ORF » Species Summary » Xenopus tropicalis » uggt1 cDNA ORF clone

uggt1 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

  • Gene

  • Clones

  • gRNAs

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
OXa10347 XM_004914484.4
Latest version!		 Xenopus tropicalis UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa10348 XM_004914485.4
Latest version!		 Xenopus tropicalis UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa10349 XM_002936298.5
Latest version!		 Xenopus tropicalis UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
View Old Accession Versions >>
OXa10347 XM_004914484.3 Xenopus tropicalis UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
OXa10348 XM_004914485.3 Xenopus tropicalis UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
OXa10349 XM_002936298.4 Xenopus tropicalis UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    uggt1 ( XM_004914484.4 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_004914541.1 Xenopus tropicalis UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa10347
    Clone ID Related Accession (Same CDS sequence) XM_004914484.3 , XM_004914484.4
    Accession Version XM_004914484.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4740bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030681.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_004914484.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    4681
    ATGGTGATAT GTAGGGCTGC TTGTAGGGTT CAGCAGGGAG GGCAGTTGCC AAGGGTTCCC 
    TACATGATAA CAGGGGCCCT TTACATGGTA GAAGGAAAAC AGATACACAT GCAAAGCAAA 
    TATTTTAGAA GGTTGTCAGG AACCGGCTCA ATGATGGAAA CAGCCATGAT TCTCCTTGGC 
    TTGTGCCTGT GTATCTCCAG TGTCTCTGCA GATTCCAAAG CTGTTACAAC GTCCCTCACC 
    GCAAAGTGGG CATCTACTCC TTTACTGCTG GAAGCCAGTG AATTCTTAGC TGAAGAAGCT 
    CCTGATAAGT TCTGGGCCTT TGTGGATGAA GTGCAACAAG TGAAGGATCA AGGTTCTGAT 
    AGTATCAACT ATGAGCTGAT GGTGAATAAG GCAAGCCGAC AGCTGACTCC CCAACAGGAG 
    AACCTTCTGA AATTTGCCTT GTCTCTCCGC ACCTACTCTG CTACAGTACA GACCTTCCAG 
    CAGATGGCCG CAGATGAGCC ACCCCCAGCA GGCTGCACTA GTTTCATTGT AGTGCATGGA 
    GCGAAGACAT GTGTTCTTGA AAACTTGCCA TCACTTCTCA AGACTGCTTC TCAAAGACCG 
    AAGCCCTTTC TGTTCAAAGG AGATCACAGA TACCCATATG GTGCACCCGA AAGCCCTGTT 
    GTTATACTTT ATGCTGAGAT TGGCTCCAAA GACTTTGCTA GGTTTCACCA GCTGCTTTCT 
    CTGAAGGCCC AAGAAGATGG GATTAATTAC ATACTCCGTC ACTTTGTTTC TAACCCACGA 
    TCTGAAAAGG TTTTTCTGTC TGGATATGGT GTAGAGCTGT CCATGAAGAG CACGGAATAT 
    AAAGCAAAGG ATGACACACA AGTGAAAGGA AATGATGTGA ATGCTACAGT GGTGGGTGAT 
    AACGATCCAG TAGATGAAGT ACAGGGATTT CTCTTTGGGA AGCTCAGGCA GTTGTATCCA 
    GAGCTTAAGG AGCAGCTGAA AGAACTGAGG AAACATTTAA TTGATAGCAC CAATGAAATG 
    GCACCTCTGA AGGTCTGGGA GCTGCAAGAT CTTAGCTACC AAAGTGCTGC ACATATCCTG 
    TCAGCTCCAC CCGCTGAAGC ACTGATGGTT ATGAAAGATT TGAGCCAGAA TTTCCCTACC 
    AAAGCCAGGG CATTAACAAG GACAGTAGTT GACTCTGCTC TTCGTAAGGA AGTCGAAGAA 
    AATCAAAAGT ATTTTAAGTC TAATCTTGGT GTGCATCCCG GAGACTCAGC GTTGTTCATT 
    AATGGATTGC ATGTTGATCT TGACAGTCAG GATATCTTCA GCTTGTTTGA TACATTACGT 
    AATGAAGCCC GGGTTATGGA AGGCCTTTTC CGCTTAGGCA TAGATGGGAC CGCCCTCCAA 
    AATGTTCTGA AACTTAATAT CCAACCGTCT ACTGCAGATT ATGCCGTGGA TATCAGGCAC 
    CCTGCTATAA CTTGGGTAAA CAATCTGGAG ATGGACAGCA GATATAACTC ATGGCCATCC 
    ACTCTTCAGG AGTTGCTTCG CCCCACATTC CCTGGTGTCA TCCGACAGAT CCGCAGGAAC 
    TTTCACAACT TTGTGATCAT TTTTGATCCT GTGCATGACT CCACCTCTGA GCTGATTAAT 
    CTTGCTGAAA TGTTTCTGAG TAACCATATT CCAGTGAGGG TCGGGTTGGT TTTTGTTGTG 
    GATGACTCTG AGGATGTTGA TGGTTTTCAG GATGCAGGTG TTGCTTTGCT TAGAGCTTTC 
    AACTATGTGT CCGACGAAGT GAATGAGTAT CACGCCTTCC AAACAATTGT ATCTATCTAC 
    AACAAGGTGC CAGCAGGAAA GCGCCTGACT GTGAAGCACG TTACCGCTGT CCTAGAGCAG 
    CGATATCCCT ATATTGAGCT CAGTAGCATT TTGGGCAAAG ACTCTGCTTA TGACCAGTCA 
    AGAAAGGAAG GAAAGGAATA CTTCTTGCAG ACAGGGTTGA GTCCACTGCC AGTCGTACTC 
    TTTAATGGAA TTCCCTTTTC AAAAGAACAG CTGCAGCCTG ATGAGCTGGA GACTGCAACA 
    ATGCAAAAAA TAATGGAAAC CACCACCTTC TTTCAGAAAG CAGTCTACTT GGGGGAACTG 
    ACAAATGATC AAGATGTTGT GGATCATATA ATGAATCAGC CTAATGTCGT ACCAAGAATT 
    AACTTGCGGA TCTTAGAAGC AGAGCGCCGG TACCTGGATT TAACAACTCT AAATAACTAT 
    TTTATAGATG ACTACAAACG TTTCAGCTCC TTGAACTCCA ATTCTAAGAG TGCAGCAATA 
    GTTAACAGTA TGACCTATCT TACAAAGAAA GGAATGTCAT CCAGGGAGAT TTATGATGAC 
    TCTTTTGTGA GACCTGTCAC ATTTTGGATT GTGGGGGATT TTGATCAGCC TTCAGGCCGC 
    CAGCTTTTGT ATGATGCAAT TAAACATCAG AAATCCAGTA ATAATGTAAG GATTGGCATA 
    CTCAGCAACC CCAGCCAGGA TCCATCGGCT GAGAGCACTC GCATTGCACG GGCCATCTGG 
    GCGGCTCTGC AGACTCAGAA CTCAAACAAT GCCAAGAACT TCATCACCAA AATTGTCAAG 
    GAGGAAAATG CAAGGCAGAT CGAGGCAGGA AAGGACCCAG TGGAATTTGC TGTTGGGGGT 
    ATGGATACCA GTCTGTTCCG TGAGATGTTT GAGTCCCCAA AGGTGGATTT CATCTTATCG 
    CATACTCTTT ACTGCCGGGA GGTTTTGAAA TTGAAAAAAG GGGAGAGAGC CATTATCAGC 
    AATGGAAGGA TTATTGGGCC TTTACGTGAC GATGAAATAT TTAATCAAGA TGATTTCCAC 
    CTTCTAGAGA ATCTTGTCTT GAAGACCTCT GCGCAGAATA TTAAATCCCA TATTAAGCTG 
    CTTCAAGTGG AAGAAGATCA TGCCAGTGAT CTGGTGATGA AGGTAGATTC ACTGTTGTCC 
    TCCCAACCCA AAGGAGAAGG GAGAGTTAAT TACCAGATAC CCGAAGACGC ACACAGTGCT 
    ATTAAGCTGA GACCTACAGA AGGAATGATT TATTTTGATG TGGTTGCCGT TGTAGACCCC 
    GTAACAAAAG CAGCGCAGAG ACTAGCCCCT CTACTCCTGG TTCTTAAACA AGTACTAAAT 
    ATGAATCTTC GCGTGTTTAT GAACTGCCAG TCCAAGCTGT CGGAGATGCC TCTGAAGAGT 
    TTCTATCGCT ACGTTTTGGA ACCAGAGGTG ATGTTCACAT CACAGAAGAA TATTGCTCCT 
    GGTCCCATTG CCAAGTTCCT AGACATGCCC CAGTCTCCAC TTTTTACTCT CAGCCTTGAC 
    ACTCCTGACA GCTGGATGGT GGAGTCAGTG CGGACGCCGT ATGATCTGGA TAATATATAC 
    CTTGAGGAGG TGGACAGTGT TGTAGCAGCT GAGTTTGAGC TTGAGTATCT CCTCTTAGAA 
    GGCCATTGTT TTGATGTCTC TACTGGACAG CCACCCCGAG GGCTCCAGTT CACATTGGGA 
    ACATCTACAA ATCCTGTAGT GGTGGACACA ATCGTCATGG CTAACTTGGG TTATTTTCAG 
    TTAAAAGCCA ATCCTGGTGC TTGGATGCTG AGGCTCAGAA AAGGGCGCTC AGAGGATATT 
    TATACTATTT ACAGTCATGA AGGGACAGAT TCTGATCCAG AAGCTTCTGA TGTGGTGGTT 
    GTGCTACATG ATTTTAAGAG CAAAATAATT AAAGTAAAAG TCCAGAAAAA GCCGGACAAA 
    ATGAACGAGG ACCTTCTGAG TGATGGAAAT AGTGAAAATG AGTCGGGATT CTGGGATTCC 
    ATTACATGGG GACTTGCAGG AAGTCAGAAA CAAGATGACG TAAAAGCAGA GAAAGAAGAC 
    GTACTTAATA TCTTCTCTGT GGCCTCCGGT CACTTGTATG AGAGATTTCT TAGAATAATG 
    ATGTTGTCAG TGCTGAAAAA TACGCAGACG CCGGTTAAGT TCTGGTTTTT AAAGAATTAT 
    CTGTCACCCA CGTTTAAGAA TTTTATTCCA TACATGGCCA AGAAGTACAA CTTCCAGTAT 
    GAACTGGTCC AATATAAGTG GCCTCGTTGG CTGCACCAAC AAACTGAGAA GCAGAGAATT 
    ATCTGGGGAT ATAAAATCCT GTTCCTGGAT GTTCTGTTTC CACTGGCAGT GGATAAATTC 
    ATCTTTGTAG ATGCCGATCA GATCGTAAGG ACTGATCTGA AGGAGTTGCG GGAATTCAAT 
    TTGGATGGTG CCCCTTATGG GTACACACCG TTCTGTGAAA GCAGGAGGGA GATGGACGGT 
    TACCGCTTCT GGAAATCTGG GTACTGGGCC AGTCATTTGG CTGGGCGTAA GTACCACATT 
    AGTGCTCTGT ATGTAGTGGA TTTGAAAAAG TTCCGGAAGA TAGCAGCTGG AGACAGGCTG 
    AGAGGGCAGT ACCAAGGCCT AAGCCAGGAT CCCAACAGTC TCTCCAATCT TGACCAGGAT 
    CTTCCAAATA ATATGATCCA TCAAGTGCCC ATAAAGTCTT TGCCTCAGGA GTGGCTGTGG 
    TGTGAAACTT GGTGTGACGA TACATCGAAG AAGAAGGCCA AAACCATAGA CTTGTGTAAC 
    AACCCTATGA CCAAAGAGCC CAAGTTGCAG GCAGCAGTGC GGATCGTCCC TGAATGGCAA 
    GAATATGACC AAGAGATTAA GAAACTCTAT AGCCATTTCC AGGATGAGTC CTCAAATGGG 
    TCATTGCACC AACCTGATAC GAGCACCAAA CCAGATAAAG AAAACCACAT GGAGTTATGA

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

    RefSeq XP_004914541.1
    CDS154..4893
    Translation

    Target ORF information:

    RefSeq Version XM_004914484.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_004914484.4

