATATTTTAT CTGAGAGGGC ACAAAAGGAG 
    GAAATTGTTT ATGTTCTCCG GCATTATGTT CAGCAGAAAC CAAAGTCCAG GAAAATGTAT 
    TTATCTGGAT ATGGTGTGGA ACTTGCAATA AAGAGTACAG AATATAAAGC GGTAGATGAC 
    ACGCAGGTTA AAGGAGCAAA TGAGACAAAA GAAGAGGAAG ATGAGGAAGA GGAAGAGGAG 
    AGTGATGTCC AAGGATTTCT CTTCGGCAAA TTAAAGCAGA TGCATCCTGA TCTGAAAAAC 
    AATCTGATAG AGTTTAAAAA ACATCTAATT GAAACTACTA ACAACATGGA ACCACTGAAG 
    GTTTGGGAGA TGCAGGATCT TAGTTTTCAA GCAGCTACTC GAATTATGTC TACCCCTATT 
    TATGATGCCT TAAAGGTAAT GAAAGACATC GCTCAGAACT TCCCAATAAG AGCCAGATCA 
    CTTACAAGAA TACCTGTAGA CAAGAAAATG CAAAAAGAAA TAGAAGAAAA TCAGAAGCAT 
    TTCCATGAAA CACTTGGAAT TCAACCTGGA GAAGCACGTT TGTTTCTGAA TGGCCTTCAT 
    ATTGACCTGG ATTTTCAAGA TCCCTTTAGC ATTTTAGAGA CTCTTAAACT GGAAGGAAAA 
    GTGATGCATG GCCTTCATGA ACTTGGAATC AAAGGAGAGG CCCTGAGTAA ATTTATGAGG 
    TTGCATGTAC ATCCTAAAGA TAATAATTAT GCACTCGATA TTCGTCACTC TTCAATAATA 
    TGGATTAATA ATATAGAACA AGATCACAGC TATAGCACGT GGCCTGAAAG CTATCAGGAA 
    CTGCTAAAAC CCTCATTTCC TGGATTTTTA CATGAGATTA GGCGCAATTT ATATAACTTG 
    GTACTTTTTG TTGATCCTGT CCAAGAAGAT ACTGGTGATT ATATGAAGCT GGCAGAATTA 
    TTCTATCATC ATGATGTACC ACTTAGAATT GGAATTGTTT TTATTTTAAG TACAAAAGAA 
    GAAATTGATG GAAATGAAGA TGCTGGAGTA GCTCTTTGGA GAACTTTTAA TTACATTGCA 
    GAAGAATCTG ACACCTCTCA GGCCTTTATG TCGATAATTA ATATGTACCA TGAAGTGAAA 
    GATGGAAATG TTCTGACAGT AGATGGTGTG AAACATGTTC TTAGTAGTGA GTACCCCCAT 
    GCTAATGTTC AGAGTATCCT GGATGTTCAT TCTGAATATG ATGAAGGGAG GAAGGCAGGA 
    GCAACCTTTT ATAAGAAGAG TGGCCTGGGC CCACTGCCTC AAGCGCTGTT TAATGGCGTG 
    CCCTTTCCCA GAGAGGAGAT GGATGCGGCA GAGCTGGAGA CGCTTATTCT TCAGAGGATT 
    TTTGATGCCA CCGGCTCCTT CCAGCGGGCA GTGTTCATGG GTTTGTTAGA TGATCATGTA 
    AATGCAGTGG ATTTTCTTAT GGATCAGAAC AATGTAGTTT CCCGTATAAA CCCCAGTATT 
    CTTGGAGCAG AAAGAAGATA CATACCTTTC AGATTCACTT CTGTTCCATT CCATGTGGAA 
    GACTTCTCTA CTTTCTCCTT TTTGGACTCA CAAGATAAAA GTGCTGTAAT TTCAGATAAT 
    ATGAAGTATT TAACGAAAAA AGATGAAGAT GCATTGTATG CTGTTACTGT CTGGATTGTT 
    GCAGATTTTG ATAAGCCAGC TGGTAGACAA CTGCTTTCTA ATGCCTTGAA AAGCCTGAAA 
    ACAAGCAGTC ATACACGAGT TGGGATTTTG AACAATCCTT CATCAAAAAT AAAGGAAGAT 
    AACACAGCCA TTGCAAGAGG AATTTTGGCT GCTTTTTTTA CTCAAAACAA CAGCAACTTA 
    AAAAGTTTCC TAAGTAAACT CAGTAAGGAA GAGACAGCAA AATCCCTTGC TGCTGGAACT 
    AAAATTGTTA AATTCCTCAT CCCAGGAATG GATGGTGATA CTTTTGAGAA GAAGTACAAC 
    ACTTTAGGAC TGGATTTAAT TAAAACTCAA CAAATGTTCT GTCAGGAGGT TCTGAAGCTG 
    CTTCCTGGGC AAATGGCTGT TATTAGCAAT GGCAGGGTAC TGGGTCCTTT AGATGAAAAT 
    GAATTCTATG AAGAAGACTT TAATTTGTTG GAAAAGATAA CATACAGTAC TTCAGCAGAG 
    AAGATTAAAG CCATTGTCAA GGAGATGGGA AACAGTAGTA AAAGTGGCAG TGACTTGATT 
    ATGAAAATAG ATGCCCTGCT GTCATCTTTG CCTAAAACAG AAATGAGACA AGATGTTGAA 
    TTACTCAAAG AACAGCACAG TGTAGTAAAA TTCGAGCCCC AAGAGAATGA CCCATTCTAT 
    GACATCATTG CTATTGTGGA TCCATTGACA AGAGAAGCAC AGAAGATGAC CCATTTATTG 
    ATTGTGCTCA AGGACATTAT TAATATGAAA CTCAGGTTAT TTTTGAACTG CAGATCTAAG 
    CTGTCCGAAG TGCCACTGAA GAGCTTCTAT CGTTTTGTTC TGGAACCAGA ATTAACCTAT 
    GGAATCAATA AGCACCTTCC TTCTGAGCCT GTAGCAAAAT TCCTAGAGTT GCCAGAATCA 
    CCTCTTTTGA CCCTAAACAT GATCACTCCT GAAAGCTGGT TGGTTGAAGC AGTAAATAGT 
    TCCTGTGACC TTGATAACAT TCATTTGCAG GAAATAAAAG GGGCAGTTAT AGCAGAATAT 
    GAGCTGGAAT ATATATTGCT TGAAGGACAT TGCTTTGATG TGACAACTGG ACAACCTCCT 
    CGAGGGTTAC AGTTCACTCT GGGCACAAAG AAGAGTCCTG TCATGGTTGA TACTATTGTG 
    ATGGCCAACC TCGGGTATTT TCAGCTGAAA GCAAATCCAG GTGCTTGGAC GTTGAGATTG 
    CGTAAAGGAA GATCTGAGGA GATTTATCAG GTTTTTTCCC ATGAAGGAAC AGATTCTGTA 
    GCTGAGCTGA CAGACGTTAT TGTGGTATTA AACAACTTCA GAAGCAAAAT TATCAAAGTT 
    CAAGTACAGA AGAAGCCTGA TAAAGTGAAT GAAGAGCTTC TTACAGATGA AACAACAGGA 
    AAAAAAGGAA ATATGGAATC AGTTGCAAGA TTTTCAGAAG ACATTCCAAC TGATGAGAAG 
    GAAAAGAAGA GTGATATTAA CATTTTTTCT GTTGCTTCAG GCCATTTATA TGAACGTTTT 
    TTAAGAATTA TGATGCTTTC TGTCCTACGT CATACAAAAA CACCAGTTAA ATTTTGGTTT 
    CTGAAAAACT ATCTCTCCCC AACATTTAAG GATGTAATTC CTCACATGGC TAAAAAGTAT 
    GGGTTCAAGT ATGAGTTGGT CCAGTATAAG TGGCCCCGCT GGCTTTATCA ACAGACAGAA 
    AAGCAAAGAA TTATCTGGGG CTACAAAATT CTTTTCTTGG ATGTTCTTTT CCCTTTGGCT 
    GTGGATAAAA TAATATTTGT CGATGCTGAC CAGATTGTGA GGAGTGACCT GAAAGAGCTC 
    AGAGACCTAG ATCTGAATGG AGCTCCCTAT GGATACACTC CTTTCTGTGA CAGCCGCAGA 
    GAGATGGACG GGTACCGCTT CTGGAAATCG GGATACTGGG CTTCACACCT CGGGAAAAGG 
    AAATACCATA TTAGTGCCTT GTATGTTGTG GACCTGAAGA AGTTCAGGAA GATTGCAGCT 
    GGAGACAGGC TTCGGGGCCA GTACCAGGCT CTTAGTCAGG ATCCAAACAG TCTGTCAAAT 
    CTAGATCAGG ATCTTCCCAA TAATATGATT CATCAAGTAG CCATTAAGTC TCTCCCTCAG 
    GAGTGGCTTT GGTGTGAAAC CTGGTGTGAT GATAAATCCA AGAAAAAGGC TAAGACAATA 
    GACCTGTGCA ACAACCCCCA AACCAAAGAA CCAAAACTAA AGGCTGCTGC CCGGATAGTT 
    CCTGAATGGG TTGAATATGA CTCTGAGATC CGAAACTTAA TACAGCAAAT TGAAAGAGAG 
    AAGAAAAATC TAACATCATT ATTTCAAAAA GGGCTCAAGC ACGATGAACT TTAG

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

    RefSeq XP_030132078.1
    CDS215..4228
    Translation

    Target ORF information:

    RefSeq Version XM_030276218.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030276218.1