    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
    4621
    4681
    ATGGTGATAT GTAGGGCTGC TTGTAGGGTT CAGCAGGGAG GGCAGTTGCC AAGGGTTCCC 
    TACATGATAA CAGGGGCCCT TTACATGGTA GAAGGAAAAC AGATACACAT GCAAAGCAAA 
    TATTTTAGAA GGTTGTCAGG AACCGGCTCA ATGATGGAAA CAGCCATGAT TCTCCTTGGC 
    TTGTGCCTGT GTATCTCCAG TGTCTCTGCA GATTCCAAAG CTGTTACAAC GTCCCTCACC 
    GCAAAGTGGG CATCTACTCC TTTACTGCTG GAAGCCAGTG AATTCTTAGC TGAAGAAGCT 
    CCTGATAAGT TCTGGGCCTT TGTGGATGAA GTGCAACAAG TGAAGGATCA AGGTTCTGAT 
    AGTATCAACT ATGAGCTGAT GGTGAATAAG GCAAGCCGAC AGCTGACTCC CCAACAGGAG 
    AACCTTCTGA AATTTGCCTT GTCTCTCCGC ACCTACTCTG CTACAGTACA GACCTTCCAG 
    CAGATGGCCG CAGATGAGCC ACCCCCAGCA GGCTGCACTA GTTTCATTGT AGTGCATGGA 
    GCGAAGACAT GTGTTCTTGA AAACTTGCCA TCACTTCTCA AGACTGCTTC TCAAAGACCG 
    AAGCCCTTTC TGTTCAAAGG AGATCACAGA TACCCATATG GTGCACCCGA AAGCCCTGTT 
    GTTATACTTT ATGCTGAGAT TGGCTCCAAA GACTTTGCTA GGTTTCACCA GCTGCTTTCT 
    CTGAAGGCCC AAGAAGATGG GATTAATTAC ATACTCCGTC ACTTTGTTTC TAACCCACGA 
    TCTGAAAAGG TTTTTCTGTC TGGATATGGT GTAGAGCTGT CCATGAAGAG CACGGAATAT 
    AAAGCAAAGG ATGACACACA AGTGAAAGGA AATGATGTGA ATGCTACAGT GGTGGGTGAT 
    AACGATCCAG TAGATGAAGT ACAGGGATTT CTCTTTGGGA AGCTCAGGCA GTTGTATCCA 
    GAGCTTAAGG AGCAGCTGAA AGAACTGAGG AAACATTTAA TTGATAGCAC CAATGAAATG 
    GCACCTCTGA AGGTCTGGGA GCTGCAAGAT CTTAGCTACC AAAGTGCTGC ACATATCCTG 
    TCAGCTCCAC CCGCTGAAGC ACTGATGGTT ATGAAAGATT TGAGCCAGAA TTTCCCTACC 
    AAAGCCAGGG CATTAACAAG GACAGTAGTT GACTCTGCTC TTCGTAAGGA AGTCGAAGAA 
    AATCAAAAGT ATTTTAAGTC TAATCTTGGT GTGCATCCCG GAGACTCAGC GTTGTTCATT 
    AATGGATTGC ATGTTGATCT TGACAGTCAG GATATCTTCA GCTTGTTTGA TACATTACGT 
    AATGAAGCCC GGGTTATGGA AGGCCTTTTC CGCTTAGGCA TAGATGGGAC CGCCCTCCAA 
    AATGTTCTGA AACTTAATAT CCAACCGTCT ACTGCAGATT ATGCCGTGGA TATCAGGCAC 
    CCTGCTATAA CTTGGGTAAA CAATCTGGAG ATGGACAGCA GATATAACTC ATGGCCATCC 
    ACTCTTCAGG AGTTGCTTCG CCCCACATTC CCTGGTGTCA TCCGACAGAT CCGCAGGAAC 
    TTTCACAACT TTGTGATCAT TTTTGATCCT GTGCATGACT CCACCTCTGA GCTGATTAAT 
    CTTGCTGAAA TGTTTCTGAG TAACCATATT CCAGTGAGGG TCGGGTTGGT TTTTGTTGTG 
    GATGACTCTG AGGATGTTGA TGGTTTTCAG GATGCAGGTG TTGCTTTGCT TAGAGCTTTC 
    AACTATGTGT CCGACGAAGT GAATGAGTAT CACGCCTTCC AAACAATTGT ATCTATCTAC 
    AACAAGGTGC CAGCAGGAAA GCGCCTGACT GTGAAGCACG TTACCGCTGT CCTAGAGCAG 
    CGATATCCCT ATATTGAGCT CAGTAGCATT TTGGGCAAAG ACTCTGCTTA TGACCAGTCA 
    AGAAAGGAAG GAAAGGAATA CTTCTTGCAG ACAGGGTTGA GTCCACTGCC AGTCGTACTC 
    TTTAATGGAA TTCCCTTTTC AAAAGAACAG CTGCAGCCTG ATGAGCTGGA GACTGCAACA 
    ATGCAAAAAA TAATGGAAAC CACCACCTTC TTTCAGAAAG CAGTCTACTT GGGGGAACTG 
    ACAAATGATC AAGATGTTGT GGATCATATA ATGAATCAGC CTAATGTCGT ACCAAGAATT 
    AACTTGCGGA TCTTAGAAGC AGAGCGCCGG TACCTGGATT TAACAACTCT AAATAACTAT 
    TTTATAGATG ACTACAAACG TTTCAGCTCC TTGAACTCCA ATTCTAAGAG TGCAGCAATA 
    GTTAACAGTA TGACCTATCT TACAAAGAAA GGAATGTCAT CCAGGGAGAT TTATGATGAC 
    TCTTTTGTGA GACCTGTCAC ATTTTGGATT GTGGGGGATT TTGATCAGCC TTCAGGCCGC 
    CAGCTTTTGT ATGATGCAAT TAAACATCAG AAATCCAGTA ATAATGTAAG GATTGGCATA 
    CTCAGCAACC CCAGCCAGGA TCCATCGGCT GAGAGCACTC GCATTGCACG GGCCATCTGG 
    GCGGCTCTGC AGACTCAGAA CTCAAACAAT GCCAAGAACT TCATCACCAA AATTGTCAAG 
    GAGGAAAATG CAAGGCAGAT CGAGGCAGGA AAGGACCCAG TGGAATTTGC TGTTGGGGGT 
    ATGGATACCA GTCTGTTCCG TGAGATGTTT GAGTCCCCAA AGGTGGATTT CATCTTATCG 
    CATACTCTTT ACTGCCGGGA GGTTTTGAAA TTGAAAAAAG GGGAGAGAGC CATTATCAGC 
    AATGGAAGGA TTATTGGGCC TTTACGTGAC GATGAAATAT TTAATCAAGA TGATTTCCAC 
    CTTCTAGAGA ATCTTGTCTT GAAGACCTCT GCGCAGAATA TTAAATCCCA TATTAAGCTG 
    CTTCAAGTGG AAGAAGATCA TGCCAGTGAT CTGGTGATGA AGGTAGATTC ACTGTTGTCC 
    TCCCAACCCA AAGGAGAAGG GAGAGTTAAT TACCAGATAC CCGAAGACGC ACACAGTGCT 
    ATTAAGCTGA GACCTACAGA AGGAATGATT TATTTTGATG TGGTTGCCGT TGTAGACCCC 
    GTAACAAAAG CAGCGCAGAG ACTAGCCCCT CTACTCCTGG TTCTTAAACA AGTACTAAAT 
    ATGAATCTTC GCGTGTTTAT GAACTGCCAG TCCAAGCTGT CGGAGATGCC TCTGAAGAGT 
    TTCTATCGCT ACGTTTTGGA ACCAGAGGTG ATGTTCACAT CACAGAAGAA TATTGCTCCT 
    GGTCCCATTG CCAAGTTCCT AGACATGCCC CAGTCTCCAC TTTTTACTCT CAGCCTTGAC 
    ACTCCTGACA GCTGGATGGT GGAGTCAGTG CGGACGCCGT ATGATCTGGA TAATATATAC 
    CTTGAGGAGG TGGACAGTGT TGTAGCAGCT GAGTTTGAGC TTGAGTATCT CCTCTTAGAA 
    GGCCATTGTT TTGATGTCTC TACTGGACAG CCACCCCGAG GGCTCCAGTT CACATTGGGA 
    ACATCTACAA ATCCTGTAGT GGTGGACACA ATCGTCATGG CTAACTTGGG TTATTTTCAG 
    TTAAAAGCCA ATCCTGGTGC TTGGATGCTG AGGCTCAGAA AAGGGCGCTC AGAGGATATT 
    TATACTATTT ACAGTCATGA AGGGACAGAT TCTGATCCAG AAGCTTCTGA TGTGGTGGTT 
    GTGCTACATG ATTTTAAGAG CAAAATAATT AAAGTAAAAG TCCAGAAAAA GCCGGACAAA 
    ATGAACGAGG ACCTTCTGAG TGATGGAAAT AGTGAAAATG AGTCGGGATT CTGGGATTCC 
    ATTACATGGG GACTTGCAGG AAGTCAGAAA CAAGATGACG TAAAAGCAGA GAAAGAAGAC 
    GTACTTAATA TCTTCTCTGT GGCCTCCGGT CACTTGTATG AGAGATTTCT TAGAATAATG 
    ATGTTGTCAG TGCTGAAAAA TACGCAGACG CCGGTTAAGT TCTGGTTTTT AAAGAATTAT 
    CTGTCACCCA CGTTTAAGAA TTTTATTCCA TACATGGCCA AGAAGTACAA CTTCCAGTAT 
    GAACTGGTCC AATATAAGTG GCCTCGTTGG CTGCACCAAC AAACTGAGAA GCAGAGAATT 
    ATCTGGGGAT ATAAAATCCT GTTCCTGGAT GTTCTGTTTC CACTGGCAGT GGATAAATTC 
    ATCTTTGTAG ATGCCGATCA GATCGTAAGG ACTGATCTGA AGGAGTTGCG GGAATTCAAT 
    TTGGATGGTG CCCCTTATGG GTACACACCG TTCTGTGAAA GCAGGAGGGA GATGGACGGT 
    TACCGCTTCT GGAAATCTGG GTACTGGGCC AGTCATTTGG CTGGGCGTAA GTACCACATT 
    AGTGCTCTGT ATGTAGTGGA TTTGAAAAAG TTCCGGAAGA TAGCAGCTGG AGACAGGCTG 
    AGAGGGCAGT ACCAAGGCCT AAGCCAGGAT CCCAACAGTC TCTCCAATCT TGACCAGGAT 
    CTTCCAAATA ATATGATCCA TCAAGTGCCC ATAAAGTCTT TGCCTCAGGA GTGGCTGTGG 
    TGTGAAACTT GGTGTGACGA TACATCGAAG AAGAAGGCCA AAACCATAGA CTTGTGTAAC 
    AACCCTATGA CCAAAGAGCC CAAGTTGCAG GCAGCAGTGC GGATCGTCCC TGAATGGCAA 
    GAATATGACC AAGAGATTAA GAAACTCTAT AGCCATTTCC AGGATGAGTC CTCAAATGGG 
    TCATTGCACC AACCTGATAC GAGCACCAAA CCAGATAAAG AAAACCACAT GGAGTTATGA