    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
    ATGGGTACGA AAGACTTTGT CAAATTCCAC AATATTTTAT CTGAGAGGGC ACAAAAGGAG 
    GAAATTGTTT ATGTTCTCCG GCATTATGTT CAGCAGAAAC CAAAGTCCAG GAAAATGTAT 
    TTATCTGGAT ATGGTGTGGA ACTTGCAATA AAGAGTACAG AATATAAAGC GGTAGATGAC 
    ACGCAGGTTA AAGGAGCAAA TGAGACAAAA GAAGAGGAAG ATGAGGAAGA GGAAGAGGAG 
    AGTGATGTCC AAGGATTTCT CTTCGGCAAA TTAAAGCAGA TGCATCCTGA TCTGAAAAAC 
    AATCTGATAG AGTTTAAAAA ACATCTAATT GAAACTACTA ACAACATGGA ACCACTGAAG 
    GTTTGGGAGA TGCAGGATCT TAGTTTTCAA GCAGCTACTC GAATTATGTC TACCCCTATT 
    TATGATGCCT TAAAGGTAAT GAAAGACATC GCTCAGAACT TCCCAATAAG AGCCAGATCA 
    CTTACAAGAA TACCTGTAGA CAAGAAAATG CAAAAAGAAA TAGAAGAAAA TCAGAAGCAT 
    TTCCATGAAA CACTTGGAAT TCAACCTGGA GAAGCACGTT TGTTTCTGAA TGGCCTTCAT 
    ATTGACCTGG ATTTTCAAGA TCCCTTTAGC ATTTTAGAGA CTCTTAAACT GGAAGGAAAA 
    GTGATGCATG GCCTTCATGA ACTTGGAATC AAAGGAGAGG CCCTGAGTAA ATTTATGAGG 
    TTGCATGTAC ATCCTAAAGA TAATAATTAT GCACTCGATA TTCGTCACTC TTCAATAATA 
    TGGATTAATA ATATAGAACA AGATCACAGC TATAGCACGT GGCCTGAAAG CTATCAGGAA 
    CTGCTAAAAC CCTCATTTCC TGGATTTTTA CATGAGATTA GGCGCAATTT ATATAACTTG 
    GTACTTTTTG TTGATCCTGT CCAAGAAGAT ACTGGTGATT ATATGAAGCT GGCAGAATTA 
    TTCTATCATC ATGATGTACC ACTTAGAATT GGAATTGTTT TTATTTTAAG TACAAAAGAA 
    GAAATTGATG GAAATGAAGA TGCTGGAGTA GCTCTTTGGA GAACTTTTAA TTACATTGCA 
    GAAGAATCTG ACACCTCTCA GGCCTTTATG TCGATAATTA ATATGTACCA TGAAGTGAAA 
    GATGGAAATG TTCTGACAGT AGATGGTGTG AAACATGTTC TTAGTAGTGA GTACCCCCAT 
    GCTAATGTTC AGAGTATCCT GGATGTTCAT TCTGAATATG ATGAAGGGAG GAAGGCAGGA 
    GCAACCTTTT ATAAGAAGAG TGGCCTGGGC CCACTGCCTC AAGCGCTGTT TAATGGCGTG 
    CCCTTTCCCA GAGAGGAGAT GGATGCGGCA GAGCTGGAGA CGCTTATTCT TCAGAGGATT 
    TTTGATGCCA CCGGCTCCTT CCAGCGGGCA GTGTTCATGG GTTTGTTAGA TGATCATGTA 
    AATGCAGTGG ATTTTCTTAT GGATCAGAAC AATGTAGTTT CCCGTATAAA CCCCAGTATT 
    CTTGGAGCAG AAAGAAGATA CATACCTTTC AGATTCACTT CTGTTCCATT CCATGTGGAA 
    GACTTCTCTA CTTTCTCCTT TTTGGACTCA CAAGATAAAA GTGCTGTAAT TTCAGATAAT 
    ATGAAGTATT TAACGAAAAA AGATGAAGAT GCATTGTATG CTGTTACTGT CTGGATTGTT 
    GCAGATTTTG ATAAGCCAGC TGGTAGACAA CTGCTTTCTA ATGCCTTGAA AAGCCTGAAA 
    ACAAGCAGTC ATACACGAGT TGGGATTTTG AACAATCCTT CATCAAAAAT AAAGGAAGAT 
    AACACAGCCA TTGCAAGAGG AATTTTGGCT GCTTTTTTTA CTCAAAACAA CAGCAACTTA 
    AAAAGTTTCC TAAGTAAACT CAGTAAGGAA GAGACAGCAA AATCCCTTGC TGCTGGAACT 
    AAAATTGTTA AATTCCTCAT CCCAGGAATG GATGGTGATA CTTTTGAGAA GAAGTACAAC 
    ACTTTAGGAC TGGATTTAAT TAAAACTCAA CAAATGTTCT GTCAGGAGGT TCTGAAGCTG 
    CTTCCTGGGC AAATGGCTGT TATTAGCAAT GGCAGGGTAC TGGGTCCTTT AGATGAAAAT 
    GAATTCTATG AAGAAGACTT TAATTTGTTG GAAAAGATAA CATACAGTAC TTCAGCAGAG 
    AAGATTAAAG CCATTGTCAA GGAGATGGGA AACAGTAGTA AAAGTGGCAG TGACTTGATT 
    ATGAAAATAG ATGCCCTGCT GTCATCTTTG CCTAAAACAG AAATGAGACA AGATGTTGAA 
    TTACTCAAAG AACAGCACAG TGTAGTAAAA TTCGAGCCCC AAGAGAATGA CCCATTCTAT 
    GACATCATTG CTATTGTGGA TCCATTGACA AGAGAAGCAC AGAAGATGAC CCATTTATTG 
    ATTGTGCTCA AGGACATTAT TAATATGAAA CTCAGGTTAT TTTTGAACTG CAGATCTAAG 
    CTGTCCGAAG TGCCACTGAA GAGCTTCTAT CGTTTTGTTC TGGAACCAGA ATTAACCTAT 
    GGAATCAATA AGCACCTTCC TTCTGAGCCT GTAGCAAAAT TCCTAGAGTT GCCAGAATCA 
    CCTCTTTTGA CCCTAAACAT GATCACTCCT GAAAGCTGGT TGGTTGAAGC AGTAAATAGT 
    TCCTGTGACC TTGATAACAT TCATTTGCAG GAAATAAAAG GGGCAGTTAT AGCAGAATAT 
    GAGCTGGAAT ATATATTGCT TGAAGGACAT TGCTTTGATG TGACAACTGG ACAACCTCCT 
    CGAGGGTTAC AGTTCACTCT GGGCACAAAG AAGAGTCCTG TCATGGTTGA TACTATTGTG 
    ATGGCCAACC TCGGGTATTT TCAGCTGAAA GCAAATCCAG GTGCTTGGAC GTTGAGATTG 
    CGTAAAGGAA GATCTGAGGA GATTTATCAG GTTTTTTCCC ATGAAGGAAC AGATTCTGTA 
    GCTGAGCTGA CAGACGTTAT TGTGGTATTA AACAACTTCA GAAGCAAAAT TATCAAAGTT 
    CAAGTACAGA AGAAGCCTGA TAAAGTGAAT GAAGAGCTTC TTACAGATGA AACAACAGGA 
    AAAAAAGGAA ATATGGAATC AGTTGCAAGA TTTTCAGAAG ACATTCCAAC TGATGAGAAG 
    GAAAAGAAGA GTGATATTAA CATTTTTTCT GTTGCTTCAG GCCATTTATA TGAACGTTTT 
    TTAAGAATTA TGATGCTTTC TGTCCTACGT CATACAAAAA CACCAGTTAA ATTTTGGTTT 
    CTGAAAAACT ATCTCTCCCC AACATTTAAG GATGTAATTC CTCACATGGC TAAAAAGTAT 
    GGGTTCAAGT ATGAGTTGGT CCAGTATAAG TGGCCCCGCT GGCTTTATCA ACAGACAGAA 
    AAGCAAAGAA TTATCTGGGG CTACAAAATT CTTTTCTTGG ATGTTCTTTT CCCTTTGGCT 
    GTGGATAAAA TAATATTTGT CGATGCTGAC CAGATTGTGA GGAGTGACCT GAAAGAGCTC 
    AGAGACCTAG ATCTGAATGG AGCTCCCTAT GGATACACTC CTTTCTGTGA CAGCCGCAGA 
    GAGATGGACG GGTACCGCTT CTGGAAATCG GGATACTGGG CTTCACACCT CGGGAAAAGG 
    AAATACCATA TTAGTGCCTT GTATGTTGTG GACCTGAAGA AGTTCAGGAA GATTGCAGCT 
    GGAGACAGGC TTCGGGGCCA GTACCAGGCT CTTAGTCAGG ATCCAAACAG TCTGTCAAAT 
    CTAGATCAGG ATCTTCCCAA TAATATGATT CATCAAGTAG CCATTAAGTC TCTCCCTCAG 
    GAGTGGCTTT GGTGTGAAAC CTGGTGTGAT GATAAATCCA AGAAAAAGGC TAAGACAATA 
    GACCTGTGCA ACAACCCCCA AACCAAAGAA CCAAAACTAA AGGCTGCTGC CCGGATAGTT 
    CCTGAATGGG TTGAATATGA CTCTGAGATC CGAAACTTAA TACAGCAAAT TGAAAGAGAG 
    AAGAAAAATC TAACATCATT ATTTCAAAAA GGGCTCAAGC ACGATGAACT TTAG

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

    UGGT2 ( XM_030276225.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030132085.1 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OTd25255
    Clone ID Related Accession (Same CDS sequence) XM_030276225.1
    Accession Version XM_030276225.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3807bp)
    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 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044211.1) 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
    ATGGCGGGCT GGGCGCCGCT GCCGGCGGCG CTGCTGCTCG CCCTGCTGTG TACCCGGCCG 
    TGCCCCTGCG GCCCCGCTCC GGCCTCCTCT CCGCCTGTGA CCGCCCGCCT GGCGGCGAAG 
    TGGCCGGCGA CCCCGCTGCT GCTGGAGGCG AGTGAATTTA TTGCAGAAGA TGGTAATGAG 
    AAGTTTTGGC AGTTCTTGGA AACTGTGCGA GAGTTAACAG TTTATAAGCA AGGAGATTCA 
    GAGTACTCCT ATTACAATTT AATCTTGAAG AAAGCAGGAC AATTTTTATC CAATTTGCAA 
    ATCAACCTGT TGAAGTTTGC ACTTTCCATA CGGGCTTATT CTCCAAGTGT TCAGATGTTT 
    CAGCAGATTG CAGCTGATGA ACCTCCACCA GAAGGCTGCA GTGCATTTGT GGTTATCCAT 
    GAGAAGTACA CCTGTAAGAC TAATGAAATA AAAAAGCTGC TGAAGAAGGC TACTAAGAGA 
    CCCAGGCCGT ATCTTTTTAA GGGAGATCAT AAATTCCCAA CTCTCAAAGA GGATGGCCCA 
    GTGGTTATTC TGTATGCAGA AATGGGTACG AAAGACTTTG TCAAATTCCA CAATATTTTA 
    TCTGAGAGGG CACAAAAGGA GGAAATTGTT TATGTTCTCC GGCATTATGT TCAGCAGAAA 
    CCAAAGTCCA GGAAAATGTA TTTATCTGGA TATGGTGTGG AACTTGCAAT AAAGAGTACA 
    GAATATAAAG CGGTAGATGA CACGCAGGTT AAAGGAGCAA ATGAGACAAA AGAAGAGGAA 
    GATGAGGAAG AGGAAGAGGA GAGTGATGTC CAAGGATTTC TCTTCGGCAA ATTAAAGCAG 
    ATGCATCCTG ATCTGAAAAA CAATCTGATA GAGTTTAAAA AACATCTAAT TGAAACTACT 
    AACAACATGG AACCACTGAA GGTTTGGGAG ATGCAGGATC TTAGTTTTCA AGCAGCTACT 
    CGAATTATGT CTACCCCTAT TTATGATGCC TTAAAGGTAA TGAAAGACAT CGCTCAGAAC 
    TTCCCAATAA GAGCCAGATC ACTTACAAGA ATACCTGTAG ACAAGAAAAT GCAAAAAGAA 
    ATAGAAGAAA ATCAGAAGCA TTTCCATGAA ACACTTGGAA TTCAACCTGG AGAAGCACGT 
    TTGTTTCTGA ATGGCCTTCA TATTGACCTG GATTTTCAAG ATCCCTTTAG CATTTTAGAG 
    ACTCTTAAAC TGGAAGGAAA AGTGATGCAT GGCCTTCATG AACTTGGAAT CAAAGGAGAG 
    GCCCTGAGTA AATTTATGAG GTTGCATGTA CATCCTAAAG ATAATAATTA TGCACTCGAT 
    ATTCGTCACT CTTCAATAAT ATGGATTAAT AATATAGAAC AAGATCACAG CTATAGCACG 
    TGGCCTGAAA GCTATCAGGA ACTGCTAAAA CCCTCATTTC CTGGATTTTT ACATGAGATT 
    AGGCGCAATT TATATAACTT GGTACTTTTT GTTGATCCTG TCCAAGAAGA TACTGGTGAT 
    TATATGAAGC TGGCAGAATT ATTCTATCAT CATGATGTAC CACTTAGAAT TGGAATTGTT 
    TTTATTTTAA GTACAAAAGA AGAAATTGAT GGAAATGAAG ATGCTGGAGT AGCTCTTTGG 
    AGAACTTTTA ATTACATTGC AGAAGAATCT GACACCTCTC AGGCCTTTAT GTCGATAATT 
    AATATGTACC ATGAAGTGAA AGATGGAAAT GTTCTGACAG TAGATGGTGT GAAACATGTT 
    CTTAGTAGTG AGTACCCCCA TGCTAATGTT CAGAGTATCC TGGATGTTCA TTCTGAATAT 
    GATGAAGGGA GGAAGGCAGG AGCAACCTTT TATAAGAAGA GTGGCCTGGG CCCACTGCCT 
    CAAGCGCTGT TTAATGGCGT GCCCTTTCCC AGAGAGGAGA TGGATGCGGC AGAGCTGGAG 
    ACGCTTATTC TTCAGAGGAT TTTTGATGCC ACCGGCTCCT TCCAGCGGGC AGTGTTCATG 
    GGTTTGTTAG ATGATCATGT AAATGCAGTG GATTTTCTTA TGGATCAGAA CAATGTAGTT 
    TCCCGTATAA ACCCCAGTAT TCTTGGAGCA GAAAGAAGAT ACATACCTTT CAGATTCACT 
    TCTGTTCCAT TCCATGTGGA AGACTTCTCT ACTTTCTCCT TTTTGGACTC ACAAGATAAA 
    AGTGCTGTAA TTTCAGATAA TATGAAGTAT TTAACGAAAA AAGATGAAGA TGCATTGTAT 
    GCTGTTACTG TCTGGATTGT TGCAGATTTT GATAAGCCAG CTGGTAGACA ACTGCTTTCT 
    AATGCCTTGA AAAGCCTGAA AACAAGCAGT CATACACGAG TTGGGATTTT GAACAATCCT 
    TCATCAAAAA TAAAGGAAGA TAACACAGCC ATTGCAAGAG GAATTTTGGC TGCTTTTTTT 
    ACTCAAAACA ACAGCAACTT AAAAAGTTTC CTAAGTAAAC TCAGTAAGGA AGAGACAGCA 
    AAATCCCTTG CTGCTGGAAC TAAAATTGTT AAATTCCTCA TCCCAGGAAT GGATGGTGAT 
    ACTTTTGAGA AGAAGTACAA CACTTTAGGA CTGGATTTAA TTAAAACTCA ACAAATGTTC 
    TGTCAGGAGG TTCTGAAGCT GCTTCCTGGG CAAATGGCTG TTATTAGCAA TGGCAGGGTA 
    CTGGGTCCTT TAGATGAAAA TGAATTCTAT GAAGAAGACT TTAATTTGTT GGAAAAGATA 
    ACATACAGTA CTTCAGCAGA GAAGATTAAA GCCATTGTCA AGGAGATGGG AAACAGTAGT 
    AAAAGTGGCA GTGACTTGAT TATGAAAATA GATGCCCTGC TGTCATCTTT GCCTAAAACA 
    GAAATGAGAC AAGATGTTGA ATTACTCAAA GAACAGCACA GTGTAGTAAA ATTCGAGCCC 
    CAAGAGAATG ACCCATTCTA TGACATCATT GCTATTGTGG ATCCATTGAC AAGAGAAGCA 
    CAGAAGATGA CCCATTTATT GATTGTGCTC AAGGACATTA TTAATATGAA ACTCAGGTTA 
    TTTTTGAACT GCAGATCTAA GCTGTCCGAA GTGCCACTGA AGAGCTTCTA TCGTTTTGTT 
    CTGGAACCAG AATTAACCTA TGGAATCAAT AAGCACCTTC CTTCTGAGCC TGTAGCAAAA 
    TTCCTAGAGT TGCCAGAATC ACCTCTTTTG ACCCTAAACA TGATCACTCC TGAAAGCTGG 
    TTGGTTGAAG CAGTAAATAG TTCCTGTGAC CTTGATAACA TTCATTTGCA GGAAATAAAA 
    GGGGCAGTTA TAGCAGAATA TGAGCTGGAA TATATATTGC TTGAAGGACA TTGCTTTGAT 
    GTGACAACTG GACAACCTCC TCGAGGGTTA CAGTTCACTC TGGGCACAAA GAAGAGTCCT 
    GTCATGGTTG ATACTATTGT GATGGCCAAC CTCGGGTATT TTCAGCTGAA AGCAAATCCA 
    GGTGCTTGGA CGTTGAGATT GCGTAAAGGA AGATCTGAGG AGATTTATCA GGTTTTTTCC 
    CATGAAGGAA CAGATTCTGT AGCTGAGCTG ACAGACGTTA TTGTGGTATT AAACAACTTC 
    AGAAGCAAAA TTATCAAAGT TCAAGTACAG AAGAAGCCTG ATAAAGTGAA TGAAGAGCTT 
    CTTACAGATG AAACAACAGG AAAAAAAGGA AATATGGAAT CAGTTGCAAG ATTTTCAGAA 
    GACATTCCAA CTGATGAGAA GGAAAAGAAG AGTGATATTA ACATTTTTTC TGTTGCTTCA 
    GGCCATTTAT ATGAACGTTT TTTAAGACTT ATATTTCCAC AGAATTATGA TGCTTTCTGT 
    CCTACGTCAT ACAAAAACAC CAGTTAA