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

    uggt1 ( XM_004914485.4 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_004914542.1 Xenopus tropicalis UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa10348
    Clone ID Related Accession (Same CDS sequence) XM_004914485.4 , XM_004914485.3
    Accession Version XM_004914485.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4716bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030681.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_004914485.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    4681
    ATGGTGATAT GTAGGGCTGC TTGTAGGGTT CAGCAGGGAG GGCAGTTGCC AAGGGTTCCC 
    TACATGATAA CAGGGGCCCT TTACATGGTA GAAGGAAAAC AGATACACAT GCAAAGCAAA 
    TATTTTAGAA GGTTGTCAGG AACCGGCTCA ATGATGGAAA CAGCCATGAT TCTCCTTGGC 
    TTGTGCCTGT GTATCTCCAG TGTCTCTGCA GATTCCAAAG CTGTTACAAC GTCCCTCACC 
    GCAAAGTGGG CATCTACTCC TTTACTGCTG GAAGCCAGTG AATTCTTAGC TGAAGAAGCT 
    CCTGATAAGT TCTGGGCCTT TGTGGATGAA GTGCAACAAG TGAAGGATCA AGGTTCTGAT 
    AGTATCAACT ATGAGCTGAT GGTGAATAAG GCAAGCCGAC AGCTGACTCC CCAACAGGAG 
    AACCTTCTGA AATTTGCCTT GTCTCTCCGC ACCTACTCTG CTACAGTACA GACCTTCCAG 
    CAGATGGCCG CAGATGAGCC ACCCCCAGCA GGCTGCACTA GTTTCATTGT AGTGCATGGA 
    GCGAAGACAT GTGTTCTTGA AAACTTGCCA TCACTTCTCA AGACTGCTTC TCAAAGACCG 
    AAGCCCTTTC TGTTCAAAGG AGATCACAGA TACCCATATG GTGCACCCGA AAGCCCTGTT 
    GTTATACTTT ATGCTGAGAT TGGCTCCAAA GACTTTGCTA GGTTTCACCA GCTGCTTTCT 
    CTGAAGGCCC AAGAAGATGG GATTAATTAC ATACTCCGTC ACTTTGTTTC TAACCCACGA 
    TCTGAAAAGG TTTTTCTGTC TGGATATGGT GTAGAGCTGT CCATGAAGAG CACGGAATAT 
    AAAGCAAAGG ATGACACACA AGTGAAAGGA AATGATGTGA ATGCTACAGT GGTGGGTGAT 
    AACGATCCAG TAGATGAAGT ACAGGGATTT CTCTTTGGGA AGCTCAGGCA GTTGTATCCA 
    GAGCTTAAGG AGCAGCTGAA AGAACTGAGG AAACATTTAA TTGATAGCAC CAATGAAATG 
    GCACCTCTGA AGGTCTGGGA GCTGCAAGAT CTTAGCTACC AAAGTGCTGC ACATATCCTG 
    TCAGCTCCAC CCGCTGAAGC ACTGATGGTT ATGAAAGATT TGAGCCAGAA TTTCCCTACC 
    AAAGCCAGGG CATTAACAAG GACAGTAGTT GACTCTGCTC TTCGTAAGGA AGTCGAAGAA 
    AATCAAAAGT ATTTTAAGTC TAATCTTGGT GTGCATCCCG GAGACTCAGC GTTGTTCATT 
    AATGGATTGC ATGTTGATCT TGACAGTCAG GATATCTTCA GCTTGTTTGA TACATTACGT 
    AATGAAGCCC GGGTTATGGA AGGCCTTTTC CGCTTAGGCA TAGATGGGAC CGCCCTCCAA 
    AATGTTCTGA AACTTAATAT CCAACCGTCT ACTGCAGATT ATGCCGTGGA TATCAGGCAC 
    CCTGCTATAA CTTGGGTAAA CAATCTGGAG ATGGACAGCA GATATAACTC ATGGCCATCC 
    ACTCTTCAGG AGTTGCTTCG CCCCACATTC CCTGGTGTCA TCCGACAGAT CCGCAGGAAC 
    TTTCACAACT TTGTGATCAT TTTTGATCCT GTGCATGACT CCACCTCTGA GCTGATTAAT 
    CTTGCTGAAA TGTTTCTGAG TAACCATATT CCAGTGAGGG TCGGGTTGGT TTTTGTTGTG 
    GATGACTCTG AGGATGTTGA TGGTTTTCAG GATGCAGGTG TTGCTTTGCT TAGAGCTTTC 
    AACTATGTGT CCGACGAAGT GAATGAGTAT CACGCCTTCC AAACAATTGT ATCTATCTAC 
    AACAAGGTGC CAGCAGGAAA GCGCCTGACT GTGAAGCACG TTACCGCTGT CCTAGAGCAG 
    CGATATCCCT ATATTGAGCT CAGTAGCATT TTGGGCAAAG ACTCTGCTTA TGACCAGTCA 
    AGAAAGGAAG GAAAGGAATA CTTCTTGCAG ACAGGGTTGA GTCCACTGCC AGTCGTACTC 
    TTTAATGGAA TTCCCTTTTC AAAAGAACAG CTGCAGCCTG ATGAGCTGGA GACTGCAACA 
    ATGCAAAAAA TAATGGAAAC CACCACCTTC TTTCAGAAAG CAGTCTACTT GGGGGAACTG 
    ACAAATGATC AAGATGTTGT GGATCATATA ATGAATCAGC CTAATGTCGT ACCAAGAATT 
    AACTTGCGGA TCTTAGAAGC AGAGCGCCGG TACCTGGATT TAACAACTCT AAATAACTAT 
    TTTATAGATG ACTACAAACG TTTCAGCTCC TTGAACTCCA ATTCTAAGAG TGCAGCAATA 
    GTTAACAGTA TGACCTATCT TACAAAGAAA GATGACTCTT TTGTGAGACC TGTCACATTT 
    TGGATTGTGG GGGATTTTGA TCAGCCTTCA GGCCGCCAGC TTTTGTATGA TGCAATTAAA 
    CATCAGAAAT CCAGTAATAA TGTAAGGATT GGCATACTCA GCAACCCCAG CCAGGATCCA 
    TCGGCTGAGA GCACTCGCAT TGCACGGGCC ATCTGGGCGG CTCTGCAGAC TCAGAACTCA 
    AACAATGCCA AGAACTTCAT CACCAAAATT GTCAAGGAGG AAAATGCAAG GCAGATCGAG 
    GCAGGAAAGG ACCCAGTGGA ATTTGCTGTT GGGGGTATGG ATACCAGTCT GTTCCGTGAG 
    ATGTTTGAGT CCCCAAAGGT GGATTTCATC TTATCGCATA CTCTTTACTG CCGGGAGGTT 
    TTGAAATTGA AAAAAGGGGA GAGAGCCATT ATCAGCAATG GAAGGATTAT TGGGCCTTTA 
    CGTGACGATG AAATATTTAA TCAAGATGAT TTCCACCTTC TAGAGAATCT TGTCTTGAAG 
    ACCTCTGCGC AGAATATTAA ATCCCATATT AAGCTGCTTC AAGTGGAAGA AGATCATGCC 
    AGTGATCTGG TGATGAAGGT AGATTCACTG TTGTCCTCCC AACCCAAAGG AGAAGGGAGA 
    GTTAATTACC AGATACCCGA AGACGCACAC AGTGCTATTA AGCTGAGACC TACAGAAGGA 
    ATGATTTATT TTGATGTGGT TGCCGTTGTA GACCCCGTAA CAAAAGCAGC GCAGAGACTA 
    GCCCCTCTAC TCCTGGTTCT TAAACAAGTA CTAAATATGA ATCTTCGCGT GTTTATGAAC 
    TGCCAGTCCA AGCTGTCGGA GATGCCTCTG AAGAGTTTCT ATCGCTACGT TTTGGAACCA 
    GAGGTGATGT TCACATCACA GAAGAATATT GCTCCTGGTC CCATTGCCAA GTTCCTAGAC 
    ATGCCCCAGT CTCCACTTTT TACTCTCAGC CTTGACACTC CTGACAGCTG GATGGTGGAG 
    TCAGTGCGGA CGCCGTATGA TCTGGATAAT ATATACCTTG AGGAGGTGGA CAGTGTTGTA 
    GCAGCTGAGT TTGAGCTTGA GTATCTCCTC TTAGAAGGCC ATTGTTTTGA TGTCTCTACT 
    GGACAGCCAC CCCGAGGGCT CCAGTTCACA TTGGGAACAT CTACAAATCC TGTAGTGGTG 
    GACACAATCG TCATGGCTAA CTTGGGTTAT TTTCAGTTAA AAGCCAATCC TGGTGCTTGG 
    ATGCTGAGGC TCAGAAAAGG GCGCTCAGAG GATATTTATA CTATTTACAG TCATGAAGGG 
    ACAGATTCTG ATCCAGAAGC TTCTGATGTG GTGGTTGTGC TACATGATTT TAAGAGCAAA 
    ATAATTAAAG TAAAAGTCCA GAAAAAGCCG GACAAAATGA ACGAGGACCT TCTGAGTGAT 
    GGAAATAGTG AAAATGAGTC GGGATTCTGG GATTCCATTA CATGGGGACT TGCAGGAAGT 
    CAGAAACAAG ATGACGTAAA AGCAGAGAAA GAAGACGTAC TTAATATCTT CTCTGTGGCC 
    TCCGGTCACT TGTATGAGAG ATTTCTTAGA ATAATGATGT TGTCAGTGCT GAAAAATACG 
    CAGACGCCGG TTAAGTTCTG GTTTTTAAAG AATTATCTGT CACCCACGTT TAAGAATTTT 
    ATTCCATACA TGGCCAAGAA GTACAACTTC CAGTATGAAC TGGTCCAATA TAAGTGGCCT 
    CGTTGGCTGC ACCAACAAAC TGAGAAGCAG AGAATTATCT GGGGATATAA AATCCTGTTC 
    CTGGATGTTC TGTTTCCACT GGCAGTGGAT AAATTCATCT TTGTAGATGC CGATCAGATC 
    GTAAGGACTG ATCTGAAGGA GTTGCGGGAA TTCAATTTGG ATGGTGCCCC TTATGGGTAC 
    ACACCGTTCT GTGAAAGCAG GAGGGAGATG GACGGTTACC GCTTCTGGAA ATCTGGGTAC 
    TGGGCCAGTC ATTTGGCTGG GCGTAAGTAC CACATTAGTG CTCTGTATGT AGTGGATTTG 
    AAAAAGTTCC GGAAGATAGC AGCTGGAGAC AGGCTGAGAG GGCAGTACCA AGGCCTAAGC 
    CAGGATCCCA ACAGTCTCTC CAATCTTGAC CAGGATCTTC CAAATAATAT GATCCATCAA 
    GTGCCCATAA AGTCTTTGCC TCAGGAGTGG CTGTGGTGTG AAACTTGGTG TGACGATACA 
    TCGAAGAAGA AGGCCAAAAC CATAGACTTG TGTAACAACC CTATGACCAA AGAGCCCAAG 
    TTGCAGGCAG CAGTGCGGAT CGTCCCTGAA TGGCAAGAAT ATGACCAAGA GATTAAGAAA 
    CTCTATAGCC ATTTCCAGGA TGAGTCCTCA AATGGGTCAT TGCACCAACC TGATACGAGC 
    ACCAAACCAG ATAAAGAAAA CCACATGGAG TTATGA

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

    RefSeq XP_004914542.1
    CDS154..4869
    Translation

    Target ORF information:

    RefSeq Version XM_004914485.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_004914485.4