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

    RefSeq XP_030132085.1
    CDS31..3837
    Translation

    Target ORF information:

    RefSeq Version XM_030276225.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030276225.1

    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
    ATGGCGGGCT GGGCGCCGCT GCCGGCGGCG CTGCTGCTCG CCCTGCTGTG TACCCGGCCG 
    TGCCCCTGCG GCCCCGCTCC GGCCTCCTCT CCGCCTGTGA CCGCCCGCCT GGCGGCGAAG 
    TGGCCGGCGA CCCCGCTGCT GCTGGAGGCG AGTGAATTTA TTGCAGAAGA TGGTAATGAG 
    AAGTTTTGGC AGTTCTTGGA AACTGTGCGA GAGTTAACAG TTTATAAGCA AGGAGATTCA 
    GAGTACTCCT ATTACAATTT AATCTTGAAG AAAGCAGGAC AATTTTTATC CAATTTGCAA 
    ATCAACCTGT TGAAGTTTGC ACTTTCCATA CGGGCTTATT CTCCAAGTGT TCAGATGTTT 
    CAGCAGATTG CAGCTGATGA ACCTCCACCA GAAGGCTGCA GTGCATTTGT GGTTATCCAT 
    GAGAAGTACA CCTGTAAGAC TAATGAAATA AAAAAGCTGC TGAAGAAGGC TACTAAGAGA 
    CCCAGGCCGT ATCTTTTTAA GGGAGATCAT AAATTCCCAA CTCTCAAAGA GGATGGCCCA 
    GTGGTTATTC TGTATGCAGA AATGGGTACG AAAGACTTTG TCAAATTCCA CAATATTTTA 
    TCTGAGAGGG CACAAAAGGA GGAAATTGTT TATGTTCTCC GGCATTATGT TCAGCAGAAA 
    CCAAAGTCCA GGAAAATGTA TTTATCTGGA TATGGTGTGG AACTTGCAAT AAAGAGTACA 
    GAATATAAAG CGGTAGATGA CACGCAGGTT AAAGGAGCAA ATGAGACAAA AGAAGAGGAA 
    GATGAGGAAG AGGAAGAGGA GAGTGATGTC CAAGGATTTC TCTTCGGCAA ATTAAAGCAG 
    ATGCATCCTG ATCTGAAAAA CAATCTGATA GAGTTTAAAA AACATCTAAT TGAAACTACT 
    AACAACATGG AACCACTGAA GGTTTGGGAG ATGCAGGATC TTAGTTTTCA AGCAGCTACT 
    CGAATTATGT CTACCCCTAT TTATGATGCC TTAAAGGTAA TGAAAGACAT CGCTCAGAAC 
    TTCCCAATAA GAGCCAGATC ACTTACAAGA ATACCTGTAG ACAAGAAAAT GCAAAAAGAA 
    ATAGAAGAAA ATCAGAAGCA TTTCCATGAA ACACTTGGAA TTCAACCTGG AGAAGCACGT 
    TTGTTTCTGA ATGGCCTTCA TATTGACCTG GATTTTCAAG ATCCCTTTAG CATTTTAGAG 
    ACTCTTAAAC TGGAAGGAAA AGTGATGCAT GGCCTTCATG AACTTGGAAT CAAAGGAGAG 
    GCCCTGAGTA AATTTATGAG GTTGCATGTA CATCCTAAAG ATAATAATTA TGCACTCGAT 
    ATTCGTCACT CTTCAATAAT ATGGATTAAT AATATAGAAC AAGATCACAG CTATAGCACG 
    TGGCCTGAAA GCTATCAGGA ACTGCTAAAA CCCTCATTTC CTGGATTTTT ACATGAGATT 
    AGGCGCAATT TATATAACTT GGTACTTTTT GTTGATCCTG TCCAAGAAGA TACTGGTGAT 
    TATATGAAGC TGGCAGAATT ATTCTATCAT CATGATGTAC CACTTAGAAT TGGAATTGTT 
    TTTATTTTAA GTACAAAAGA AGAAATTGAT GGAAATGAAG ATGCTGGAGT AGCTCTTTGG 
    AGAACTTTTA ATTACATTGC AGAAGAATCT GACACCTCTC AGGCCTTTAT GTCGATAATT 
    AATATGTACC ATGAAGTGAA AGATGGAAAT GTTCTGACAG TAGATGGTGT GAAACATGTT 
    CTTAGTAGTG AGTACCCCCA TGCTAATGTT CAGAGTATCC TGGATGTTCA TTCTGAATAT 
    GATGAAGGGA GGAAGGCAGG AGCAACCTTT TATAAGAAGA GTGGCCTGGG CCCACTGCCT 
    CAAGCGCTGT TTAATGGCGT GCCCTTTCCC AGAGAGGAGA TGGATGCGGC AGAGCTGGAG 
    ACGCTTATTC TTCAGAGGAT TTTTGATGCC ACCGGCTCCT TCCAGCGGGC AGTGTTCATG 
    GGTTTGTTAG ATGATCATGT AAATGCAGTG GATTTTCTTA TGGATCAGAA CAATGTAGTT 
    TCCCGTATAA ACCCCAGTAT TCTTGGAGCA GAAAGAAGAT ACATACCTTT CAGATTCACT 
    TCTGTTCCAT TCCATGTGGA AGACTTCTCT ACTTTCTCCT TTTTGGACTC ACAAGATAAA 
    AGTGCTGTAA TTTCAGATAA TATGAAGTAT TTAACGAAAA AAGATGAAGA TGCATTGTAT 
    GCTGTTACTG TCTGGATTGT TGCAGATTTT GATAAGCCAG CTGGTAGACA ACTGCTTTCT 
    AATGCCTTGA AAAGCCTGAA AACAAGCAGT CATACACGAG TTGGGATTTT GAACAATCCT 
    TCATCAAAAA TAAAGGAAGA TAACACAGCC ATTGCAAGAG GAATTTTGGC TGCTTTTTTT 
    ACTCAAAACA ACAGCAACTT AAAAAGTTTC CTAAGTAAAC TCAGTAAGGA AGAGACAGCA 
    AAATCCCTTG CTGCTGGAAC TAAAATTGTT AAATTCCTCA TCCCAGGAAT GGATGGTGAT 
    ACTTTTGAGA AGAAGTACAA CACTTTAGGA CTGGATTTAA TTAAAACTCA ACAAATGTTC 
    TGTCAGGAGG TTCTGAAGCT GCTTCCTGGG CAAATGGCTG TTATTAGCAA TGGCAGGGTA 
    CTGGGTCCTT TAGATGAAAA TGAATTCTAT GAAGAAGACT TTAATTTGTT GGAAAAGATA 
    ACATACAGTA CTTCAGCAGA GAAGATTAAA GCCATTGTCA AGGAGATGGG AAACAGTAGT 
    AAAAGTGGCA GTGACTTGAT TATGAAAATA GATGCCCTGC TGTCATCTTT GCCTAAAACA 
    GAAATGAGAC AAGATGTTGA ATTACTCAAA GAACAGCACA GTGTAGTAAA ATTCGAGCCC 
    CAAGAGAATG ACCCATTCTA TGACATCATT GCTATTGTGG ATCCATTGAC AAGAGAAGCA 
    CAGAAGATGA CCCATTTATT GATTGTGCTC AAGGACATTA TTAATATGAA ACTCAGGTTA 
    TTTTTGAACT GCAGATCTAA GCTGTCCGAA GTGCCACTGA AGAGCTTCTA TCGTTTTGTT 
    CTGGAACCAG AATTAACCTA TGGAATCAAT AAGCACCTTC CTTCTGAGCC TGTAGCAAAA 
    TTCCTAGAGT TGCCAGAATC ACCTCTTTTG ACCCTAAACA TGATCACTCC TGAAAGCTGG 
    TTGGTTGAAG CAGTAAATAG TTCCTGTGAC CTTGATAACA TTCATTTGCA GGAAATAAAA 
    GGGGCAGTTA TAGCAGAATA TGAGCTGGAA TATATATTGC TTGAAGGACA TTGCTTTGAT 
    GTGACAACTG GACAACCTCC TCGAGGGTTA CAGTTCACTC TGGGCACAAA GAAGAGTCCT 
    GTCATGGTTG ATACTATTGT GATGGCCAAC CTCGGGTATT TTCAGCTGAA AGCAAATCCA 
    GGTGCTTGGA CGTTGAGATT GCGTAAAGGA AGATCTGAGG AGATTTATCA GGTTTTTTCC 
    CATGAAGGAA CAGATTCTGT AGCTGAGCTG ACAGACGTTA TTGTGGTATT AAACAACTTC 
    AGAAGCAAAA TTATCAAAGT TCAAGTACAG AAGAAGCCTG ATAAAGTGAA TGAAGAGCTT 
    CTTACAGATG AAACAACAGG AAAAAAAGGA AATATGGAAT CAGTTGCAAG ATTTTCAGAA 
    GACATTCCAA CTGATGAGAA GGAAAAGAAG AGTGATATTA ACATTTTTTC TGTTGCTTCA 
    GGCCATTTAT ATGAACGTTT TTTAAGACTT ATATTTCCAC AGAATTATGA TGCTTTCTGT 
    CCTACGTCAT ACAAAAACAC CAGTTAA