    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
    4621
    4681
    ATGGTGATAT GTAGGGCTGC TTGTAGGGTT CAGCAGGGAG GGCAGTTGCC AAGGGTTCCC 
    TACATGATAA CAGGGGCCCT TTACATGGTA GAAGGAAAAC AGATACACAT GCAAAGCAAA 
    TATTTTAGAA GGTTGTCAGG AACCGGCTCA ATGATGGAAA CAGCCATGAT TCTCCTTGGC 
    TTGTGCCTGT GTATCTCCAG TGTCTCTGCA GATTCCAAAG CTGTTACAAC GTCCCTCACC 
    GCAAAGTGGG CATCTACTCC TTTACTGCTG GAAGCCAGTG AATTCTTAGC TGAAGAAGCT 
    CCTGATAAGT TCTGGGCCTT TGTGGATGAA GTGCAACAAG TGAAGGATCA AGGTTCTGAT 
    AGTATCAACT ATGAGCTGAT GGTGAATAAG GCAAGCCGAC AGCTGACTCC CCAACAGGAG 
    AACCTTCTGA AATTTGCCTT GTCTCTCCGC ACCTACTCTG CTACAGTACA GACCTTCCAG 
    CAGATGGCCG CAGATGAGCC ACCCCCAGCA GGCTGCACTA GTTTCATTGT AGTGCATGGA 
    GCGAAGACAT GTGTTCTTGA AAACTTGCCA TCACTTCTCA AGACTGCTTC TCAAAGACCG 
    AAGCCCTTTC TGTTCAAAGG AGATCACAGA TACCCATATG GTGCACCCGA AAGCCCTGTT 
    GTTATACTTT ATGCTGAGAT TGGCTCCAAA GACTTTGCTA GGTTTCACCA GCTGCTTTCT 
    CTGAAGGCCC AAGAAGATGG GATTAATTAC ATACTCCGTC ACTTTGTTTC TAACCCACGA 
    TCTGAAAAGG TTTTTCTGTC TGGATATGGT GTAGAGCTGT CCATGAAGAG CACGGAATAT 
    AAAGCAAAGG ATGACACACA AGTGAAAGGA AATGATGTGA ATGCTACAGT GGTGGGTGAT 
    AACGATCCAG TAGATGAAGT ACAGGGATTT CTCTTTGGGA AGCTCAGGCA GTTGTATCCA 
    GAGCTTAAGG AGCAGCTGAA AGAACTGAGG AAACATTTAA TTGATAGCAC CAATGAAATG 
    GCACCTCTGA AGGTCTGGGA GCTGCAAGAT CTTAGCTACC AAAGTGCTGC ACATATCCTG 
    TCAGCTCCAC CCGCTGAAGC ACTGATGGTT ATGAAAGATT TGAGCCAGAA TTTCCCTACC 
    AAAGCCAGGG CATTAACAAG GACAGTAGTT GACTCTGCTC TTCGTAAGGA AGTCGAAGAA 
    AATCAAAAGT ATTTTAAGTC TAATCTTGGT GTGCATCCCG GAGACTCAGC GTTGTTCATT 
    AATGGATTGC ATGTTGATCT TGACAGTCAG GATATCTTCA GCTTGTTTGA TACATTACGT 
    AATGAAGCCC GGGTTATGGA AGGCCTTTTC CGCTTAGGCA TAGATGGGAC CGCCCTCCAA 
    AATGTTCTGA AACTTAATAT CCAACCGTCT ACTGCAGATT ATGCCGTGGA TATCAGGCAC 
    CCTGCTATAA CTTGGGTAAA CAATCTGGAG ATGGACAGCA GATATAACTC ATGGCCATCC 
    ACTCTTCAGG AGTTGCTTCG CCCCACATTC CCTGGTGTCA TCCGACAGAT CCGCAGGAAC 
    TTTCACAACT TTGTGATCAT TTTTGATCCT GTGCATGACT CCACCTCTGA GCTGATTAAT 
    CTTGCTGAAA TGTTTCTGAG TAACCATATT CCAGTGAGGG TCGGGTTGGT TTTTGTTGTG 
    GATGACTCTG AGGATGTTGA TGGTTTTCAG GATGCAGGTG TTGCTTTGCT TAGAGCTTTC 
    AACTATGTGT CCGACGAAGT GAATGAGTAT CACGCCTTCC AAACAATTGT ATCTATCTAC 
    AACAAGGTGC CAGCAGGAAA GCGCCTGACT GTGAAGCACG TTACCGCTGT CCTAGAGCAG 
    CGATATCCCT ATATTGAGCT CAGTAGCATT TTGGGCAAAG ACTCTGCTTA TGACCAGTCA 
    AGAAAGGAAG GAAAGGAATA CTTCTTGCAG ACAGGGTTGA GTCCACTGCC AGTCGTACTC 
    TTTAATGGAA TTCCCTTTTC AAAAGAACAG CTGCAGCCTG ATGAGCTGGA GACTGCAACA 
    ATGCAAAAAA TAATGGAAAC CACCACCTTC TTTCAGAAAG CAGTCTACTT GGGGGAACTG 
    ACAAATGATC AAGATGTTGT GGATCATATA ATGAATCAGC CTAATGTCGT ACCAAGAATT 
    AACTTGCGGA TCTTAGAAGC AGAGCGCCGG TACCTGGATT TAACAACTCT AAATAACTAT 
    TTTATAGATG ACTACAAACG TTTCAGCTCC TTGAACTCCA ATTCTAAGAG TGCAGCAATA 
    GTTAACAGTA TGACCTATCT TACAAAGAAA GATGACTCTT TTGTGAGACC TGTCACATTT 
    TGGATTGTGG GGGATTTTGA TCAGCCTTCA GGCCGCCAGC TTTTGTATGA TGCAATTAAA 
    CATCAGAAAT CCAGTAATAA TGTAAGGATT GGCATACTCA GCAACCCCAG CCAGGATCCA 
    TCGGCTGAGA GCACTCGCAT TGCACGGGCC ATCTGGGCGG CTCTGCAGAC TCAGAACTCA 
    AACAATGCCA AGAACTTCAT CACCAAAATT GTCAAGGAGG AAAATGCAAG GCAGATCGAG 
    GCAGGAAAGG ACCCAGTGGA ATTTGCTGTT GGGGGTATGG ATACCAGTCT GTTCCGTGAG 
    ATGTTTGAGT CCCCAAAGGT GGATTTCATC TTATCGCATA CTCTTTACTG CCGGGAGGTT 
    TTGAAATTGA AAAAAGGGGA GAGAGCCATT ATCAGCAATG GAAGGATTAT TGGGCCTTTA 
    CGTGACGATG AAATATTTAA TCAAGATGAT TTCCACCTTC TAGAGAATCT TGTCTTGAAG 
    ACCTCTGCGC AGAATATTAA ATCCCATATT AAGCTGCTTC AAGTGGAAGA AGATCATGCC 
    AGTGATCTGG TGATGAAGGT AGATTCACTG TTGTCCTCCC AACCCAAAGG AGAAGGGAGA 
    GTTAATTACC AGATACCCGA AGACGCACAC AGTGCTATTA AGCTGAGACC TACAGAAGGA 
    ATGATTTATT TTGATGTGGT TGCCGTTGTA GACCCCGTAA CAAAAGCAGC GCAGAGACTA 
    GCCCCTCTAC TCCTGGTTCT TAAACAAGTA CTAAATATGA ATCTTCGCGT GTTTATGAAC 
    TGCCAGTCCA AGCTGTCGGA GATGCCTCTG AAGAGTTTCT ATCGCTACGT TTTGGAACCA 
    GAGGTGATGT TCACATCACA GAAGAATATT GCTCCTGGTC CCATTGCCAA GTTCCTAGAC 
    ATGCCCCAGT CTCCACTTTT TACTCTCAGC CTTGACACTC CTGACAGCTG GATGGTGGAG 
    TCAGTGCGGA CGCCGTATGA TCTGGATAAT ATATACCTTG AGGAGGTGGA CAGTGTTGTA 
    GCAGCTGAGT TTGAGCTTGA GTATCTCCTC TTAGAAGGCC ATTGTTTTGA TGTCTCTACT 
    GGACAGCCAC CCCGAGGGCT CCAGTTCACA TTGGGAACAT CTACAAATCC TGTAGTGGTG 
    GACACAATCG TCATGGCTAA CTTGGGTTAT TTTCAGTTAA AAGCCAATCC TGGTGCTTGG 
    ATGCTGAGGC TCAGAAAAGG GCGCTCAGAG GATATTTATA CTATTTACAG TCATGAAGGG 
    ACAGATTCTG ATCCAGAAGC TTCTGATGTG GTGGTTGTGC TACATGATTT TAAGAGCAAA 
    ATAATTAAAG TAAAAGTCCA GAAAAAGCCG GACAAAATGA ACGAGGACCT TCTGAGTGAT 
    GGAAATAGTG AAAATGAGTC GGGATTCTGG GATTCCATTA CATGGGGACT TGCAGGAAGT 
    CAGAAACAAG ATGACGTAAA AGCAGAGAAA GAAGACGTAC TTAATATCTT CTCTGTGGCC 
    TCCGGTCACT TGTATGAGAG ATTTCTTAGA ATAATGATGT TGTCAGTGCT GAAAAATACG 
    CAGACGCCGG TTAAGTTCTG GTTTTTAAAG AATTATCTGT CACCCACGTT TAAGAATTTT 
    ATTCCATACA TGGCCAAGAA GTACAACTTC CAGTATGAAC TGGTCCAATA TAAGTGGCCT 
    CGTTGGCTGC ACCAACAAAC TGAGAAGCAG AGAATTATCT GGGGATATAA AATCCTGTTC 
    CTGGATGTTC TGTTTCCACT GGCAGTGGAT AAATTCATCT TTGTAGATGC CGATCAGATC 
    GTAAGGACTG ATCTGAAGGA GTTGCGGGAA TTCAATTTGG ATGGTGCCCC TTATGGGTAC 
    ACACCGTTCT GTGAAAGCAG GAGGGAGATG GACGGTTACC GCTTCTGGAA ATCTGGGTAC 
    TGGGCCAGTC ATTTGGCTGG GCGTAAGTAC CACATTAGTG CTCTGTATGT AGTGGATTTG 
    AAAAAGTTCC GGAAGATAGC AGCTGGAGAC AGGCTGAGAG GGCAGTACCA AGGCCTAAGC 
    CAGGATCCCA ACAGTCTCTC CAATCTTGAC CAGGATCTTC CAAATAATAT GATCCATCAA 
    GTGCCCATAA AGTCTTTGCC TCAGGAGTGG CTGTGGTGTG AAACTTGGTG TGACGATACA 
    TCGAAGAAGA AGGCCAAAAC CATAGACTTG TGTAACAACC CTATGACCAA AGAGCCCAAG 
    TTGCAGGCAG CAGTGCGGAT CGTCCCTGAA TGGCAAGAAT ATGACCAAGA GATTAAGAAA 
    CTCTATAGCC ATTTCCAGGA TGAGTCCTCA AATGGGTCAT TGCACCAACC TGATACGAGC 
    ACCAAACCAG ATAAAGAAAA CCACATGGAG TTATGA

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

    uggt1 ( XM_002936298.5 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002936344.2 Xenopus tropicalis UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OXa10349
    Clone ID Related Accession (Same CDS sequence) XM_002936298.4 , XM_002936298.5
    Accession Version XM_002936298.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4590bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product UDP-glucose:glycoprotein glucosyltransferase 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.2) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_002936298.4. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGATGGAAA CAGCCATGAT TCTCCTTGGC TTGTGCCTGT GTATCTCCAG TGTCTCTGCA 
    GATTCCAAAG CTGTTACAAC GTCCCTCACC GCAAAGTGGG CATCTACTCC TTTACTGCTG 
    GAAGCCAGTG AATTCTTAGC TGAAGAAGCT CCTGATAAGT TCTGGGCCTT TGTGGATGAA 
    GTGCAACAAG TGAAGGATCA AGGTTCTGAT AGTATCAACT ATGAGCTGAT GGTGAATAAG 
    GCAAGCCGAC AGCTGACTCC CCAACAGGAG AACCTTCTGA AATTTGCCTT GTCTCTCCGC 
    ACCTACTCTG CTACAGTACA GACCTTCCAG CAGATGGCCG CAGATGAGCC ACCCCCAGCA 
    GGCTGCACTA GTTTCATTGT AGTGCATGGA GCGAAGACAT GTGTTCTTGA AAACTTGCCA 
    TCACTTCTCA AGACTGCTTC TCAAAGACCG AAGCCCTTTC TGTTCAAAGG AGATCACAGA 
    TACCCATATG GTGCACCCGA AAGCCCTGTT GTTATACTTT ATGCTGAGAT TGGCTCCAAA 
    GACTTTGCTA GGTTTCACCA GCTGCTTTCT CTGAAGGCCC AAGAAGATGG GATTAATTAC 
    ATACTCCGTC ACTTTGTTTC TAACCCACGA TCTGAAAAGG TTTTTCTGTC TGGATATGGT 
    GTAGAGCTGT CCATGAAGAG CACGGAATAT AAAGCAAAGG ATGACACACA AGTGAAAGGA 
    AATGATGTGA ATGCTACAGT GGTGGGTGAT AACGATCCAG TAGATGAAGT ACAGGGATTT 
    CTCTTTGGGA AGCTCAGGCA GTTGTATCCA GAGCTTAAGG AGCAGCTGAA AGAACTGAGG 
    AAACATTTAA TTGATAGCAC CAATGAAATG GCACCTCTGA AGGTCTGGGA GCTGCAAGAT 
    CTTAGCTACC AAAGTGCTGC ACATATCCTG TCAGCTCCAC CCGCTGAAGC ACTGATGGTT 
    ATGAAAGATT TGAGCCAGAA TTTCCCTACC AAAGCCAGGG CATTAACAAG GACAGTAGTT 
    GACTCTGCTC TTCGTAAGGA AGTCGAAGAA AATCAAAAGT ATTTTAAGTC TAATCTTGGT 
    GTGCATCCCG GAGACTCAGC GTTGTTCATT AATGGATTGC ATGTTGATCT TGACAGTCAG 
    GATATCTTCA GCTTGTTTGA TACATTACGT AATGAAGCCC GGGTTATGGA AGGCCTTTTC 
    CGCTTAGGCA TAGATGGGAC CGCCCTCCAA AATGTTCTGA AACTTAATAT CCAACCGTCT 
    ACTGCAGATT ATGCCGTGGA TATCAGGCAC CCTGCTATAA CTTGGGTAAA CAATCTGGAG 
    ATGGACAGCA GATATAACTC ATGGCCATCC ACTCTTCAGG AGTTGCTTCG CCCCACATTC 
    CCTGGTGTCA TCCGACAGAT CCGCAGGAAC TTTCACAACT TTGTGATCAT TTTTGATCCT 
    GTGCATGACT CCACCTCTGA GCTGATTAAT CTTGCTGAAA TGTTTCTGAG TAACCATATT 
    CCAGTGAGGG TCGGGTTGGT TTTTGTTGTG GATGACTCTG AGGATGTTGA TGGTTTTCAG 
    GATGCAGGTG TTGCTTTGCT TAGAGCTTTC AACTATGTGT CCGACGAAGT GAATGAGTAT 
    CACGCCTTCC AAACAATTGT ATCTATCTAC AACAAGGTGC CAGCAGGAAA GCGCCTGACT 
    GTGAAGCACG TTACCGCTGT CCTAGAGCAG CGATATCCCT ATATTGAGCT CAGTAGCATT 
    TTGGGCAAAG ACTCTGCTTA TGACCAGTCA AGAAAGGAAG GAAAGGAATA CTTCTTGCAG 
    ACAGGGTTGA GTCCACTGCC AGTCGTACTC TTTAATGGAA TTCCCTTTTC AAAAGAACAG 
    CTGCAGCCTG ATGAGCTGGA GACTGCAACA ATGCAAAAAA TAATGGAAAC CACCACCTTC 
    TTTCAGAAAG CAGTCTACTT GGGGGAACTG ACAAATGATC AAGATGTTGT GGATCATATA 
    ATGAATCAGC CTAATGTCGT ACCAAGAATT AACTTGCGGA TCTTAGAAGC AGAGCGCCGG 
    TACCTGGATT TAACAACTCT AAATAACTAT TTTATAGATG ACTACAAACG TTTCAGCTCC 
    TTGAACTCCA ATTCTAAGAG TGCAGCAATA GTTAACAGTA TGACCTATCT TACAAAGAAA 
    GGAATGTCAT CCAGGGAGAT TTATGATGAC TCTTTTGTGA GACCTGTCAC ATTTTGGATT 
    GTGGGGGATT TTGATCAGCC TTCAGGCCGC CAGCTTTTGT ATGATGCAAT TAAACATCAG 
    AAATCCAGTA ATAATGTAAG GATTGGCATA CTCAGCAACC CCAGCCAGGA TCCATCGGCT 
    GAGAGCACTC GCATTGCACG GGCCATCTGG GCGGCTCTGC AGACTCAGAA CTCAAACAAT 
    GCCAAGAACT TCATCACCAA AATTGTCAAG GAGGAAAATG CAAGGCAGAT CGAGGCAGGA 
    AAGGACCCAG TGGAATTTGC TGTTGGGGGT ATGGATACCA GTCTGTTCCG TGAGATGTTT 
    GAGTCCCCAA AGGTGGATTT CATCTTATCG CATACTCTTT ACTGCCGGGA GGTTTTGAAA 
    TTGAAAAAAG GGGAGAGAGC CATTATCAGC AATGGAAGGA TTATTGGGCC TTTACGTGAC 
    GATGAAATAT TTAATCAAGA TGATTTCCAC CTTCTAGAGA ATCTTGTCTT GAAGACCTCT 
    GCGCAGAATA TTAAATCCCA TATTAAGCTG CTTCAAGTGG AAGAAGATCA TGCCAGTGAT 
    CTGGTGATGA AGGTAGATTC ACTGTTGTCC TCCCAACCCA AAGGAGAAGG GAGAGTTAAT 
    TACCAGATAC CCGAAGACGC ACACAGTGCT ATTAAGCTGA GACCTACAGA AGGAATGATT 
    TATTTTGATG TGGTTGCCGT TGTAGACCCC GTAACAAAAG CAGCGCAGAG ACTAGCCCCT 
    CTACTCCTGG TTCTTAAACA AGTACTAAAT ATGAATCTTC GCGTGTTTAT GAACTGCCAG 
    TCCAAGCTGT CGGAGATGCC TCTGAAGAGT TTCTATCGCT ACGTTTTGGA ACCAGAGGTG 
    ATGTTCACAT CACAGAAGAA TATTGCTCCT GGTCCCATTG CCAAGTTCCT AGACATGCCC 
    CAGTCTCCAC TTTTTACTCT CAGCCTTGAC ACTCCTGACA GCTGGATGGT GGAGTCAGTG 
    CGGACGCCGT ATGATCTGGA TAATATATAC CTTGAGGAGG TGGACAGTGT TGTAGCAGCT 
    GAGTTTGAGC TTGAGTATCT CCTCTTAGAA GGCCATTGTT TTGATGTCTC TACTGGACAG 
    CCACCCCGAG GGCTCCAGTT CACATTGGGA ACATCTACAA ATCCTGTAGT GGTGGACACA 
    ATCGTCATGG CTAACTTGGG TTATTTTCAG TTAAAAGCCA ATCCTGGTGC TTGGATGCTG 
    AGGCTCAGAA AAGGGCGCTC AGAGGATATT TATACTATTT ACAGTCATGA AGGGACAGAT 
    TCTGATCCAG AAGCTTCTGA TGTGGTGGTT GTGCTACATG ATTTTAAGAG CAAAATAATT 
    AAAGTAAAAG TCCAGAAAAA GCCGGACAAA ATGAACGAGG ACCTTCTGAG TGATGGAAAT 
    AGTGAAAATG AGTCGGGATT CTGGGATTCC ATTACATGGG GACTTGCAGG AAGTCAGAAA 
    CAAGATGACG TAAAAGCAGA GAAAGAAGAC GTACTTAATA TCTTCTCTGT GGCCTCCGGT 
    CACTTGTATG AGAGATTTCT TAGAATAATG ATGTTGTCAG TGCTGAAAAA TACGCAGACG 
    CCGGTTAAGT TCTGGTTTTT AAAGAATTAT CTGTCACCCA CGTTTAAGAA TTTTATTCCA 
    TACATGGCCA AGAAGTACAA CTTCCAGTAT GAACTGGTCC AATATAAGTG GCCTCGTTGG 
    CTGCACCAAC AAACTGAGAA GCAGAGAATT ATCTGGGGAT ATAAAATCCT GTTCCTGGAT 
    GTTCTGTTTC CACTGGCAGT GGATAAATTC ATCTTTGTAG ATGCCGATCA GATCGTAAGG 
    ACTGATCTGA AGGAGTTGCG GGAATTCAAT TTGGATGGTG CCCCTTATGG GTACACACCG 
    TTCTGTGAAA GCAGGAGGGA GATGGACGGT TACCGCTTCT GGAAATCTGG GTACTGGGCC 
    AGTCATTTGG CTGGGCGTAA GTACCACATT AGTGCTCTGT ATGTAGTGGA TTTGAAAAAG 
    TTCCGGAAGA TAGCAGCTGG AGACAGGCTG AGAGGGCAGT ACCAAGGCCT AAGCCAGGAT 
    CCCAACAGTC TCTCCAATCT TGACCAGGAT CTTCCAAATA ATATGATCCA TCAAGTGCCC 
    ATAAAGTCTT TGCCTCAGGA GTGGCTGTGG TGTGAAACTT GGTGTGACGA TACATCGAAG 
    AAGAAGGCCA AAACCATAGA CTTGTGTAAC AACCCTATGA CCAAAGAGCC CAAGTTGCAG 
    GCAGCAGTGC GGATCGTCCC TGAATGGCAA GAATATGACC AAGAGATTAA GAAACTCTAT 
    AGCCATTTCC AGGATGAGTC CTCAAATGGG TCATTGCACC AACCTGATAC GAGCACCAAA 
    CCAGATAAAG AAAACCACAT GGAGTTATGA