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

    UGGT2 ( XM_002196765.3 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002196801.2 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), mRNA.
    Price & Availability↑
    CloneID OTd04453
    Clone ID Related Accession (Same CDS sequence) XM_002196765.3
    Accession Version XM_002196765.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4608bp)
    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 2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197680.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_002196765.2. ##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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCTGTGT GGGCGGGGCG TCCCCGAGCC CCGCTGCTCC TCATGGCGGG CTGGGCGCCG 
    CTGCCCGCGG CGCTGCTGCT CGCCCTGCTG TGTACCCGGC CGTGCCCCTG CGGCCCCGCT 
    CCGGCCTCCT CTCCGCCTGT GACCGCCCGC CTGGCGGCGA AGTGGCCGGC GACCCCGCTG 
    CTGCTGGAGG CGAGTGAATT TATTGCAGAA GATGGTAATG AGAAGTTTTG GCAGTTCTTG 
    GAAACTGTGC GAGAGTTAAC GGTTTATAAG CAAGGAGATT CAGAGTACTC CTATTACAAT 
    TTAATCTTGA AGAAAGCAGG ACAATTTTTA TCCAATTTGC AAATCAACCT GTTGAAGTTT 
    GCACTTTCCA TACGGGCTTA TTCTCCAAGT GTTCAGATGT TTCAGCAGAT TGCAGCTGAT 
    GAACCTCCAC CAGAAGGCTG CAGTGCATTT GTGGTTATCC ATGAGAAGTA CACCTGTAAG 
    ACTAATGAAA TAAAAAAGCT GCTGAAGAAG GCTACTAAGA GACCCAGGCC GTATCTTTTT 
    AAGGGAGATC ATAAATTCCC AACTCTCAAA GAGGATGGCC CAGTGGTTAT TCTGTATGCA 
    GAAATGGGTA CGAAAGACTT TGTCAAATTC CACAATATTT TATCTGAGAG GGCACAAAAG 
    GAGGAAATTG TTTATGTTCT CCGGCATTAT GTTCAGAAAC CAAAGTCCAG GAAAATGTAT 
    TTATCTGGAT ATGGTGTGGA ACTTGCAATA AAGAGTACAG AATATAAAGC GGTAGATGAC 
    ACGCAGGTTA AAGGAGCAAA TGAGACAAAA GAAGAGGAAG ATGAGGAAGA GGAGAGTGAT 
    GTCCAAGGAT TTCTCTTCGG CAAATTAAAG CAGATGCATC CTGATCTGAA AAACAATCTG 
    ATAGAGTTTA AAAAACATCT AATTGAAACT ACTAACAACA TGGAACCACT GAAGGTTTGG 
    GAGATGCAGG ATCTTAGTTT TCAAGCAGCT ACTCGAATTA TGTCTACCCC TATTTATGAT 
    GCCTTAAAGG TAATGAAAGA CATCGCTCAG AACTTCCCAA TAAGAGCCAG ATCACTTACA 
    AGAATACCTG TAGACAAGAA AATGCAAAAA GAAATAGAAG AAAATCAGAA GCATTTCCAT 
    GAAACACTTG GAATTCAACC TGGAGAAGCA CGTTTGTTTC TGAATGGCCT TCATATTGAC 
    CTGGATTTTC AAGATCCCTT TAGCATTTTA GAGACTCTTA AACTGGAAGG AAAAGTGATG 
    CATGGCCTTC ATGAACTTGG AATCAAAGGA GAGGCCCTGA GTAAATTTAT GAGGTTGCAT 
    GTACATCCTA AAGATAATAA TTATGCACTC GATATTCGTC ACTCTTCAAT AATATGGATT 
    AATAATATAG AACAAGATCA CAGCTATAGC ACGTGGCCTG AAAGCTATCA GGAACTGCTA 
    AAACCCTCAT TTCCTGGATT TTTACATGAG ATTAGGCGCA ATTTATATAA CTTGGTACTT 
    TTTGTTGATC CTGTCCAAGA AGATACTGGT GATTATATGA AGCTGGCAGA ATTATTCTAT 
    CATCATGATG TACCACTTAG AATTGGAATT GTTTTTATTT TAAGTACAAA AGAAGAAATT 
    GATGGAAATG AAGATGCTGG AGTAGCTCTT TGGAGAACTT TTAATTACAT TGCAGAAGAA 
    TCTGACACCT CTCAGGCCTT TATGTCGATA ATTAATATGT ACCATGAAGT GAAAGATGGA 
    AATGTTCTGA CAGTAGATGG TGTGAAACAT GTTCTTAGTA GTGAGTACCC CCATGCTAAT 
    GTTCAGAGTA TCCTGGATGT TCATTCTGAA TATGATGAAG GGAGGAAGGC AGGAGCAACC 
    TTTTATAAGA AGAGTGGCCT GGGCCCACTG CCTCAAGCGC TGTTTAATGG CGTGCCCTTT 
    CCCATAGAGG AGATGGATGC GGCAGAGCTG GAGACGCTTA TTCTTCAGAG GATTTTTGAT 
    GCCACCGGCT TCTTCCAGCG GGCAGTGTTC ATGGGTTTGT TAGATGATCA TGTAAATGCA 
    GTGGATTTTC TTATGGATCA GAACAATGTA GTTTCCCGTA TAAACCCCAG TATTCTTGGA 
    GCAGAAAGAA GATATATACC TTTCAGATTC ACTTCTGTTC CATTCCATGT GGAAGACTTC 
    TCTACTTTCT CCTTTTTGGA CTCACAAGAT AAAAGTGCTG TAATTTCAGA TAATATGAAG 
    TATTTAACGA AAAAAGATGA AGATGCATTG TATGCTGTTA CTGTCTGGAT TGTTGCGGAT 
    TTTGATAAGC CAGCTGGTAG ACAACTGCTT TCTAATGCCT TGAAAAGCCT GAAAACAAGC 
    AGTCATACAC GAGTTGGGAT TTTGAACAAT CCTTCATCAA AAATAAAGGA AGATAACACA 
    GCCATTGCAA GAGGAATTTT GGCTGCTTTT TTTACTCAAA ACAACAGCAA CTTAAAAAGT 
    TTCCTAAGTA AACTCAGTAA GGAAGAGACA GCAAAATCCC TTGCTGCTGG AACTAAAATT 
    GTTAAATTCC TCATCCCAGG AATGGATGGT GATACTTTTG AGAAGAAGTA CAACACTTTA 
    GGACTGGATT TAATTAAAAC TCAACAAATG TTCTGCCAGG AGGTTCTGAA GCTGCTTCCT 
    GGGCAAATGG CTGTTATTAG CAATGGCAGG GTACTGGGTC CTTTAGATGA AAATGAATTC 
    TATGAAGAAG ACTTTAATTT GTTGGAAAAG ATAACATACA GTACTTCAGC AGAGAAGATT 
    AAAGCCATTG TCAAGGAGAT GGGAAACAGT AGTAAAAGTG GCAGTGACTT GATTATGAAA 
    ATAGATGCCC TGCTGTCATC TTTGCCTAAA ACAGAAATGA GACAAGATGT TGAATTACTC 
    AAAGAACAGC ACAGTGTAGT AAAATTCGAG CCCCAAGAGA ATGACCCATT CTATGACATC 
    ATTGCTATTG TGGATCCATT GACAAGAGAA GCACAGAAGA TGACCCATTT ATTGATTGTG 
    CTCAAGGACA TTATTAATAT GAAACTCAGG TTATTTTTGA ACTGCAGATC TAAGCTGTCC 
    GAAGTGCCAC TGAAGAGCTT CTATCGTTTT GTTCTGGAAC CAGAATTAAC TTATGGAATC 
    AATAAGCACC TTCCTTCTGA GCCTGTAGCA AAATTCCTAG AGTTGCCAGA ATCACCTCTT 
    TTGACCCTAA ACATGATCAC TCCTGAAAGC TGGTTGGTTG AAGCAGTAAA TAGTTCCTGT 
    GACCTTGATA ACATTCATTT GCAGGAAATA AAAGGGGCAG TTATAGCAGA ATATGAGCTG 
    GAATATATAT TGCTTGAAGG ACATTGCTTT GATGTGACAA CTGGACAACC TCCTCGAGGG 
    TTACAGTTCA CTCTGGGCAC AAAGAAGAGT CCTGTCATGG TTGATACTAT TGTGATGGCC 
    AACCTTGGGT ATTTTCAGCT GAAAGCAAAT CCAGGTGCTT GGACGTTGAG ATTGCGTAAA 
    GGAAGATCTG AGGAGATTTA TCAGGTTTTT TCCCATGAAG GAACAGATTC TGTAGCTGAC 
    CTGACAGACG TTATTGTGGT ATTAAACAAC TTCAGAAGCA AAATTATCAA AGTTCAAGTA 
    CAGAAGAAGC CTGATAAAGT GAATGAAGAG CTTCTTACAG ATGAAACAAC AGGAAAAAAA 
    GGAAATATGG AATCAGTTGC AAGATTTTCA GAAGACATTC CAACTGATGA GAAGGAAAAG 
    AAGAGTGATA TTAACATTTT TTCTGTTGCT TCAGGCCATT TATATGAACG TTTTTTAAGA 
    ATTATGATGC TTTCTGTCCT ACGTCATACA AAAACACCAG TTAAATTTTG GTTTCTGAAA 
    AACTATCTCT CCCCAACATT TAAGGATGTA ATTCCTCACA TGGCTAAAAA GTATGGGTTC 
    AAGTATGAGT TGGTCCAGTA TAAGTGGCCC CGCTGGCTTT ATCAACAGAC AGAAAAGCAA 
    AGAATTATCT GGGGCTACAA AATTCTTTTC TTGGATGTTC TTTTCCCTTT GGCTGTGGAT 
    AAAATAATAT TTGTCGATGC TGACCAGATT GTGAGGAGTG ACCTGAAAGA GCTCAGAGAC 
    CTAGATCTGA ATGGAGCTCC CTATGGATAC ACTCCTTTCT GTGACAGCCG CAGAGAGATG 
    GACGGGTACC GCTTCTGGAA ATCGGGATAC TGGGCTTCAC ACCTCGGGAA AAGGAAATAC 
    CATATTAGTG CCTTGTATGT TGTGGACCTG AAGAAGTTCA GGAAGATTGC AGCTGGAGAC 
    AGGCTTCGGG GCCAGTACCA GGCTCTTAGT CAGGATCCAA ACAGTCTGTC AAATCTAGAT 
    CAGGATCTTC CCAATAATAT GATTCATCAA GTAGCCATTA AGTCTCTCCC TCAGGAGTGG 
    CTTTGGTGTG AAACCTGGTG TGATGATAAA TCCAAGAAAA AGGCTAAGAC AATAGACCTG 
    TGCAACAACC CCCAAACCAA AGAACCAAAA CTAAAGGCTG CTGCCCGGAT AGTTCCTGAA 
    TGGGTTGAAT ATGACTCTGA GATCCGAAAC TTAATACAGC AAATTGAAAG AGAGAAGAAA 
    AATCTAACAT CATTATTTCA AAAAGGGCTC AAGCACGATG AACTTTAG

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

    RefSeq XP_002196801.2
    CDS1..4608
    Translation

    Target ORF information:

    RefSeq Version XM_002196765.3
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002196765.3