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

    RefSeq XP_002936344.2
    CDS118..4707
    Translation

    Target ORF information:

    RefSeq Version XM_002936298.5
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_002936298.5

    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
    ATGATGGAAA CAGCCATGAT TCTCCTTGGC TTGTGCCTGT GTATCTCCAG TGTCTCTGCA 
    GATTCCAAAG CTGTTACAAC GTCCCTCACC GCAAAGTGGG CATCTACTCC TTTACTGCTG 
    GAAGCCAGTG AATTCTTAGC TGAAGAAGCT CCTGATAAGT TCTGGGCCTT TGTGGATGAA 
    GTGCAACAAG TGAAGGATCA AGGTTCTGAT AGTATCAACT ATGAGCTGAT GGTGAATAAG 
    GCAAGCCGAC AGCTGACTCC CCAACAGGAG AACCTTCTGA AATTTGCCTT GTCTCTCCGC 
    ACCTACTCTG CTACAGTACA GACCTTCCAG CAGATGGCCG CAGATGAGCC ACCCCCAGCA 
    GGCTGCACTA GTTTCATTGT AGTGCATGGA GCGAAGACAT GTGTTCTTGA AAACTTGCCA 
    TCACTTCTCA AGACTGCTTC TCAAAGACCG AAGCCCTTTC TGTTCAAAGG AGATCACAGA 
    TACCCATATG GTGCACCCGA AAGCCCTGTT GTTATACTTT ATGCTGAGAT TGGCTCCAAA 
    GACTTTGCTA GGTTTCACCA GCTGCTTTCT CTGAAGGCCC AAGAAGATGG GATTAATTAC 
    ATACTCCGTC ACTTTGTTTC TAACCCACGA TCTGAAAAGG TTTTTCTGTC TGGATATGGT 
    GTAGAGCTGT CCATGAAGAG CACGGAATAT AAAGCAAAGG ATGACACACA AGTGAAAGGA 
    AATGATGTGA ATGCTACAGT GGTGGGTGAT AACGATCCAG TAGATGAAGT ACAGGGATTT 
    CTCTTTGGGA AGCTCAGGCA GTTGTATCCA GAGCTTAAGG AGCAGCTGAA AGAACTGAGG 
    AAACATTTAA TTGATAGCAC CAATGAAATG GCACCTCTGA AGGTCTGGGA GCTGCAAGAT 
    CTTAGCTACC AAAGTGCTGC ACATATCCTG TCAGCTCCAC CCGCTGAAGC ACTGATGGTT 
    ATGAAAGATT TGAGCCAGAA TTTCCCTACC AAAGCCAGGG CATTAACAAG GACAGTAGTT 
    GACTCTGCTC TTCGTAAGGA AGTCGAAGAA AATCAAAAGT ATTTTAAGTC TAATCTTGGT 
    GTGCATCCCG GAGACTCAGC GTTGTTCATT AATGGATTGC ATGTTGATCT TGACAGTCAG 
    GATATCTTCA GCTTGTTTGA TACATTACGT AATGAAGCCC GGGTTATGGA AGGCCTTTTC 
    CGCTTAGGCA TAGATGGGAC CGCCCTCCAA AATGTTCTGA AACTTAATAT CCAACCGTCT 
    ACTGCAGATT ATGCCGTGGA TATCAGGCAC CCTGCTATAA CTTGGGTAAA CAATCTGGAG 
    ATGGACAGCA GATATAACTC ATGGCCATCC ACTCTTCAGG AGTTGCTTCG CCCCACATTC 
    CCTGGTGTCA TCCGACAGAT CCGCAGGAAC TTTCACAACT TTGTGATCAT TTTTGATCCT 
    GTGCATGACT CCACCTCTGA GCTGATTAAT CTTGCTGAAA TGTTTCTGAG TAACCATATT 
    CCAGTGAGGG TCGGGTTGGT TTTTGTTGTG GATGACTCTG AGGATGTTGA TGGTTTTCAG 
    GATGCAGGTG TTGCTTTGCT TAGAGCTTTC AACTATGTGT CCGACGAAGT GAATGAGTAT 
    CACGCCTTCC AAACAATTGT ATCTATCTAC AACAAGGTGC CAGCAGGAAA GCGCCTGACT 
    GTGAAGCACG TTACCGCTGT CCTAGAGCAG CGATATCCCT ATATTGAGCT CAGTAGCATT 
    TTGGGCAAAG ACTCTGCTTA TGACCAGTCA AGAAAGGAAG GAAAGGAATA CTTCTTGCAG 
    ACAGGGTTGA GTCCACTGCC AGTCGTACTC TTTAATGGAA TTCCCTTTTC AAAAGAACAG 
    CTGCAGCCTG ATGAGCTGGA GACTGCAACA ATGCAAAAAA TAATGGAAAC CACCACCTTC 
    TTTCAGAAAG CAGTCTACTT GGGGGAACTG ACAAATGATC AAGATGTTGT GGATCATATA 
    ATGAATCAGC CTAATGTCGT ACCAAGAATT AACTTGCGGA TCTTAGAAGC AGAGCGCCGG 
    TACCTGGATT TAACAACTCT AAATAACTAT TTTATAGATG ACTACAAACG TTTCAGCTCC 
    TTGAACTCCA ATTCTAAGAG TGCAGCAATA GTTAACAGTA TGACCTATCT TACAAAGAAA 
    GGAATGTCAT CCAGGGAGAT TTATGATGAC TCTTTTGTGA GACCTGTCAC ATTTTGGATT 
    GTGGGGGATT TTGATCAGCC TTCAGGCCGC CAGCTTTTGT ATGATGCAAT TAAACATCAG 
    AAATCCAGTA ATAATGTAAG GATTGGCATA CTCAGCAACC CCAGCCAGGA TCCATCGGCT 
    GAGAGCACTC GCATTGCACG GGCCATCTGG GCGGCTCTGC AGACTCAGAA CTCAAACAAT 
    GCCAAGAACT TCATCACCAA AATTGTCAAG GAGGAAAATG CAAGGCAGAT CGAGGCAGGA 
    AAGGACCCAG TGGAATTTGC TGTTGGGGGT ATGGATACCA GTCTGTTCCG TGAGATGTTT 
    GAGTCCCCAA AGGTGGATTT CATCTTATCG CATACTCTTT ACTGCCGGGA GGTTTTGAAA 
    TTGAAAAAAG GGGAGAGAGC CATTATCAGC AATGGAAGGA TTATTGGGCC TTTACGTGAC 
    GATGAAATAT TTAATCAAGA TGATTTCCAC CTTCTAGAGA ATCTTGTCTT GAAGACCTCT 
    GCGCAGAATA TTAAATCCCA TATTAAGCTG CTTCAAGTGG AAGAAGATCA TGCCAGTGAT 
    CTGGTGATGA AGGTAGATTC ACTGTTGTCC TCCCAACCCA AAGGAGAAGG GAGAGTTAAT 
    TACCAGATAC CCGAAGACGC ACACAGTGCT ATTAAGCTGA GACCTACAGA AGGAATGATT 
    TATTTTGATG TGGTTGCCGT TGTAGACCCC GTAACAAAAG CAGCGCAGAG ACTAGCCCCT 
    CTACTCCTGG TTCTTAAACA AGTACTAAAT ATGAATCTTC GCGTGTTTAT GAACTGCCAG 
    TCCAAGCTGT CGGAGATGCC TCTGAAGAGT TTCTATCGCT ACGTTTTGGA ACCAGAGGTG 
    ATGTTCACAT CACAGAAGAA TATTGCTCCT GGTCCCATTG CCAAGTTCCT AGACATGCCC 
    CAGTCTCCAC TTTTTACTCT CAGCCTTGAC ACTCCTGACA GCTGGATGGT GGAGTCAGTG 
    CGGACGCCGT ATGATCTGGA TAATATATAC CTTGAGGAGG TGGACAGTGT TGTAGCAGCT 
    GAGTTTGAGC TTGAGTATCT CCTCTTAGAA GGCCATTGTT TTGATGTCTC TACTGGACAG 
    CCACCCCGAG GGCTCCAGTT CACATTGGGA ACATCTACAA ATCCTGTAGT GGTGGACACA 
    ATCGTCATGG CTAACTTGGG TTATTTTCAG TTAAAAGCCA ATCCTGGTGC TTGGATGCTG 
    AGGCTCAGAA AAGGGCGCTC AGAGGATATT TATACTATTT ACAGTCATGA AGGGACAGAT 
    TCTGATCCAG AAGCTTCTGA TGTGGTGGTT GTGCTACATG ATTTTAAGAG CAAAATAATT 
    AAAGTAAAAG TCCAGAAAAA GCCGGACAAA ATGAACGAGG ACCTTCTGAG TGATGGAAAT 
    AGTGAAAATG AGTCGGGATT CTGGGATTCC ATTACATGGG GACTTGCAGG AAGTCAGAAA 
    CAAGATGACG TAAAAGCAGA GAAAGAAGAC GTACTTAATA TCTTCTCTGT GGCCTCCGGT 
    CACTTGTATG AGAGATTTCT TAGAATAATG ATGTTGTCAG TGCTGAAAAA TACGCAGACG 
    CCGGTTAAGT TCTGGTTTTT AAAGAATTAT CTGTCACCCA CGTTTAAGAA TTTTATTCCA 
    TACATGGCCA AGAAGTACAA CTTCCAGTAT GAACTGGTCC AATATAAGTG GCCTCGTTGG 
    CTGCACCAAC AAACTGAGAA GCAGAGAATT ATCTGGGGAT ATAAAATCCT GTTCCTGGAT 
    GTTCTGTTTC CACTGGCAGT GGATAAATTC ATCTTTGTAG ATGCCGATCA GATCGTAAGG 
    ACTGATCTGA AGGAGTTGCG GGAATTCAAT TTGGATGGTG CCCCTTATGG GTACACACCG 
    TTCTGTGAAA GCAGGAGGGA GATGGACGGT TACCGCTTCT GGAAATCTGG GTACTGGGCC 
    AGTCATTTGG CTGGGCGTAA GTACCACATT AGTGCTCTGT ATGTAGTGGA TTTGAAAAAG 
    TTCCGGAAGA TAGCAGCTGG AGACAGGCTG AGAGGGCAGT ACCAAGGCCT AAGCCAGGAT 
    CCCAACAGTC TCTCCAATCT TGACCAGGAT CTTCCAAATA ATATGATCCA TCAAGTGCCC 
    ATAAAGTCTT TGCCTCAGGA GTGGCTGTGG TGTGAAACTT GGTGTGACGA TACATCGAAG 
    AAGAAGGCCA AAACCATAGA CTTGTGTAAC AACCCTATGA CCAAAGAGCC CAAGTTGCAG 
    GCAGCAGTGC GGATCGTCCC TGAATGGCAA GAATATGACC AAGAGATTAA GAAACTCTAT 
    AGCCATTTCC AGGATGAGTC CTCAAATGGG TCATTGCACC AACCTGATAC GAGCACCAAA 
    CCAGATAAAG AAAACCACAT GGAGTTATGA