    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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCTGTGT GGGCGGGGCG TCCCCGAGCC CCGCTGCTCC TCATGGCGGG CTGGGCGCCG 
    CTGCCCGCGG CGCTGCTGCT CGCCCTGCTG TGTACCCGGC CGTGCCCCTG CGGCCCCGCT 
    CCGGCCTCCT CTCCGCCTGT GACCGCCCGC CTGGCGGCGA AGTGGCCGGC GACCCCGCTG 
    CTGCTGGAGG CGAGTGAATT TATTGCAGAA GATGGTAATG AGAAGTTTTG GCAGTTCTTG 
    GAAACTGTGC GAGAGTTAAC GGTTTATAAG CAAGGAGATT CAGAGTACTC CTATTACAAT 
    TTAATCTTGA AGAAAGCAGG ACAATTTTTA TCCAATTTGC AAATCAACCT GTTGAAGTTT 
    GCACTTTCCA TACGGGCTTA TTCTCCAAGT GTTCAGATGT TTCAGCAGAT TGCAGCTGAT 
    GAACCTCCAC CAGAAGGCTG CAGTGCATTT GTGGTTATCC ATGAGAAGTA CACCTGTAAG 
    ACTAATGAAA TAAAAAAGCT GCTGAAGAAG GCTACTAAGA GACCCAGGCC GTATCTTTTT 
    AAGGGAGATC ATAAATTCCC AACTCTCAAA GAGGATGGCC CAGTGGTTAT TCTGTATGCA 
    GAAATGGGTA CGAAAGACTT TGTCAAATTC CACAATATTT TATCTGAGAG GGCACAAAAG 
    GAGGAAATTG TTTATGTTCT CCGGCATTAT GTTCAGAAAC CAAAGTCCAG GAAAATGTAT 
    TTATCTGGAT ATGGTGTGGA ACTTGCAATA AAGAGTACAG AATATAAAGC GGTAGATGAC 
    ACGCAGGTTA AAGGAGCAAA TGAGACAAAA GAAGAGGAAG ATGAGGAAGA GGAGAGTGAT 
    GTCCAAGGAT TTCTCTTCGG CAAATTAAAG CAGATGCATC CTGATCTGAA AAACAATCTG 
    ATAGAGTTTA AAAAACATCT AATTGAAACT ACTAACAACA TGGAACCACT GAAGGTTTGG 
    GAGATGCAGG ATCTTAGTTT TCAAGCAGCT ACTCGAATTA TGTCTACCCC TATTTATGAT 
    GCCTTAAAGG TAATGAAAGA CATCGCTCAG AACTTCCCAA TAAGAGCCAG ATCACTTACA 
    AGAATACCTG TAGACAAGAA AATGCAAAAA GAAATAGAAG AAAATCAGAA GCATTTCCAT 
    GAAACACTTG GAATTCAACC TGGAGAAGCA CGTTTGTTTC TGAATGGCCT TCATATTGAC 
    CTGGATTTTC AAGATCCCTT TAGCATTTTA GAGACTCTTA AACTGGAAGG AAAAGTGATG 
    CATGGCCTTC ATGAACTTGG AATCAAAGGA GAGGCCCTGA GTAAATTTAT GAGGTTGCAT 
    GTACATCCTA AAGATAATAA TTATGCACTC GATATTCGTC ACTCTTCAAT AATATGGATT 
    AATAATATAG AACAAGATCA CAGCTATAGC ACGTGGCCTG AAAGCTATCA GGAACTGCTA 
    AAACCCTCAT TTCCTGGATT TTTACATGAG ATTAGGCGCA ATTTATATAA CTTGGTACTT 
    TTTGTTGATC CTGTCCAAGA AGATACTGGT GATTATATGA AGCTGGCAGA ATTATTCTAT 
    CATCATGATG TACCACTTAG AATTGGAATT GTTTTTATTT TAAGTACAAA AGAAGAAATT 
    GATGGAAATG AAGATGCTGG AGTAGCTCTT TGGAGAACTT TTAATTACAT TGCAGAAGAA 
    TCTGACACCT CTCAGGCCTT TATGTCGATA ATTAATATGT ACCATGAAGT GAAAGATGGA 
    AATGTTCTGA CAGTAGATGG TGTGAAACAT GTTCTTAGTA GTGAGTACCC CCATGCTAAT 
    GTTCAGAGTA TCCTGGATGT TCATTCTGAA TATGATGAAG GGAGGAAGGC AGGAGCAACC 
    TTTTATAAGA AGAGTGGCCT GGGCCCACTG CCTCAAGCGC TGTTTAATGG CGTGCCCTTT 
    CCCATAGAGG AGATGGATGC GGCAGAGCTG GAGACGCTTA TTCTTCAGAG GATTTTTGAT 
    GCCACCGGCT TCTTCCAGCG GGCAGTGTTC ATGGGTTTGT TAGATGATCA TGTAAATGCA 
    GTGGATTTTC TTATGGATCA GAACAATGTA GTTTCCCGTA TAAACCCCAG TATTCTTGGA 
    GCAGAAAGAA GATATATACC TTTCAGATTC ACTTCTGTTC CATTCCATGT GGAAGACTTC 
    TCTACTTTCT CCTTTTTGGA CTCACAAGAT AAAAGTGCTG TAATTTCAGA TAATATGAAG 
    TATTTAACGA AAAAAGATGA AGATGCATTG TATGCTGTTA CTGTCTGGAT TGTTGCGGAT 
    TTTGATAAGC CAGCTGGTAG ACAACTGCTT TCTAATGCCT TGAAAAGCCT GAAAACAAGC 
    AGTCATACAC GAGTTGGGAT TTTGAACAAT CCTTCATCAA AAATAAAGGA AGATAACACA 
    GCCATTGCAA GAGGAATTTT GGCTGCTTTT TTTACTCAAA ACAACAGCAA CTTAAAAAGT 
    TTCCTAAGTA AACTCAGTAA GGAAGAGACA GCAAAATCCC TTGCTGCTGG AACTAAAATT 
    GTTAAATTCC TCATCCCAGG AATGGATGGT GATACTTTTG AGAAGAAGTA CAACACTTTA 
    GGACTGGATT TAATTAAAAC TCAACAAATG TTCTGCCAGG AGGTTCTGAA GCTGCTTCCT 
    GGGCAAATGG CTGTTATTAG CAATGGCAGG GTACTGGGTC CTTTAGATGA AAATGAATTC 
    TATGAAGAAG ACTTTAATTT GTTGGAAAAG ATAACATACA GTACTTCAGC AGAGAAGATT 
    AAAGCCATTG TCAAGGAGAT GGGAAACAGT AGTAAAAGTG GCAGTGACTT GATTATGAAA 
    ATAGATGCCC TGCTGTCATC TTTGCCTAAA ACAGAAATGA GACAAGATGT TGAATTACTC 
    AAAGAACAGC ACAGTGTAGT AAAATTCGAG CCCCAAGAGA ATGACCCATT CTATGACATC 
    ATTGCTATTG TGGATCCATT GACAAGAGAA GCACAGAAGA TGACCCATTT ATTGATTGTG 
    CTCAAGGACA TTATTAATAT GAAACTCAGG TTATTTTTGA ACTGCAGATC TAAGCTGTCC 
    GAAGTGCCAC TGAAGAGCTT CTATCGTTTT GTTCTGGAAC CAGAATTAAC TTATGGAATC 
    AATAAGCACC TTCCTTCTGA GCCTGTAGCA AAATTCCTAG AGTTGCCAGA ATCACCTCTT 
    TTGACCCTAA ACATGATCAC TCCTGAAAGC TGGTTGGTTG AAGCAGTAAA TAGTTCCTGT 
    GACCTTGATA ACATTCATTT GCAGGAAATA AAAGGGGCAG TTATAGCAGA ATATGAGCTG 
    GAATATATAT TGCTTGAAGG ACATTGCTTT GATGTGACAA CTGGACAACC TCCTCGAGGG 
    TTACAGTTCA CTCTGGGCAC AAAGAAGAGT CCTGTCATGG TTGATACTAT TGTGATGGCC 
    AACCTTGGGT ATTTTCAGCT GAAAGCAAAT CCAGGTGCTT GGACGTTGAG ATTGCGTAAA 
    GGAAGATCTG AGGAGATTTA TCAGGTTTTT TCCCATGAAG GAACAGATTC TGTAGCTGAC 
    CTGACAGACG TTATTGTGGT ATTAAACAAC TTCAGAAGCA AAATTATCAA AGTTCAAGTA 
    CAGAAGAAGC CTGATAAAGT GAATGAAGAG CTTCTTACAG ATGAAACAAC AGGAAAAAAA 
    GGAAATATGG AATCAGTTGC AAGATTTTCA GAAGACATTC CAACTGATGA GAAGGAAAAG 
    AAGAGTGATA TTAACATTTT TTCTGTTGCT TCAGGCCATT TATATGAACG TTTTTTAAGA 
    ATTATGATGC TTTCTGTCCT ACGTCATACA AAAACACCAG TTAAATTTTG GTTTCTGAAA 
    AACTATCTCT CCCCAACATT TAAGGATGTA ATTCCTCACA TGGCTAAAAA GTATGGGTTC 
    AAGTATGAGT TGGTCCAGTA TAAGTGGCCC CGCTGGCTTT ATCAACAGAC AGAAAAGCAA 
    AGAATTATCT GGGGCTACAA AATTCTTTTC TTGGATGTTC TTTTCCCTTT GGCTGTGGAT 
    AAAATAATAT TTGTCGATGC TGACCAGATT GTGAGGAGTG ACCTGAAAGA GCTCAGAGAC 
    CTAGATCTGA ATGGAGCTCC CTATGGATAC ACTCCTTTCT GTGACAGCCG CAGAGAGATG 
    GACGGGTACC GCTTCTGGAA ATCGGGATAC TGGGCTTCAC ACCTCGGGAA AAGGAAATAC 
    CATATTAGTG CCTTGTATGT TGTGGACCTG AAGAAGTTCA GGAAGATTGC AGCTGGAGAC 
    AGGCTTCGGG GCCAGTACCA GGCTCTTAGT CAGGATCCAA ACAGTCTGTC AAATCTAGAT 
    CAGGATCTTC CCAATAATAT GATTCATCAA GTAGCCATTA AGTCTCTCCC TCAGGAGTGG 
    CTTTGGTGTG AAACCTGGTG TGATGATAAA TCCAAGAAAA AGGCTAAGAC AATAGACCTG 
    TGCAACAACC CCCAAACCAA AGAACCAAAA CTAAAGGCTG CTGCCCGGAT AGTTCCTGAA 
    TGGGTTGAAT ATGACTCTGA GATCCGAAAC TTAATACAGC AAATTGAAAG AGAGAAGAAA 
    AATCTAACAT CATTATTTCA AAAAGGGCTC AAGCACGATG AACTTTAG