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

    uggt1 ( XM_004914484.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_004914541.1 Xenopus tropicalis UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa10347
    Clone ID Related Accession (Same CDS sequence) XM_004914484.3 , XM_004914484.4
    Accession Version XM_004914484.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4740bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030681.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_004914484.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    4681
    ATGGTGATAT GTAGGGCTGC TTGTAGGGTT CAGCAGGGAG GGCAGTTGCC AAGGGTTCCC 
    TACATGATAA CAGGGGCCCT TTACATGGTA GAAGGAAAAC AGATACACAT GCAAAGCAAA 
    TATTTTAGAA GGTTGTCAGG AACCGGCTCA ATGATGGAAA CAGCCATGAT TCTCCTTGGC 
    TTGTGCCTGT GTATCTCCAG TGTCTCTGCA GATTCCAAAG CTGTTACAAC GTCCCTCACC 
    GCAAAGTGGG CATCTACTCC TTTACTGCTG GAAGCCAGTG AATTCTTAGC TGAAGAAGCT 
    CCTGATAAGT TCTGGGCCTT TGTGGATGAA GTGCAACAAG TGAAGGATCA AGGTTCTGAT 
    AGTATCAACT ATGAGCTGAT GGTGAATAAG GCAAGCCGAC AGCTGACTCC CCAACAGGAG 
    AACCTTCTGA AATTTGCCTT GTCTCTCCGC ACCTACTCTG CTACAGTACA GACCTTCCAG 
    CAGATGGCCG CAGATGAGCC ACCCCCAGCA GGCTGCACTA GTTTCATTGT AGTGCATGGA 
    GCGAAGACAT GTGTTCTTGA AAACTTGCCA TCACTTCTCA AGACTGCTTC TCAAAGACCG 
    AAGCCCTTTC TGTTCAAAGG AGATCACAGA TACCCATATG GTGCACCCGA AAGCCCTGTT 
    GTTATACTTT ATGCTGAGAT TGGCTCCAAA GACTTTGCTA GGTTTCACCA GCTGCTTTCT 
    CTGAAGGCCC AAGAAGATGG GATTAATTAC ATACTCCGTC ACTTTGTTTC TAACCCACGA 
    TCTGAAAAGG TTTTTCTGTC TGGATATGGT GTAGAGCTGT CCATGAAGAG CACGGAATAT 
    AAAGCAAAGG ATGACACACA AGTGAAAGGA AATGATGTGA ATGCTACAGT GGTGGGTGAT 
    AACGATCCAG TAGATGAAGT ACAGGGATTT CTCTTTGGGA AGCTCAGGCA GTTGTATCCA 
    GAGCTTAAGG AGCAGCTGAA AGAACTGAGG AAACATTTAA TTGATAGCAC CAATGAAATG 
    GCACCTCTGA AGGTCTGGGA GCTGCAAGAT CTTAGCTACC AAAGTGCTGC ACATATCCTG 
    TCAGCTCCAC CCGCTGAAGC ACTGATGGTT ATGAAAGATT TGAGCCAGAA TTTCCCTACC 
    AAAGCCAGGG CATTAACAAG GACAGTAGTT GACTCTGCTC TTCGTAAGGA AGTCGAAGAA 
    AATCAAAAGT ATTTTAAGTC TAATCTTGGT GTGCATCCCG GAGACTCAGC GTTGTTCATT 
    AATGGATTGC ATGTTGATCT TGACAGTCAG GATATCTTCA GCTTGTTTGA TACATTACGT 
    AATGAAGCCC GGGTTATGGA AGGCCTTTTC CGCTTAGGCA TAGATGGGAC CGCCCTCCAA 
    AATGTTCTGA AACTTAATAT CCAACCGTCT ACTGCAGATT ATGCCGTGGA TATCAGGCAC 
    CCTGCTATAA CTTGGGTAAA CAATCTGGAG ATGGACAGCA GATATAACTC ATGGCCATCC 
    ACTCTTCAGG AGTTGCTTCG CCCCACATTC CCTGGTGTCA TCCGACAGAT CCGCAGGAAC 
    TTTCACAACT TTGTGATCAT TTTTGATCCT GTGCATGACT CCACCTCTGA GCTGATTAAT 
    CTTGCTGAAA TGTTTCTGAG TAACCATATT CCAGTGAGGG TCGGGTTGGT TTTTGTTGTG 
    GATGACTCTG AGGATGTTGA TGGTTTTCAG GATGCAGGTG TTGCTTTGCT TAGAGCTTTC 
    AACTATGTGT CCGACGAAGT GAATGAGTAT CACGCCTTCC AAACAATTGT ATCTATCTAC 
    AACAAGGTGC CAGCAGGAAA GCGCCTGACT GTGAAGCACG TTACCGCTGT CCTAGAGCAG 
    CGATATCCCT ATATTGAGCT CAGTAGCATT TTGGGCAAAG ACTCTGCTTA TGACCAGTCA 
    AGAAAGGAAG GAAAGGAATA CTTCTTGCAG ACAGGGTTGA GTCCACTGCC AGTCGTACTC 
    TTTAATGGAA TTCCCTTTTC AAAAGAACAG CTGCAGCCTG ATGAGCTGGA GACTGCAACA 
    ATGCAAAAAA TAATGGAAAC CACCACCTTC TTTCAGAAAG CAGTCTACTT GGGGGAACTG 
    ACAAATGATC AAGATGTTGT GGATCATATA ATGAATCAGC CTAATGTCGT ACCAAGAATT 
    AACTTGCGGA TCTTAGAAGC AGAGCGCCGG TACCTGGATT TAACAACTCT AAATAACTAT 
    TTTATAGATG ACTACAAACG TTTCAGCTCC TTGAACTCCA ATTCTAAGAG TGCAGCAATA 
    GTTAACAGTA TGACCTATCT TACAAAGAAA GGAATGTCAT CCAGGGAGAT TTATGATGAC 
    TCTTTTGTGA GACCTGTCAC ATTTTGGATT GTGGGGGATT TTGATCAGCC TTCAGGCCGC 
    CAGCTTTTGT ATGATGCAAT TAAACATCAG AAATCCAGTA ATAATGTAAG GATTGGCATA 
    CTCAGCAACC CCAGCCAGGA TCCATCGGCT GAGAGCACTC GCATTGCACG GGCCATCTGG 
    GCGGCTCTGC AGACTCAGAA CTCAAACAAT GCCAAGAACT TCATCACCAA AATTGTCAAG 
    GAGGAAAATG CAAGGCAGAT CGAGGCAGGA AAGGACCCAG TGGAATTTGC TGTTGGGGGT 
    ATGGATACCA GTCTGTTCCG TGAGATGTTT GAGTCCCCAA AGGTGGATTT CATCTTATCG 
    CATACTCTTT ACTGCCGGGA GGTTTTGAAA TTGAAAAAAG GGGAGAGAGC CATTATCAGC 
    AATGGAAGGA TTATTGGGCC TTTACGTGAC GATGAAATAT TTAATCAAGA TGATTTCCAC 
    CTTCTAGAGA ATCTTGTCTT GAAGACCTCT GCGCAGAATA TTAAATCCCA TATTAAGCTG 
    CTTCAAGTGG AAGAAGATCA TGCCAGTGAT CTGGTGATGA AGGTAGATTC ACTGTTGTCC 
    TCCCAACCCA AAGGAGAAGG GAGAGTTAAT TACCAGATAC CCGAAGACGC ACACAGTGCT 
    ATTAAGCTGA GACCTACAGA AGGAATGATT TATTTTGATG TGGTTGCCGT TGTAGACCCC 
    GTAACAAAAG CAGCGCAGAG ACTAGCCCCT CTACTCCTGG TTCTTAAACA AGTACTAAAT 
    ATGAATCTTC GCGTGTTTAT GAACTGCCAG TCCAAGCTGT CGGAGATGCC TCTGAAGAGT 
    TTCTATCGCT ACGTTTTGGA ACCAGAGGTG ATGTTCACAT CACAGAAGAA TATTGCTCCT 
    GGTCCCATTG CCAAGTTCCT AGACATGCCC CAGTCTCCAC TTTTTACTCT CAGCCTTGAC 
    ACTCCTGACA GCTGGATGGT GGAGTCAGTG CGGACGCCGT ATGATCTGGA TAATATATAC 
    CTTGAGGAGG TGGACAGTGT TGTAGCAGCT GAGTTTGAGC TTGAGTATCT CCTCTTAGAA 
    GGCCATTGTT TTGATGTCTC TACTGGACAG CCACCCCGAG GGCTCCAGTT CACATTGGGA 
    ACATCTACAA ATCCTGTAGT GGTGGACACA ATCGTCATGG CTAACTTGGG TTATTTTCAG 
    TTAAAAGCCA ATCCTGGTGC TTGGATGCTG AGGCTCAGAA AAGGGCGCTC AGAGGATATT 
    TATACTATTT ACAGTCATGA AGGGACAGAT TCTGATCCAG AAGCTTCTGA TGTGGTGGTT 
    GTGCTACATG ATTTTAAGAG CAAAATAATT AAAGTAAAAG TCCAGAAAAA GCCGGACAAA 
    ATGAACGAGG ACCTTCTGAG TGATGGAAAT AGTGAAAATG AGTCGGGATT CTGGGATTCC 
    ATTACATGGG GACTTGCAGG AAGTCAGAAA CAAGATGACG TAAAAGCAGA GAAAGAAGAC 
    GTACTTAATA TCTTCTCTGT GGCCTCCGGT CACTTGTATG AGAGATTTCT TAGAATAATG 
    ATGTTGTCAG TGCTGAAAAA TACGCAGACG CCGGTTAAGT TCTGGTTTTT AAAGAATTAT 
    CTGTCACCCA CGTTTAAGAA TTTTATTCCA TACATGGCCA AGAAGTACAA CTTCCAGTAT 
    GAACTGGTCC AATATAAGTG GCCTCGTTGG CTGCACCAAC AAACTGAGAA GCAGAGAATT 
    ATCTGGGGAT ATAAAATCCT GTTCCTGGAT GTTCTGTTTC CACTGGCAGT GGATAAATTC 
    ATCTTTGTAG ATGCCGATCA GATCGTAAGG ACTGATCTGA AGGAGTTGCG GGAATTCAAT 
    TTGGATGGTG CCCCTTATGG GTACACACCG TTCTGTGAAA GCAGGAGGGA GATGGACGGT 
    TACCGCTTCT GGAAATCTGG GTACTGGGCC AGTCATTTGG CTGGGCGTAA GTACCACATT 
    AGTGCTCTGT ATGTAGTGGA TTTGAAAAAG TTCCGGAAGA TAGCAGCTGG AGACAGGCTG 
    AGAGGGCAGT ACCAAGGCCT AAGCCAGGAT CCCAACAGTC TCTCCAATCT TGACCAGGAT 
    CTTCCAAATA ATATGATCCA TCAAGTGCCC ATAAAGTCTT TGCCTCAGGA GTGGCTGTGG 
    TGTGAAACTT GGTGTGACGA TACATCGAAG AAGAAGGCCA AAACCATAGA CTTGTGTAAC 
    AACCCTATGA CCAAAGAGCC CAAGTTGCAG GCAGCAGTGC GGATCGTCCC TGAATGGCAA 
    GAATATGACC AAGAGATTAA GAAACTCTAT AGCCATTTCC AGGATGAGTC CTCAAATGGG 
    TCATTGCACC AACCTGATAC GAGCACCAAA CCAGATAAAG AAAACCACAT GGAGTTATGA

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

    RefSeq XP_004914541.1
    CDS161..4900
    Translation

    Target ORF information:

    RefSeq Version XM_004914484.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_004914484.3

    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
    4621
    4681
    ATGGTGATAT GTAGGGCTGC TTGTAGGGTT CAGCAGGGAG GGCAGTTGCC AAGGGTTCCC 
    TACATGATAA CAGGGGCCCT TTACATGGTA GAAGGAAAAC AGATACACAT GCAAAGCAAA 
    TATTTTAGAA GGTTGTCAGG AACCGGCTCA ATGATGGAAA CAGCCATGAT TCTCCTTGGC 
    TTGTGCCTGT GTATCTCCAG TGTCTCTGCA GATTCCAAAG CTGTTACAAC GTCCCTCACC 
    GCAAAGTGGG CATCTACTCC TTTACTGCTG GAAGCCAGTG AATTCTTAGC TGAAGAAGCT 
    CCTGATAAGT TCTGGGCCTT TGTGGATGAA GTGCAACAAG TGAAGGATCA AGGTTCTGAT 
    AGTATCAACT ATGAGCTGAT GGTGAATAAG GCAAGCCGAC AGCTGACTCC CCAACAGGAG 
    AACCTTCTGA AATTTGCCTT GTCTCTCCGC ACCTACTCTG CTACAGTACA GACCTTCCAG 
    CAGATGGCCG CAGATGAGCC ACCCCCAGCA GGCTGCACTA GTTTCATTGT AGTGCATGGA 
    GCGAAGACAT GTGTTCTTGA AAACTTGCCA TCACTTCTCA AGACTGCTTC TCAAAGACCG 
    AAGCCCTTTC TGTTCAAAGG AGATCACAGA TACCCATATG GTGCACCCGA AAGCCCTGTT 
    GTTATACTTT ATGCTGAGAT TGGCTCCAAA GACTTTGCTA GGTTTCACCA GCTGCTTTCT 
    CTGAAGGCCC AAGAAGATGG GATTAATTAC ATACTCCGTC ACTTTGTTTC TAACCCACGA 
    TCTGAAAAGG TTTTTCTGTC TGGATATGGT GTAGAGCTGT CCATGAAGAG CACGGAATAT 
    AAAGCAAAGG ATGACACACA AGTGAAAGGA AATGATGTGA ATGCTACAGT GGTGGGTGAT 
    AACGATCCAG TAGATGAAGT ACAGGGATTT CTCTTTGGGA AGCTCAGGCA GTTGTATCCA 
    GAGCTTAAGG AGCAGCTGAA AGAACTGAGG AAACATTTAA TTGATAGCAC CAATGAAATG 
    GCACCTCTGA AGGTCTGGGA GCTGCAAGAT CTTAGCTACC AAAGTGCTGC ACATATCCTG 
    TCAGCTCCAC CCGCTGAAGC ACTGATGGTT ATGAAAGATT TGAGCCAGAA TTTCCCTACC 
    AAAGCCAGGG CATTAACAAG GACAGTAGTT GACTCTGCTC TTCGTAAGGA AGTCGAAGAA 
    AATCAAAAGT ATTTTAAGTC TAATCTTGGT GTGCATCCCG GAGACTCAGC GTTGTTCATT 
    AATGGATTGC ATGTTGATCT TGACAGTCAG GATATCTTCA GCTTGTTTGA TACATTACGT 
    AATGAAGCCC GGGTTATGGA AGGCCTTTTC CGCTTAGGCA TAGATGGGAC CGCCCTCCAA 
    AATGTTCTGA AACTTAATAT CCAACCGTCT ACTGCAGATT ATGCCGTGGA TATCAGGCAC 
    CCTGCTATAA CTTGGGTAAA CAATCTGGAG ATGGACAGCA GATATAACTC ATGGCCATCC 
    ACTCTTCAGG AGTTGCTTCG CCCCACATTC CCTGGTGTCA TCCGACAGAT CCGCAGGAAC 
    TTTCACAACT TTGTGATCAT TTTTGATCCT GTGCATGACT CCACCTCTGA GCTGATTAAT 
    CTTGCTGAAA TGTTTCTGAG TAACCATATT CCAGTGAGGG TCGGGTTGGT TTTTGTTGTG 
    GATGACTCTG AGGATGTTGA TGGTTTTCAG GATGCAGGTG TTGCTTTGCT TAGAGCTTTC 
    AACTATGTGT CCGACGAAGT GAATGAGTAT CACGCCTTCC AAACAATTGT ATCTATCTAC 
    AACAAGGTGC CAGCAGGAAA GCGCCTGACT GTGAAGCACG TTACCGCTGT CCTAGAGCAG 
    CGATATCCCT ATATTGAGCT CAGTAGCATT TTGGGCAAAG ACTCTGCTTA TGACCAGTCA 
    AGAAAGGAAG GAAAGGAATA CTTCTTGCAG ACAGGGTTGA GTCCACTGCC AGTCGTACTC 
    TTTAATGGAA TTCCCTTTTC AAAAGAACAG CTGCAGCCTG ATGAGCTGGA GACTGCAACA 
    ATGCAAAAAA TAATGGAAAC CACCACCTTC TTTCAGAAAG CAGTCTACTT GGGGGAACTG 
    ACAAATGATC AAGATGTTGT GGATCATATA ATGAATCAGC CTAATGTCGT ACCAAGAATT 
    AACTTGCGGA TCTTAGAAGC AGAGCGCCGG TACCTGGATT TAACAACTCT AAATAACTAT 
    TTTATAGATG ACTACAAACG TTTCAGCTCC TTGAACTCCA ATTCTAAGAG TGCAGCAATA 
    GTTAACAGTA TGACCTATCT TACAAAGAAA GGAATGTCAT CCAGGGAGAT TTATGATGAC 
    TCTTTTGTGA GACCTGTCAC ATTTTGGATT GTGGGGGATT TTGATCAGCC TTCAGGCCGC 
    CAGCTTTTGT ATGATGCAAT TAAACATCAG AAATCCAGTA ATAATGTAAG GATTGGCATA 
    CTCAGCAACC CCAGCCAGGA TCCATCGGCT GAGAGCACTC GCATTGCACG GGCCATCTGG 
    GCGGCTCTGC AGACTCAGAA CTCAAACAAT GCCAAGAACT TCATCACCAA AATTGTCAAG 
    GAGGAAAATG CAAGGCAGAT CGAGGCAGGA AAGGACCCAG TGGAATTTGC TGTTGGGGGT 
    ATGGATACCA GTCTGTTCCG TGAGATGTTT GAGTCCCCAA AGGTGGATTT CATCTTATCG 
    CATACTCTTT ACTGCCGGGA GGTTTTGAAA TTGAAAAAAG GGGAGAGAGC CATTATCAGC 
    AATGGAAGGA TTATTGGGCC TTTACGTGAC GATGAAATAT TTAATCAAGA TGATTTCCAC 
    CTTCTAGAGA ATCTTGTCTT GAAGACCTCT GCGCAGAATA TTAAATCCCA TATTAAGCTG 
    CTTCAAGTGG AAGAAGATCA TGCCAGTGAT CTGGTGATGA AGGTAGATTC ACTGTTGTCC 
    TCCCAACCCA AAGGAGAAGG GAGAGTTAAT TACCAGATAC CCGAAGACGC ACACAGTGCT 
    ATTAAGCTGA GACCTACAGA AGGAATGATT TATTTTGATG TGGTTGCCGT TGTAGACCCC 
    GTAACAAAAG CAGCGCAGAG ACTAGCCCCT CTACTCCTGG TTCTTAAACA AGTACTAAAT 
    ATGAATCTTC GCGTGTTTAT GAACTGCCAG TCCAAGCTGT CGGAGATGCC TCTGAAGAGT 
    TTCTATCGCT ACGTTTTGGA ACCAGAGGTG ATGTTCACAT CACAGAAGAA TATTGCTCCT 
    GGTCCCATTG CCAAGTTCCT AGACATGCCC CAGTCTCCAC TTTTTACTCT CAGCCTTGAC 
    ACTCCTGACA GCTGGATGGT GGAGTCAGTG CGGACGCCGT ATGATCTGGA TAATATATAC 
    CTTGAGGAGG TGGACAGTGT TGTAGCAGCT GAGTTTGAGC TTGAGTATCT CCTCTTAGAA 
    GGCCATTGTT TTGATGTCTC TACTGGACAG CCACCCCGAG GGCTCCAGTT CACATTGGGA 
    ACATCTACAA ATCCTGTAGT GGTGGACACA ATCGTCATGG CTAACTTGGG TTATTTTCAG 
    TTAAAAGCCA ATCCTGGTGC TTGGATGCTG AGGCTCAGAA AAGGGCGCTC AGAGGATATT 
    TATACTATTT ACAGTCATGA AGGGACAGAT TCTGATCCAG AAGCTTCTGA TGTGGTGGTT 
    GTGCTACATG ATTTTAAGAG CAAAATAATT AAAGTAAAAG TCCAGAAAAA GCCGGACAAA 
    ATGAACGAGG ACCTTCTGAG TGATGGAAAT AGTGAAAATG AGTCGGGATT CTGGGATTCC 
    ATTACATGGG GACTTGCAGG AAGTCAGAAA CAAGATGACG TAAAAGCAGA GAAAGAAGAC 
    GTACTTAATA TCTTCTCTGT GGCCTCCGGT CACTTGTATG AGAGATTTCT TAGAATAATG 
    ATGTTGTCAG TGCTGAAAAA TACGCAGACG CCGGTTAAGT TCTGGTTTTT AAAGAATTAT 
    CTGTCACCCA CGTTTAAGAA TTTTATTCCA TACATGGCCA AGAAGTACAA CTTCCAGTAT 
    GAACTGGTCC AATATAAGTG GCCTCGTTGG CTGCACCAAC AAACTGAGAA GCAGAGAATT 
    ATCTGGGGAT ATAAAATCCT GTTCCTGGAT GTTCTGTTTC CACTGGCAGT GGATAAATTC 
    ATCTTTGTAG ATGCCGATCA GATCGTAAGG ACTGATCTGA AGGAGTTGCG GGAATTCAAT 
    TTGGATGGTG CCCCTTATGG GTACACACCG TTCTGTGAAA GCAGGAGGGA GATGGACGGT 
    TACCGCTTCT GGAAATCTGG GTACTGGGCC AGTCATTTGG CTGGGCGTAA GTACCACATT 
    AGTGCTCTGT ATGTAGTGGA TTTGAAAAAG TTCCGGAAGA TAGCAGCTGG AGACAGGCTG 
    AGAGGGCAGT ACCAAGGCCT AAGCCAGGAT CCCAACAGTC TCTCCAATCT TGACCAGGAT 
    CTTCCAAATA ATATGATCCA TCAAGTGCCC ATAAAGTCTT TGCCTCAGGA GTGGCTGTGG 
    TGTGAAACTT GGTGTGACGA TACATCGAAG AAGAAGGCCA AAACCATAGA CTTGTGTAAC 
    AACCCTATGA CCAAAGAGCC CAAGTTGCAG GCAGCAGTGC GGATCGTCCC TGAATGGCAA 
    GAATATGACC AAGAGATTAA GAAACTCTAT AGCCATTTCC AGGATGAGTC CTCAAATGGG 
    TCATTGCACC AACCTGATAC GAGCACCAAA CCAGATAAAG AAAACCACAT GGAGTTATGA