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

    UGGT2 ( XM_030276202.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030132062.1 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OTd25252
    Clone ID Related Accession (Same CDS sequence) XM_030276202.1
    Accession Version XM_030276202.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4575bp)
    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 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044211.1) 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
    ATGGCGGGCT GGGCGCCGCT GCCGGCGGCG CTGCTGCTCG CCCTGCTGTG TACCCGGCCG 
    TGCCCCTGCG GCCCCGCTCC GGCCTCCTCT CCGCCTGTGA CCGCCCGCCT GGCGGCGAAG 
    TGGCCGGCGA CCCCGCTGCT GCTGGAGGCG AGTGAATTTA TTGCAGAAGA TGGTAATGAG 
    AAGTTTTGGC AGTTCTTGGA AACTGTGCGA GAGTTAACAG TTTATAAGCA AGGAGATTCA 
    GAGTACTCCT ATTACAATTT AATCTTGAAG AAAGCAGGAC AATTTTTATC CAATTTGCAA 
    ATCAACCTGT TGAAGTTTGC ACTTTCCATA CGGGCTTATT CTCCAAGTGT TCAGATGTTT 
    CAGCAGATTG CAGCTGATGA ACCTCCACCA GAAGGCTGCA GTGCATTTGT GGTTATCCAT 
    GAGAAGTACA CCTGTAAGAC TAATGAAATA AAAAAGCTGC TGAAGAAGGC TACTAAGAGA 
    CCCAGGCCGT ATCTTTTTAA GGGAGATCAT AAATTCCCAA CTCTCAAAGA GGATGGCCCA 
    GTGGTTATTC TGTATGCAGA AATGGGTACG AAAGACTTTG TCAAATTCCA CAATATTTTA 
    TCTGAGAGGG CACAAAAGGA GGAAATTGTT TATGTTCTCC GGCATTATGT TCAGCAGAAA 
    CCAAAGTCCA GGAAAATGTA TTTATCTGGA TATGGTGTGG AACTTGCAAT AAAGAGTACA 
    GAATATAAAG CGGTAGATGA CACGCAGGTT AAAGGAGCAA ATGAGACAAA AGAAGAGGAA 
    GATGAGGAAG AGGAAGAGGA GAGTGATGTC CAAGGATTTC TCTTCGGCAA ATTAAAGCAG 
    ATGCATCCTG ATCTGAAAAA CAATCTGATA GAGTTTAAAA AACATCTAAT TGAAACTACT 
    AACAACATGG AACCACTGAA GGTTTGGGAG ATGCAGGATC TTAGTTTTCA AGCAGCTACT 
    CGAATTATGT CTACCCCTAT TTATGATGCC TTAAAGGTAA TGAAAGACAT CGCTCAGAAC 
    TTCCCAATAA GAGCCAGATC ACTTACAAGA ATACCTGTAG ACAAGAAAAT GCAAAAAGAA 
    ATAGAAGAAA ATCAGAAGCA TTTCCATGAA ACACTTGGAA TTCAACCTGG AGAAGCACGT 
    TTGTTTCTGA ATGGCCTTCA TATTGACCTG GATTTTCAAG ATCCCTTTAG CATTTTAGAG 
    ACTCTTAAAC TGGAAGGAAA AGTGATGCAT GGCCTTCATG AACTTGGAAT CAAAGGAGAG 
    GCCCTGAGTA AATTTATGAG GTTGCATGTA CATCCTAAAG ATAATAATTA TGCACTCGAT 
    ATTCGTCACT CTTCAATAAT ATGGATTAAT AATATAGAAC AAGATCACAG CTATAGCACG 
    TGGCCTGAAA GCTATCAGGA ACTGCTAAAA CCCTCATTTC CTGGATTTTT ACATGAGATT 
    AGGCGCAATT TATATAACTT GGTACTTTTT GTTGATCCTG TCCAAGAAGA TACTGGTGAT 
    TATATGAAGC TGGCAGAATT ATTCTATCAT CATGATGTAC CACTTAGAAT TGGAATTGTT 
    TTTATTTTAA GTACAAAAGA AGAAATTGAT GGAAATGAAG ATGCTGGAGT AGCTCTTTGG 
    AGAACTTTTA ATTACATTGC AGAAGAATCT GACACCTCTC AGGCCTTTAT GTCGATAATT 
    AATATGTACC ATGAAGTGAA AGATGGAAAT GTTCTGACAG TAGATGGTGT GAAACATGTT 
    CTTAGTAGTG AGTACCCCCA TGCTAATGTT CAGAGTATCC TGGATGTTCA TTCTGAATAT 
    GATGAAGGGA GGAAGGCAGG AGCAACCTTT TATAAGAAGA GTGGCCTGGG CCCACTGCCT 
    CAAGCGCTGT TTAATGGCGT GCCCTTTCCC AGAGAGGAGA TGGATGCGGC AGAGCTGGAG 
    ACGCTTATTC TTCAGAGGAT TTTTGATGCC ACCGGCTCCT TCCAGCGGGC AGTGTTCATG 
    GGTTTGTTAG ATGATCATGT AAATGCAGTG GATTTTCTTA TGGATCAGAA CAATGTAGTT 
    TCCCGTATAA ACCCCAGTAT TCTTGGAGCA GAAAGAAGAT ACATACCTTT CAGATTCACT 
    TCTGTTCCAT TCCATGTGGA AGACTTCTCT ACTTTCTCCT TTTTGGACTC ACAAGATAAA 
    AGTGCTGTAA TTTCAGATAA TATGAAGTAT TTAACGAAAA AAGATGAAGA TGCATTGTAT 
    GCTGTTACTG TCTGGATTGT TGCAGATTTT GATAAGCCAG CTGGTAGACA ACTGCTTTCT 
    AATGCCTTGA AAAGCCTGAA AACAAGCAGT CATACACGAG TTGGGATTTT GAACAATCCT 
    TCATCAAAAA TAAAGGAAGA TAACACAGCC ATTGCAAGAG GAATTTTGGC TGCTTTTTTT 
    ACTCAAAACA ACAGCAACTT AAAAAGTTTC CTAAGTAAAC TCAGTAAGGA AGAGACAGCA 
    AAATCCCTTG CTGCTGGAAC TAAAATTGTT AAATTCCTCA TCCCAGGAAT GGATGGTGAT 
    ACTTTTGAGA AGAAGTACAA CACTTTAGGA CTGGATTTAA TTAAAACTCA ACAAATGTTC 
    TGTCAGGAGG TTCTGAAGCT GCTTCCTGGG CAAATGGCTG TTATTAGCAA TGGCAGGGTA 
    CTGGGTCCTT TAGATGAAAA TGAATTCTAT GAAGAAGACT TTAATTTGTT GGAAAAGATA 
    ACATACAGTA CTTCAGCAGA GAAGATTAAA GCCATTGTCA AGGAGATGGG AAACAGTAGT 
    AAAAGTGGCA GTGACTTGAT TATGAAAATA GATGCCCTGC TGTCATCTTT GCCTAAAACA 
    GAAATGAGAC AAGATGTTGA ATTACTCAAA GAACAGCACA GTGTAGTAAA ATTCGAGCCC 
    CAAGAGAATG ACCCATTCTA TGACATCATT GCTATTGTGG ATCCATTGAC AAGAGAAGCA 
    CAGAAGATGA CCCATTTATT GATTGTGCTC AAGGACATTA TTAATATGAA ACTCAGGTTA 
    TTTTTGAACT GCAGATCTAA GCTGTCCGAA GTGCCACTGA AGAGCTTCTA TCGTTTTGTT 
    CTGGAACCAG AATTAACCTA TGGAATCAAT AAGCACCTTC CTTCTGAGCC TGTAGCAAAA 
    TTCCTAGAGT TGCCAGAATC ACCTCTTTTG ACCCTAAACA TGATCACTCC TGAAAGCTGG 
    TTGGTTGAAG CAGTAAATAG TTCCTGTGAC CTTGATAACA TTCATTTGCA GGAAATAAAA 
    GGGGCAGTTA TAGCAGAATA TGAGCTGGAA TATATATTGC TTGAAGGACA TTGCTTTGAT 
    GTGACAACTG GACAACCTCC TCGAGGGTTA CAGTTCACTC TGGGCACAAA GAAGAGTCCT 
    GTCATGGTTG ATACTATTGT GATGGCCAAC CTCGGGTATT TTCAGCTGAA AGCAAATCCA 
    GGTGCTTGGA CGTTGAGATT GCGTAAAGGA AGATCTGAGG AGATTTATCA GGTTTTTTCC 
    CATGAAGGAA CAGATTCTGT AGCTGAGCTG ACAGACGTTA TTGTGGTATT AAACAACTTC 
    AGAAGCAAAA TTATCAAAGT TCAAGTACAG AAGAAGCCTG ATAAAGTGAA TGAAGAGCTT 
    CTTACAGATG AAACAACAGG AAAAAAAGGA AATATGGAAT CAGTTGCAAG ATTTTCAGAA 
    GACATTCCAA CTGATGAGAA GGAAAAGAAG AGTGATATTA ACATTTTTTC TGTTGCTTCA 
    GGCCATTTAT ATGAACGTTT TTTAAGAATT ATGATGCTTT CTGTCCTACG TCATACAAAA 
    ACACCAGTTA AATTTTGGTT TCTGAAAAAC TATCTCTCCC CAACATTTAA GGATGTAATT 
    CCTCACATGG CTAAAAAGTA TGGGTTCAAG TATGAGTTGG TCCAGTATAA GTGGCCCCGC 
    TGGCTTTATC AACAGACAGA AAAGCAAAGA ATTATCTGGG GCTACAAAAT TCTTTTCTTG 
    GATGTTCTTT TCCCTTTGGC TGTGGATAAA ATAATATTTG TCGATGCTGA CCAGATTGTG 
    AGGAGTGACC TGAAAGAGCT CAGAGACCTA GATCTGAATG GAGCTCCCTA TGGATACACT 
    CCTTTCTGTG ACAGCCGCAG AGAGATGGAC GGGTACCGCT TCTGGAAATC GGGATACTGG 
    GCTTCACACC TCGGGAAAAG GAAATACCAT ATTAGTGCCT TGTATGTTGT GGACCTGAAG 
    AAGTTCAGGA AGATTGCAGC TGGAGACAGG CTTCGGGGCC AGTACCAGGC TCTTAGTCAG 
    GATCCAAACA GTCTGTCAAA TCTAGATCAG GATCTTCCCA ATAATATGAT TCATCAAGTA 
    GCCATTAAGT CTCTCCCTCA GGAGTGGCTT TGGTGTGAAA CCTGGTGTGA TGATAAATCC 
    AAGAAAAAGG CTAAGACAAT AGACCTGTGC AACAACCCCC AAACCAAAGA ACCAAAACTA 
    AAGGCTGCTG CCCGGATAGT TCCTGAATGG GTTGAATATG ACTCTGAGAT CCGAAACTTA 
    ATACAGCAAA TTGAAAGAGA GAAGAAAAAT CTAACATCAT TATTTCAAAA AGGGCTCAAG 
    CACGATGAAC TTTAG

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

    RefSeq XP_030132062.1
    CDS31..4605
    Translation

    Target ORF information:

    RefSeq Version XM_030276202.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030276202.1

    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
    ATGGCGGGCT GGGCGCCGCT GCCGGCGGCG CTGCTGCTCG CCCTGCTGTG TACCCGGCCG 
    TGCCCCTGCG GCCCCGCTCC GGCCTCCTCT CCGCCTGTGA CCGCCCGCCT GGCGGCGAAG 
    TGGCCGGCGA CCCCGCTGCT GCTGGAGGCG AGTGAATTTA TTGCAGAAGA TGGTAATGAG 
    AAGTTTTGGC AGTTCTTGGA AACTGTGCGA GAGTTAACAG TTTATAAGCA AGGAGATTCA 
    GAGTACTCCT ATTACAATTT AATCTTGAAG AAAGCAGGAC AATTTTTATC CAATTTGCAA 
    ATCAACCTGT TGAAGTTTGC ACTTTCCATA CGGGCTTATT CTCCAAGTGT TCAGATGTTT 
    CAGCAGATTG CAGCTGATGA ACCTCCACCA GAAGGCTGCA GTGCATTTGT GGTTATCCAT 
    GAGAAGTACA CCTGTAAGAC TAATGAAATA AAAAAGCTGC TGAAGAAGGC TACTAAGAGA 
    CCCAGGCCGT ATCTTTTTAA GGGAGATCAT AAATTCCCAA CTCTCAAAGA GGATGGCCCA 
    GTGGTTATTC TGTATGCAGA AATGGGTACG AAAGACTTTG TCAAATTCCA CAATATTTTA 
    TCTGAGAGGG CACAAAAGGA GGAAATTGTT TATGTTCTCC GGCATTATGT TCAGCAGAAA 
    CCAAAGTCCA GGAAAATGTA TTTATCTGGA TATGGTGTGG AACTTGCAAT AAAGAGTACA 
    GAATATAAAG CGGTAGATGA CACGCAGGTT AAAGGAGCAA ATGAGACAAA AGAAGAGGAA 
    GATGAGGAAG AGGAAGAGGA GAGTGATGTC CAAGGATTTC TCTTCGGCAA ATTAAAGCAG 
    ATGCATCCTG ATCTGAAAAA CAATCTGATA GAGTTTAAAA AACATCTAAT TGAAACTACT 
    AACAACATGG AACCACTGAA GGTTTGGGAG ATGCAGGATC TTAGTTTTCA AGCAGCTACT 
    CGAATTATGT CTACCCCTAT TTATGATGCC TTAAAGGTAA TGAAAGACAT CGCTCAGAAC 
    TTCCCAATAA GAGCCAGATC ACTTACAAGA ATACCTGTAG ACAAGAAAAT GCAAAAAGAA 
    ATAGAAGAAA ATCAGAAGCA TTTCCATGAA ACACTTGGAA TTCAACCTGG AGAAGCACGT 
    TTGTTTCTGA ATGGCCTTCA TATTGACCTG GATTTTCAAG ATCCCTTTAG CATTTTAGAG 
    ACTCTTAAAC TGGAAGGAAA AGTGATGCAT GGCCTTCATG AACTTGGAAT CAAAGGAGAG 
    GCCCTGAGTA AATTTATGAG GTTGCATGTA CATCCTAAAG ATAATAATTA TGCACTCGAT 
    ATTCGTCACT CTTCAATAAT ATGGATTAAT AATATAGAAC AAGATCACAG CTATAGCACG 
    TGGCCTGAAA GCTATCAGGA ACTGCTAAAA CCCTCATTTC CTGGATTTTT ACATGAGATT 
    AGGCGCAATT TATATAACTT GGTACTTTTT GTTGATCCTG TCCAAGAAGA TACTGGTGAT 
    TATATGAAGC TGGCAGAATT ATTCTATCAT CATGATGTAC CACTTAGAAT TGGAATTGTT 
    TTTATTTTAA GTACAAAAGA AGAAATTGAT GGAAATGAAG ATGCTGGAGT AGCTCTTTGG 
    AGAACTTTTA ATTACATTGC AGAAGAATCT GACACCTCTC AGGCCTTTAT GTCGATAATT 
    AATATGTACC ATGAAGTGAA AGATGGAAAT GTTCTGACAG TAGATGGTGT GAAACATGTT 
    CTTAGTAGTG AGTACCCCCA TGCTAATGTT CAGAGTATCC TGGATGTTCA TTCTGAATAT 
    GATGAAGGGA GGAAGGCAGG AGCAACCTTT TATAAGAAGA GTGGCCTGGG CCCACTGCCT 
    CAAGCGCTGT TTAATGGCGT GCCCTTTCCC AGAGAGGAGA TGGATGCGGC AGAGCTGGAG 
    ACGCTTATTC TTCAGAGGAT TTTTGATGCC ACCGGCTCCT TCCAGCGGGC AGTGTTCATG 
    GGTTTGTTAG ATGATCATGT AAATGCAGTG GATTTTCTTA TGGATCAGAA CAATGTAGTT 
    TCCCGTATAA ACCCCAGTAT TCTTGGAGCA GAAAGAAGAT ACATACCTTT CAGATTCACT 
    TCTGTTCCAT TCCATGTGGA AGACTTCTCT ACTTTCTCCT TTTTGGACTC ACAAGATAAA 
    AGTGCTGTAA TTTCAGATAA TATGAAGTAT TTAACGAAAA AAGATGAAGA TGCATTGTAT 
    GCTGTTACTG TCTGGATTGT TGCAGATTTT GATAAGCCAG CTGGTAGACA ACTGCTTTCT 
    AATGCCTTGA AAAGCCTGAA AACAAGCAGT CATACACGAG TTGGGATTTT GAACAATCCT 
    TCATCAAAAA TAAAGGAAGA TAACACAGCC ATTGCAAGAG GAATTTTGGC TGCTTTTTTT 
    ACTCAAAACA ACAGCAACTT AAAAAGTTTC CTAAGTAAAC TCAGTAAGGA AGAGACAGCA 
    AAATCCCTTG CTGCTGGAAC TAAAATTGTT AAATTCCTCA TCCCAGGAAT GGATGGTGAT 
    ACTTTTGAGA AGAAGTACAA CACTTTAGGA CTGGATTTAA TTAAAACTCA ACAAATGTTC 
    TGTCAGGAGG TTCTGAAGCT GCTTCCTGGG CAAATGGCTG TTATTAGCAA TGGCAGGGTA 
    CTGGGTCCTT TAGATGAAAA TGAATTCTAT GAAGAAGACT TTAATTTGTT GGAAAAGATA 
    ACATACAGTA CTTCAGCAGA GAAGATTAAA GCCATTGTCA AGGAGATGGG AAACAGTAGT 
    AAAAGTGGCA GTGACTTGAT TATGAAAATA GATGCCCTGC TGTCATCTTT GCCTAAAACA 
    GAAATGAGAC AAGATGTTGA ATTACTCAAA GAACAGCACA GTGTAGTAAA ATTCGAGCCC 
    CAAGAGAATG ACCCATTCTA TGACATCATT GCTATTGTGG ATCCATTGAC AAGAGAAGCA 
    CAGAAGATGA CCCATTTATT GATTGTGCTC AAGGACATTA TTAATATGAA ACTCAGGTTA 
    TTTTTGAACT GCAGATCTAA GCTGTCCGAA GTGCCACTGA AGAGCTTCTA TCGTTTTGTT 
    CTGGAACCAG AATTAACCTA TGGAATCAAT AAGCACCTTC CTTCTGAGCC TGTAGCAAAA 
    TTCCTAGAGT TGCCAGAATC ACCTCTTTTG ACCCTAAACA TGATCACTCC TGAAAGCTGG 
    TTGGTTGAAG CAGTAAATAG TTCCTGTGAC CTTGATAACA TTCATTTGCA GGAAATAAAA 
    GGGGCAGTTA TAGCAGAATA TGAGCTGGAA TATATATTGC TTGAAGGACA TTGCTTTGAT 
    GTGACAACTG GACAACCTCC TCGAGGGTTA CAGTTCACTC TGGGCACAAA GAAGAGTCCT 
    GTCATGGTTG ATACTATTGT GATGGCCAAC CTCGGGTATT TTCAGCTGAA AGCAAATCCA 
    GGTGCTTGGA CGTTGAGATT GCGTAAAGGA AGATCTGAGG AGATTTATCA GGTTTTTTCC 
    CATGAAGGAA CAGATTCTGT AGCTGAGCTG ACAGACGTTA TTGTGGTATT AAACAACTTC 
    AGAAGCAAAA TTATCAAAGT TCAAGTACAG AAGAAGCCTG ATAAAGTGAA TGAAGAGCTT 
    CTTACAGATG AAACAACAGG AAAAAAAGGA AATATGGAAT CAGTTGCAAG ATTTTCAGAA 
    GACATTCCAA CTGATGAGAA GGAAAAGAAG AGTGATATTA ACATTTTTTC TGTTGCTTCA 
    GGCCATTTAT ATGAACGTTT TTTAAGAATT ATGATGCTTT CTGTCCTACG TCATACAAAA 
    ACACCAGTTA AATTTTGGTT TCTGAAAAAC TATCTCTCCC CAACATTTAA GGATGTAATT 
    CCTCACATGG CTAAAAAGTA TGGGTTCAAG TATGAGTTGG TCCAGTATAA GTGGCCCCGC 
    TGGCTTTATC AACAGACAGA AAAGCAAAGA ATTATCTGGG GCTACAAAAT TCTTTTCTTG 
    GATGTTCTTT TCCCTTTGGC TGTGGATAAA ATAATATTTG TCGATGCTGA CCAGATTGTG 
    AGGAGTGACC TGAAAGAGCT CAGAGACCTA GATCTGAATG GAGCTCCCTA TGGATACACT 
    CCTTTCTGTG ACAGCCGCAG AGAGATGGAC GGGTACCGCT TCTGGAAATC GGGATACTGG 
    GCTTCACACC TCGGGAAAAG GAAATACCAT ATTAGTGCCT TGTATGTTGT GGACCTGAAG 
    AAGTTCAGGA AGATTGCAGC TGGAGACAGG CTTCGGGGCC AGTACCAGGC TCTTAGTCAG 
    GATCCAAACA GTCTGTCAAA TCTAGATCAG GATCTTCCCA ATAATATGAT TCATCAAGTA 
    GCCATTAAGT CTCTCCCTCA GGAGTGGCTT TGGTGTGAAA CCTGGTGTGA TGATAAATCC 
    AAGAAAAAGG CTAAGACAAT AGACCTGTGC AACAACCCCC AAACCAAAGA ACCAAAACTA 
    AAGGCTGCTG CCCGGATAGT TCCTGAATGG GTTGAATATG ACTCTGAGAT CCGAAACTTA 
    ATACAGCAAA TTGAAAGAGA GAAGAAAAAT CTAACATCAT TATTTCAAAA AGGGCTCAAG 
    CACGATGAAC TTTAG

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

    UGGT2 ( XM_002196765.4 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002196801.3 Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OTd25253
    Clone ID Related Accession (Same CDS sequence) XM_002196765.4
    Accession Version XM_002196765.4 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 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044211.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_002196765.3. ##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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCGGGCT GGGCGCCGCT GCCGGCGGCG CTGCTGCTCG CCCTGCTGTG TACCCGGCCG 
    TGCCCCTGCG GCCCCGCTCC GGCCTCCTCT CCGCCTGTGA CCGCCCGCCT GGCGGCGAAG 
    TGGCCGGCGA CCCCGCTGCT GCTGGAGGCG AGTGAATTTA TTGCAGAAGA TGGTAATGAG 
    AAGTTTTGGC AGTTCTTGGA AACTGTGCGA GAGTTAACAG TTTATAAGCA AGGAGATTCA 
    GAGTACTCCT ATTACAATTT AATCTTGAAG AAAGCAGGAC AATTTTTATC CAATTTGCAA 
    ATCAACCTGT TGAAGTTTGC ACTTTCCATA CGGGCTTATT CTCCAAGTGT TCAGATGTTT 
    CAGCAGATTG CAGCTGATGA ACCTCCACCA GAAGGCTGCA GTGCATTTGT GGTTATCCAT 
    GAGAAGTACA CCTGTAAGAC TAATGAAATA AAAAAGCTGC TGAAGAAGGC TACTAAGAGA 
    CCCAGGCCGT ATCTTTTTAA GGGAGATCAT AAATTCCCAA CTCTCAAAGA GGATGGCCCA 
    GTGGTTATTC TGTATGCAGA AATGGGTACG AAAGACTTTG TCAAATTCCA CAATATTTTA 
    TCTGAGAGGG CACAAAAGGA GGAAATTGTT TATGTTCTCC GGCATTATGT TCAGAAACCA 
    AAGTCCAGGA AAATGTATTT ATCTGGATAT GGTGTGGAAC TTGCAATAAA GAGTACAGAA 
    TATAAAGCGG TAGATGACAC GCAGGTTAAA GGAGCAAATG AGACAAAAGA AGAGGAAGAT 
    GAGGAAGAGG AAGAGGAGAG TGATGTCCAA GGATTTCTCT TCGGCAAATT AAAGCAGATG 
    CATCCTGATC TGAAAAACAA TCTGATAGAG TTTAAAAAAC ATCTAATTGA AACTACTAAC 
    AACATGGAAC CACTGAAGGT TTGGGAGATG CAGGATCTTA GTTTTCAAGC AGCTACTCGA 
    ATTATGTCTA CCCCTATTTA TGATGCCTTA AAGGTAATGA AAGACATCGC TCAGAACTTC 
    CCAATAAGAG CCAGATCACT TACAAGAATA CCTGTAGACA AGAAAATGCA AAAAGAAATA 
    GAAGAAAATC AGAAGCATTT CCATGAAACA CTTGGAATTC AACCTGGAGA AGCACGTTTG 
    TTTCTGAATG GCCTTCATAT TGACCTGGAT TTTCAAGATC CCTTTAGCAT TTTAGAGACT 
    CTTAAACTGG AAGGAAAAGT GATGCATGGC CTTCATGAAC TTGGAATCAA AGGAGAGGCC 
    CTGAGTAAAT TTATGAGGTT GCATGTACAT CCTAAAGATA ATAATTATGC ACTCGATATT 
    CGTCACTCTT CAATAATATG GATTAATAAT ATAGAACAAG ATCACAGCTA TAGCACGTGG 
    CCTGAAAGCT ATCAGGAACT GCTAAAACCC TCATTTCCTG GATTTTTACA TGAGATTAGG 
    CGCAATTTAT ATAACTTGGT ACTTTTTGTT GATCCTGTCC AAGAAGATAC TGGTGATTAT 
    ATGAAGCTGG CAGAATTATT CTATCATCAT GATGTACCAC TTAGAATTGG AATTGTTTTT 
    ATTTTAAGTA CAAAAGAAGA AATTGATGGA AATGAAGATG CTGGAGTAGC TCTTTGGAGA 
    ACTTTTAATT ACATTGCAGA AGAATCTGAC ACCTCTCAGG CCTTTATGTC GATAATTAAT 
    ATGTACCATG AAGTGAAAGA TGGAAATGTT CTGACAGTAG ATGGTGTGAA ACATGTTCTT 
    AGTAGTGAGT ACCCCCATGC TAATGTTCAG AGTATCCTGG ATGTTCATTC TGAATATGAT 
    GAAGGGAGGA AGGCAGGAGC AACCTTTTAT AAGAAGAGTG GCCTGGGCCC ACTGCCTCAA 
    GCGCTGTTTA ATGGCGTGCC CTTTCCCAGA GAGGAGATGG ATGCGGCAGA GCTGGAGACG 
    CTTATTCTTC AGAGGATTTT TGATGCCACC GGCTCCTTCC AGCGGGCAGT GTTCATGGGT 
    TTGTTAGATG ATCATGTAAA TGCAGTGGAT TTTCTTATGG ATCAGAACAA TGTAGTTTCC 
    CGTATAAACC CCAGTATTCT TGGAGCAGAA AGAAGATACA TACCTTTCAG ATTCACTTCT 
    GTTCCATTCC ATGTGGAAGA CTTCTCTACT TTCTCCTTTT TGGACTCACA AGATAAAAGT 
    GCTGTAATTT CAGATAATAT GAAGTATTTA ACGAAAAAAG ATGAAGATGC ATTGTATGCT 
    GTTACTGTCT GGATTGTTGC AGATTTTGAT AAGCCAGCTG GTAGACAACT GCTTTCTAAT 
    GCCTTGAAAA GCCTGAAAAC AAGCAGTCAT ACACGAGTTG GGATTTTGAA CAATCCTTCA 
    TCAAAAATAA AGGAAGATAA CACAGCCATT GCAAGAGGAA TTTTGGCTGC TTTTTTTACT 
    CAAAACAACA GCAACTTAAA AAGTTTCCTA AGTAAACTCA GTAAGGAAGA GACAGCAAAA 
    TCCCTTGCTG CTGGAACTAA AATTGTTAAA TTCCTCATCC CAGGAATGGA TGGTGATACT 
    TTTGAGAAGA AGTACAACAC TTTAGGACTG GATTTAATTA AAACTCAACA AATGTTCTGT 
    CAGGAGGTTC TGAAGCTGCT TCCTGGGCAA ATGGCTGTTA TTAGCAATGG CAGGGTACTG 
    GGTCCTTTAG ATGAAAATGA ATTCTATGAA GAAGACTTTA ATTTGTTGGA AAAGATAACA 
    TACAGTACTT CAGCAGAGAA GATTAAAGCC ATTGTCAAGG AGATGGGAAA CAGTAGTAAA 
    AGTGGCAGTG ACTTGATTAT GAAAATAGAT GCCCTGCTGT CATCTTTGCC TAAAACAGAA 
    ATGAGACAAG ATGTTGAATT ACTCAAAGAA CAGCACAGTG TAGTAAAATT CGAGCCCCAA 
    GAGAATGACC CATTCTATGA CATCATTGCT ATTGTGGATC CATTGACAAG AGAAGCACAG 
    AAGATGACCC ATTTATTGAT TGTGCTCAAG GACATTATTA ATATGAAACT CAGGTTATTT 
    TTGAACTGCA GATCTAAGCT GTCCGAAGTG CCACTGAAGA GCTTCTATCG TTTTGTTCTG 
    GAACCAGAAT TAACCTATGG AATCAATAAG CACCTTCCTT CTGAGCCTGT AGCAAAATTC 
    CTAGAGTTGC CAGAATCACC TCTTTTGACC CTAAACATGA TCACTCCTGA AAGCTGGTTG 
    GTTGAAGCAG TAAATAGTTC CTGTGACCTT GATAACATTC ATTTGCAGGA AATAAAAGGG 
    GCAGTTATAG CAGAATATGA GCTGGAATAT ATATTGCTTG AAGGACATTG CTTTGATGTG 
    ACAACTGGAC AACCTCCTCG AGGGTTACAG TTCACTCTGG GCACAAAGAA GAGTCCTGTC 
    ATGGTTGATA CTATTGTGAT GGCCAACCTC GGGTATTTTC AGCTGAAAGC AAATCCAGGT 
    GCTTGGACGT TGAGATTGCG TAAAGGAAGA TCTGAGGAGA TTTATCAGGT TTTTTCCCAT 
    GAAGGAACAG ATTCTGTAGC TGAGCTGACA GACGTTATTG TGGTATTAAA CAACTTCAGA 
    AGCAAAATTA TCAAAGTTCA AGTACAGAAG AAGCCTGATA AAGTGAATGA AGAGCTTCTT 
    ACAGATGAAA CAACAGGAAA AAAAGGAAAT ATGGAATCAG TTGCAAGATT TTCAGAAGAC 
    ATTCCAACTG ATGAGAAGGA AAAGAAGAGT GATATTAACA TTTTTTCTGT TGCTTCAGGC 
    CATTTATATG AACGTTTTTT AAGAATTATG ATGCTTTCTG TCCTACGTCA TACAAAAACA 
    CCAGTTAAAT TTTGGTTTCT GAAAAACTAT CTCTCCCCAA CATTTAAGGA TGTAATTCCT 
    CACATGGCTA AAAAGTATGG GTTCAAGTAT GAGTTGGTCC AGTATAAGTG GCCCCGCTGG 
    CTTTATCAAC AGACAGAAAA GCAAAGAATT ATCTGGGGCT ACAAAATTCT TTTCTTGGAT 
    GTTCTTTTCC CTTTGGCTGT GGATAAAATA ATATTTGTCG ATGCTGACCA GATTGTGAGG 
    AGTGACCTGA AAGAGCTCAG AGACCTAGAT CTGAATGGAG CTCCCTATGG ATACACTCCT 
    TTCTGTGACA GCCGCAGAGA GATGGACGGG TACCGCTTCT GGAAATCGGG ATACTGGGCT 
    TCACACCTCG GGAAAAGGAA ATACCATATT AGTGCCTTGT ATGTTGTGGA CCTGAAGAAG 
    TTCAGGAAGA TTGCAGCTGG AGACAGGCTT CGGGGCCAGT ACCAGGCTCT TAGTCAGGAT 
    CCAAACAGTC TGTCAAATCT AGATCAGGAT CTTCCCAATA ATATGATTCA TCAAGTAGCC 
    ATTAAGTCTC TCCCTCAGGA GTGGCTTTGG TGTGAAACCT GGTGTGATGA TAAATCCAAG 
    AAAAAGGCTA AGACAATAGA CCTGTGCAAC AACCCCCAAA CCAAAGAACC AAAACTAAAG 
    GCTGCTGCCC GGATAGTTCC TGAATGGGTT GAATATGACT CTGAGATCCG AAACTTAATA 
    CAGCAAATTG AAAGAGAGAA GAAAAATCTA ACATCATTAT TTCAAAAAGG GCTCAAGCAC 
    GATGAACTTT AG

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

    RefSeq XP_002196801.3
    CDS31..4602
    Translation

    Target ORF information:

    RefSeq Version XM_002196765.4
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata UDP-glucose glycoprotein glucosyltransferase 2 (UGGT2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002196765.4

    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
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCGGGCT GGGCGCCGCT GCCGGCGGCG CTGCTGCTCG CCCTGCTGTG TACCCGGCCG 
    TGCCCCTGCG GCCCCGCTCC GGCCTCCTCT CCGCCTGTGA CCGCCCGCCT GGCGGCGAAG 
    TGGCCGGCGA CCCCGCTGCT GCTGGAGGCG AGTGAATTTA TTGCAGAAGA TGGTAATGAG 
    AAGTTTTGGC AGTTCTTGGA AACTGTGCGA GAGTTAACAG TTTATAAGCA AGGAGATTCA 
    GAGTACTCCT ATTACAATTT AATCTTGAAG AAAGCAGGAC AATTTTTATC CAATTTGCAA 
    ATCAACCTGT TGAAGTTTGC ACTTTCCATA CGGGCTTATT CTCCAAGTGT TCAGATGTTT 
    CAGCAGATTG CAGCTGATGA ACCTCCACCA GAAGGCTGCA GTGCATTTGT GGTTATCCAT 
    GAGAAGTACA CCTGTAAGAC TAATGAAATA AAAAAGCTGC TGAAGAAGGC TACTAAGAGA 
    CCCAGGCCGT ATCTTTTTAA GGGAGATCAT AAATTCCCAA CTCTCAAAGA GGATGGCCCA 
    GTGGTTATTC TGTATGCAGA AATGGGTACG AAAGACTTTG TCAAATTCCA CAATATTTTA 
    TCTGAGAGGG CACAAAAGGA GGAAATTGTT TATGTTCTCC GGCATTATGT TCAGAAACCA 
    AAGTCCAGGA AAATGTATTT ATCTGGATAT GGTGTGGAAC TTGCAATAAA GAGTACAGAA 
    TATAAAGCGG TAGATGACAC GCAGGTTAAA GGAGCAAATG AGACAAAAGA AGAGGAAGAT 
    GAGGAAGAGG AAGAGGAGAG TGATGTCCAA GGATTTCTCT TCGGCAAATT AAAGCAGATG 
    CATCCTGATC TGAAAAACAA TCTGATAGAG TTTAAAAAAC ATCTAATTGA AACTACTAAC 
    AACATGGAAC CACTGAAGGT TTGGGAGATG CAGGATCTTA GTTTTCAAGC AGCTACTCGA 
    ATTATGTCTA CCCCTATTTA TGATGCCTTA AAGGTAATGA AAGACATCGC TCAGAACTTC 
    CCAATAAGAG CCAGATCACT TACAAGAATA CCTGTAGACA AGAAAATGCA AAAAGAAATA 
    GAAGAAAATC AGAAGCATTT CCATGAAACA CTTGGAATTC AACCTGGAGA AGCACGTTTG 
    TTTCTGAATG GCCTTCATAT TGACCTGGAT TTTCAAGATC CCTTTAGCAT TTTAGAGACT 
    CTTAAACTGG AAGGAAAAGT GATGCATGGC CTTCATGAAC TTGGAATCAA AGGAGAGGCC 
    CTGAGTAAAT TTATGAGGTT GCATGTACAT CCTAAAGATA ATAATTATGC ACTCGATATT 
    CGTCACTCTT CAATAATATG GATTAATAAT ATAGAACAAG ATCACAGCTA TAGCACGTGG 
    CCTGAAAGCT ATCAGGAACT GCTAAAACCC TCATTTCCTG GATTTTTACA TGAGATTAGG 
    CGCAATTTAT ATAACTTGGT ACTTTTTGTT GATCCTGTCC AAGAAGATAC TGGTGATTAT 
    ATGAAGCTGG CAGAATTATT CTATCATCAT GATGTACCAC TTAGAATTGG AATTGTTTTT 
    ATTTTAAGTA CAAAAGAAGA AATTGATGGA AATGAAGATG CTGGAGTAGC TCTTTGGAGA 
    ACTTTTAATT ACATTGCAGA AGAATCTGAC ACCTCTCAGG CCTTTATGTC GATAATTAAT 
    ATGTACCATG AAGTGAAAGA TGGAAATGTT CTGACAGTAG ATGGTGTGAA ACATGTTCTT 
    AGTAGTGAGT ACCCCCATGC TAATGTTCAG AGTATCCTGG ATGTTCATTC TGAATATGAT 
    GAAGGGAGGA AGGCAGGAGC AACCTTTTAT AAGAAGAGTG GCCTGGGCCC ACTGCCTCAA 
    GCGCTGTTTA ATGGCGTGCC CTTTCCCAGA GAGGAGATGG ATGCGGCAGA GCTGGAGACG 
    CTTATTCTTC AGAGGATTTT TGATGCCACC GGCTCCTTCC AGCGGGCAGT GTTCATGGGT 
    TTGTTAGATG ATCATGTAAA TGCAGTGGAT TTTCTTATGG ATCAGAACAA TGTAGTTTCC 
    CGTATAAACC CCAGTATTCT TGGAGCAGAA AGAAGATACA TACCTTTCAG ATTCACTTCT 
    GTTCCATTCC ATGTGGAAGA CTTCTCTACT TTCTCCTTTT TGGACTCACA AGATAAAAGT 
    GCTGTAATTT CAGATAATAT GAAGTATTTA ACGAAAAAAG ATGAAGATGC ATTGTATGCT 
    GTTACTGTCT GGATTGTTGC AGATTTTGAT AAGCCAGCTG GTAGACAACT GCTTTCTAAT 
    GCCTTGAAAA GCCTGAAAAC AAGCAGTCAT ACACGAGTTG GGATTTTGAA CAATCCTTCA 
    TCAAAAATAA AGGAAGATAA CACAGCCATT GCAAGAGGAA TTTTGGCTGC TTTTTTTACT 
    CAAAACAACA GCAACTTAAA AAGTTTCCTA AGTAAACTCA GTAAGGAAGA GACAGCAAAA 
    TCCCTTGCTG CTGGAACTAA AATTGTTAAA TTCCTCATCC CAGGAATGGA TGGTGATACT 
    TTTGAGAAGA AGTACAACAC TTTAGGACTG GATTTAATTA AAACTCAACA AATGTTCTGT 
    CAGGAGGTTC TGAAGCTGCT TCCTGGGCAA ATGGCTGTTA TTAGCAATGG CAGGGTACTG 
    GGTCCTTTAG ATGAAAATGA ATTCTATGAA GAAGACTTTA ATTTGTTGGA AAAGATAACA 
    TACAGTACTT CAGCAGAGAA GATTAAAGCC ATTGTCAAGG AGATGGGAAA CAGTAGTAAA 
    AGTGGCAGTG ACTTGATTAT GAAAATAGAT GCCCTGCTGT CATCTTTGCC TAAAACAGAA 
    ATGAGACAAG ATGTTGAATT ACTCAAAGAA CAGCACAGTG TAGTAAAATT CGAGCCCCAA 
    GAGAATGACC CATTCTATGA CATCATTGCT ATTGTGGATC CATTGACAAG AGAAGCACAG 
    AAGATGACCC ATTTATTGAT TGTGCTCAAG GACATTATTA ATATGAAACT CAGGTTATTT 
    TTGAACTGCA GATCTAAGCT GTCCGAAGTG CCACTGAAGA GCTTCTATCG TTTTGTTCTG 
    GAACCAGAAT TAACCTATGG AATCAATAAG CACCTTCCTT CTGAGCCTGT AGCAAAATTC 
    CTAGAGTTGC CAGAATCACC TCTTTTGACC CTAAACATGA TCACTCCTGA AAGCTGGTTG 
    GTTGAAGCAG TAAATAGTTC CTGTGACCTT GATAACATTC ATTTGCAGGA AATAAAAGGG 
    GCAGTTATAG CAGAATATGA GCTGGAATAT ATATTGCTTG AAGGACATTG CTTTGATGTG 
    ACAACTGGAC AACCTCCTCG AGGGTTACAG TTCACTCTGG GCACAAAGAA GAGTCCTGTC 
    ATGGTTGATA CTATTGTGAT GGCCAACCTC GGGTATTTTC AGCTGAAAGC AAATCCAGGT 
    GCTTGGACGT TGAGATTGCG TAAAGGAAGA TCTGAGGAGA TTTATCAGGT TTTTTCCCAT 
    GAAGGAACAG ATTCTGTAGC TGAGCTGACA GACGTTATTG TGGTATTAAA CAACTTCAGA 
    AGCAAAATTA TCAAAGTTCA AGTACAGAAG AAGCCTGATA AAGTGAATGA AGAGCTTCTT 
    ACAGATGAAA CAACAGGAAA AAAAGGAAAT ATGGAATCAG TTGCAAGATT TTCAGAAGAC 
    ATTCCAACTG ATGAGAAGGA AAAGAAGAGT GATATTAACA TTTTTTCTGT TGCTTCAGGC 
    CATTTATATG AACGTTTTTT AAGAATTATG ATGCTTTCTG TCCTACGTCA TACAAAAACA 
    CCAGTTAAAT TTTGGTTTCT GAAAAACTAT CTCTCCCCAA CATTTAAGGA TGTAATTCCT 
    CACATGGCTA AAAAGTATGG GTTCAAGTAT GAGTTGGTCC AGTATAAGTG GCCCCGCTGG 
    CTTTATCAAC AGACAGAAAA GCAAAGAATT ATCTGGGGCT ACAAAATTCT TTTCTTGGAT 
    GTTCTTTTCC CTTTGGCTGT GGATAAAATA ATATTTGTCG ATGCTGACCA GATTGTGAGG 
    AGTGACCTGA AAGAGCTCAG AGACCTAGAT CTGAATGGAG CTCCCTATGG ATACACTCCT 
    TTCTGTGACA GCCGCAGAGA GATGGACGGG TACCGCTTCT GGAAATCGGG ATACTGGGCT 
    TCACACCTCG GGAAAAGGAA ATACCATATT AGTGCCTTGT ATGTTGTGGA CCTGAAGAAG 
    TTCAGGAAGA TTGCAGCTGG AGACAGGCTT CGGGGCCAGT ACCAGGCTCT TAGTCAGGAT 
    CCAAACAGTC TGTCAAATCT AGATCAGGAT CTTCCCAATA ATATGATTCA TCAAGTAGCC 
    ATTAAGTCTC TCCCTCAGGA GTGGCTTTGG TGTGAAACCT GGTGTGATGA TAAATCCAAG 
    AAAAAGGCTA AGACAATAGA CCTGTGCAAC AACCCCCAAA CCAAAGAACC AAAACTAAAG 
    GCTGCTGCCC GGATAGTTCC TGAATGGGTT GAATATGACT CTGAGATCCG AAACTTAATA 
    CAGCAAATTG AAAGAGAGAA GAAAAATCTA ACATCATTAT TTCAAAAAGG GCTCAAGCAC 
    GATGAACTTT AG

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

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