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

    uggt1 ( XM_004914485.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_004914542.1 Xenopus tropicalis UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa10348
    Clone ID Related Accession (Same CDS sequence) XM_004914485.4 , XM_004914485.3
    Accession Version XM_004914485.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4716bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030681.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_004914485.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    4681
    ATGGTGATAT GTAGGGCTGC TTGTAGGGTT CAGCAGGGAG GGCAGTTGCC AAGGGTTCCC 
    TACATGATAA CAGGGGCCCT TTACATGGTA GAAGGAAAAC AGATACACAT GCAAAGCAAA 
    TATTTTAGAA GGTTGTCAGG AACCGGCTCA ATGATGGAAA CAGCCATGAT TCTCCTTGGC 
    TTGTGCCTGT GTATCTCCAG TGTCTCTGCA GATTCCAAAG CTGTTACAAC GTCCCTCACC 
    GCAAAGTGGG CATCTACTCC TTTACTGCTG GAAGCCAGTG AATTCTTAGC TGAAGAAGCT 
    CCTGATAAGT TCTGGGCCTT TGTGGATGAA GTGCAACAAG TGAAGGATCA AGGTTCTGAT 
    AGTATCAACT ATGAGCTGAT GGTGAATAAG GCAAGCCGAC AGCTGACTCC CCAACAGGAG 
    AACCTTCTGA AATTTGCCTT GTCTCTCCGC ACCTACTCTG CTACAGTACA GACCTTCCAG 
    CAGATGGCCG CAGATGAGCC ACCCCCAGCA GGCTGCACTA GTTTCATTGT AGTGCATGGA 
    GCGAAGACAT GTGTTCTTGA AAACTTGCCA TCACTTCTCA AGACTGCTTC TCAAAGACCG 
    AAGCCCTTTC TGTTCAAAGG AGATCACAGA TACCCATATG GTGCACCCGA AAGCCCTGTT 
    GTTATACTTT ATGCTGAGAT TGGCTCCAAA GACTTTGCTA GGTTTCACCA GCTGCTTTCT 
    CTGAAGGCCC AAGAAGATGG GATTAATTAC ATACTCCGTC ACTTTGTTTC TAACCCACGA 
    TCTGAAAAGG TTTTTCTGTC TGGATATGGT GTAGAGCTGT CCATGAAGAG CACGGAATAT 
    AAAGCAAAGG ATGACACACA AGTGAAAGGA AATGATGTGA ATGCTACAGT GGTGGGTGAT 
    AACGATCCAG TAGATGAAGT ACAGGGATTT CTCTTTGGGA AGCTCAGGCA GTTGTATCCA 
    GAGCTTAAGG AGCAGCTGAA AGAACTGAGG AAACATTTAA TTGATAGCAC CAATGAAATG 
    GCACCTCTGA AGGTCTGGGA GCTGCAAGAT CTTAGCTACC AAAGTGCTGC ACATATCCTG 
    TCAGCTCCAC CCGCTGAAGC ACTGATGGTT ATGAAAGATT TGAGCCAGAA TTTCCCTACC 
    AAAGCCAGGG CATTAACAAG GACAGTAGTT GACTCTGCTC TTCGTAAGGA AGTCGAAGAA 
    AATCAAAAGT ATTTTAAGTC TAATCTTGGT GTGCATCCCG GAGACTCAGC GTTGTTCATT 
    AATGGATTGC ATGTTGATCT TGACAGTCAG GATATCTTCA GCTTGTTTGA TACATTACGT 
    AATGAAGCCC GGGTTATGGA AGGCCTTTTC CGCTTAGGCA TAGATGGGAC CGCCCTCCAA 
    AATGTTCTGA AACTTAATAT CCAACCGTCT ACTGCAGATT ATGCCGTGGA TATCAGGCAC 
    CCTGCTATAA CTTGGGTAAA CAATCTGGAG ATGGACAGCA GATATAACTC ATGGCCATCC 
    ACTCTTCAGG AGTTGCTTCG CCCCACATTC CCTGGTGTCA TCCGACAGAT CCGCAGGAAC 
    TTTCACAACT TTGTGATCAT TTTTGATCCT GTGCATGACT CCACCTCTGA GCTGATTAAT 
    CTTGCTGAAA TGTTTCTGAG TAACCATATT CCAGTGAGGG TCGGGTTGGT TTTTGTTGTG 
    GATGACTCTG AGGATGTTGA TGGTTTTCAG GATGCAGGTG TTGCTTTGCT TAGAGCTTTC 
    AACTATGTGT CCGACGAAGT GAATGAGTAT CACGCCTTCC AAACAATTGT ATCTATCTAC 
    AACAAGGTGC CAGCAGGAAA GCGCCTGACT GTGAAGCACG TTACCGCTGT CCTAGAGCAG 
    CGATATCCCT ATATTGAGCT CAGTAGCATT TTGGGCAAAG ACTCTGCTTA TGACCAGTCA 
    AGAAAGGAAG GAAAGGAATA CTTCTTGCAG ACAGGGTTGA GTCCACTGCC AGTCGTACTC 
    TTTAATGGAA TTCCCTTTTC AAAAGAACAG CTGCAGCCTG ATGAGCTGGA GACTGCAACA 
    ATGCAAAAAA TAATGGAAAC CACCACCTTC TTTCAGAAAG CAGTCTACTT GGGGGAACTG 
    ACAAATGATC AAGATGTTGT GGATCATATA ATGAATCAGC CTAATGTCGT ACCAAGAATT 
    AACTTGCGGA TCTTAGAAGC AGAGCGCCGG TACCTGGATT TAACAACTCT AAATAACTAT 
    TTTATAGATG ACTACAAACG TTTCAGCTCC TTGAACTCCA ATTCTAAGAG TGCAGCAATA 
    GTTAACAGTA TGACCTATCT TACAAAGAAA GATGACTCTT TTGTGAGACC TGTCACATTT 
    TGGATTGTGG GGGATTTTGA TCAGCCTTCA GGCCGCCAGC TTTTGTATGA TGCAATTAAA 
    CATCAGAAAT CCAGTAATAA TGTAAGGATT GGCATACTCA GCAACCCCAG CCAGGATCCA 
    TCGGCTGAGA GCACTCGCAT TGCACGGGCC ATCTGGGCGG CTCTGCAGAC TCAGAACTCA 
    AACAATGCCA AGAACTTCAT CACCAAAATT GTCAAGGAGG AAAATGCAAG GCAGATCGAG 
    GCAGGAAAGG ACCCAGTGGA ATTTGCTGTT GGGGGTATGG ATACCAGTCT GTTCCGTGAG 
    ATGTTTGAGT CCCCAAAGGT GGATTTCATC TTATCGCATA CTCTTTACTG CCGGGAGGTT 
    TTGAAATTGA AAAAAGGGGA GAGAGCCATT ATCAGCAATG GAAGGATTAT TGGGCCTTTA 
    CGTGACGATG AAATATTTAA TCAAGATGAT TTCCACCTTC TAGAGAATCT TGTCTTGAAG 
    ACCTCTGCGC AGAATATTAA ATCCCATATT AAGCTGCTTC AAGTGGAAGA AGATCATGCC 
    AGTGATCTGG TGATGAAGGT AGATTCACTG TTGTCCTCCC AACCCAAAGG AGAAGGGAGA 
    GTTAATTACC AGATACCCGA AGACGCACAC AGTGCTATTA AGCTGAGACC TACAGAAGGA 
    ATGATTTATT TTGATGTGGT TGCCGTTGTA GACCCCGTAA CAAAAGCAGC GCAGAGACTA 
    GCCCCTCTAC TCCTGGTTCT TAAACAAGTA CTAAATATGA ATCTTCGCGT GTTTATGAAC 
    TGCCAGTCCA AGCTGTCGGA GATGCCTCTG AAGAGTTTCT ATCGCTACGT TTTGGAACCA 
    GAGGTGATGT TCACATCACA GAAGAATATT GCTCCTGGTC CCATTGCCAA GTTCCTAGAC 
    ATGCCCCAGT CTCCACTTTT TACTCTCAGC CTTGACACTC CTGACAGCTG GATGGTGGAG 
    TCAGTGCGGA CGCCGTATGA TCTGGATAAT ATATACCTTG AGGAGGTGGA CAGTGTTGTA 
    GCAGCTGAGT TTGAGCTTGA GTATCTCCTC TTAGAAGGCC ATTGTTTTGA TGTCTCTACT 
    GGACAGCCAC CCCGAGGGCT CCAGTTCACA TTGGGAACAT CTACAAATCC TGTAGTGGTG 
    GACACAATCG TCATGGCTAA CTTGGGTTAT TTTCAGTTAA AAGCCAATCC TGGTGCTTGG 
    ATGCTGAGGC TCAGAAAAGG GCGCTCAGAG GATATTTATA CTATTTACAG TCATGAAGGG 
    ACAGATTCTG ATCCAGAAGC TTCTGATGTG GTGGTTGTGC TACATGATTT TAAGAGCAAA 
    ATAATTAAAG TAAAAGTCCA GAAAAAGCCG GACAAAATGA ACGAGGACCT TCTGAGTGAT 
    GGAAATAGTG AAAATGAGTC GGGATTCTGG GATTCCATTA CATGGGGACT TGCAGGAAGT 
    CAGAAACAAG ATGACGTAAA AGCAGAGAAA GAAGACGTAC TTAATATCTT CTCTGTGGCC 
    TCCGGTCACT TGTATGAGAG ATTTCTTAGA ATAATGATGT TGTCAGTGCT GAAAAATACG 
    CAGACGCCGG TTAAGTTCTG GTTTTTAAAG AATTATCTGT CACCCACGTT TAAGAATTTT 
    ATTCCATACA TGGCCAAGAA GTACAACTTC CAGTATGAAC TGGTCCAATA TAAGTGGCCT 
    CGTTGGCTGC ACCAACAAAC TGAGAAGCAG AGAATTATCT GGGGATATAA AATCCTGTTC 
    CTGGATGTTC TGTTTCCACT GGCAGTGGAT AAATTCATCT TTGTAGATGC CGATCAGATC 
    GTAAGGACTG ATCTGAAGGA GTTGCGGGAA TTCAATTTGG ATGGTGCCCC TTATGGGTAC 
    ACACCGTTCT GTGAAAGCAG GAGGGAGATG GACGGTTACC GCTTCTGGAA ATCTGGGTAC 
    TGGGCCAGTC ATTTGGCTGG GCGTAAGTAC CACATTAGTG CTCTGTATGT AGTGGATTTG 
    AAAAAGTTCC GGAAGATAGC AGCTGGAGAC AGGCTGAGAG GGCAGTACCA AGGCCTAAGC 
    CAGGATCCCA ACAGTCTCTC CAATCTTGAC CAGGATCTTC CAAATAATAT GATCCATCAA 
    GTGCCCATAA AGTCTTTGCC TCAGGAGTGG CTGTGGTGTG AAACTTGGTG TGACGATACA 
    TCGAAGAAGA AGGCCAAAAC CATAGACTTG TGTAACAACC CTATGACCAA AGAGCCCAAG 
    TTGCAGGCAG CAGTGCGGAT CGTCCCTGAA TGGCAAGAAT ATGACCAAGA GATTAAGAAA 
    CTCTATAGCC ATTTCCAGGA TGAGTCCTCA AATGGGTCAT TGCACCAACC TGATACGAGC 
    ACCAAACCAG ATAAAGAAAA CCACATGGAG TTATGA

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

    RefSeq XP_004914542.1
    CDS161..4876
    Translation

    Target ORF information:

    RefSeq Version XM_004914485.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_004914485.3

    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
    4621
    4681
    ATGGTGATAT GTAGGGCTGC TTGTAGGGTT CAGCAGGGAG GGCAGTTGCC AAGGGTTCCC 
    TACATGATAA CAGGGGCCCT TTACATGGTA GAAGGAAAAC AGATACACAT GCAAAGCAAA 
    TATTTTAGAA GGTTGTCAGG AACCGGCTCA ATGATGGAAA CAGCCATGAT TCTCCTTGGC 
    TTGTGCCTGT GTATCTCCAG TGTCTCTGCA GATTCCAAAG CTGTTACAAC GTCCCTCACC 
    GCAAAGTGGG CATCTACTCC TTTACTGCTG GAAGCCAGTG AATTCTTAGC TGAAGAAGCT 
    CCTGATAAGT TCTGGGCCTT TGTGGATGAA GTGCAACAAG TGAAGGATCA AGGTTCTGAT 
    AGTATCAACT ATGAGCTGAT GGTGAATAAG GCAAGCCGAC AGCTGACTCC CCAACAGGAG 
    AACCTTCTGA AATTTGCCTT GTCTCTCCGC ACCTACTCTG CTACAGTACA GACCTTCCAG 
    CAGATGGCCG CAGATGAGCC ACCCCCAGCA GGCTGCACTA GTTTCATTGT AGTGCATGGA 
    GCGAAGACAT GTGTTCTTGA AAACTTGCCA TCACTTCTCA AGACTGCTTC TCAAAGACCG 
    AAGCCCTTTC TGTTCAAAGG AGATCACAGA TACCCATATG GTGCACCCGA AAGCCCTGTT 
    GTTATACTTT ATGCTGAGAT TGGCTCCAAA GACTTTGCTA GGTTTCACCA GCTGCTTTCT 
    CTGAAGGCCC AAGAAGATGG GATTAATTAC ATACTCCGTC ACTTTGTTTC TAACCCACGA 
    TCTGAAAAGG TTTTTCTGTC TGGATATGGT GTAGAGCTGT CCATGAAGAG CACGGAATAT 
    AAAGCAAAGG ATGACACACA AGTGAAAGGA AATGATGTGA ATGCTACAGT GGTGGGTGAT 
    AACGATCCAG TAGATGAAGT ACAGGGATTT CTCTTTGGGA AGCTCAGGCA GTTGTATCCA 
    GAGCTTAAGG AGCAGCTGAA AGAACTGAGG AAACATTTAA TTGATAGCAC CAATGAAATG 
    GCACCTCTGA AGGTCTGGGA GCTGCAAGAT CTTAGCTACC AAAGTGCTGC ACATATCCTG 
    TCAGCTCCAC CCGCTGAAGC ACTGATGGTT ATGAAAGATT TGAGCCAGAA TTTCCCTACC 
    AAAGCCAGGG CATTAACAAG GACAGTAGTT GACTCTGCTC TTCGTAAGGA AGTCGAAGAA 
    AATCAAAAGT ATTTTAAGTC TAATCTTGGT GTGCATCCCG GAGACTCAGC GTTGTTCATT 
    AATGGATTGC ATGTTGATCT TGACAGTCAG GATATCTTCA GCTTGTTTGA TACATTACGT 
    AATGAAGCCC GGGTTATGGA AGGCCTTTTC CGCTTAGGCA TAGATGGGAC CGCCCTCCAA 
    AATGTTCTGA AACTTAATAT CCAACCGTCT ACTGCAGATT ATGCCGTGGA TATCAGGCAC 
    CCTGCTATAA CTTGGGTAAA CAATCTGGAG ATGGACAGCA GATATAACTC ATGGCCATCC 
    ACTCTTCAGG AGTTGCTTCG CCCCACATTC CCTGGTGTCA TCCGACAGAT CCGCAGGAAC 
    TTTCACAACT TTGTGATCAT TTTTGATCCT GTGCATGACT CCACCTCTGA GCTGATTAAT 
    CTTGCTGAAA TGTTTCTGAG TAACCATATT CCAGTGAGGG TCGGGTTGGT TTTTGTTGTG 
    GATGACTCTG AGGATGTTGA TGGTTTTCAG GATGCAGGTG TTGCTTTGCT TAGAGCTTTC 
    AACTATGTGT CCGACGAAGT GAATGAGTAT CACGCCTTCC AAACAATTGT ATCTATCTAC 
    AACAAGGTGC CAGCAGGAAA GCGCCTGACT GTGAAGCACG TTACCGCTGT CCTAGAGCAG 
    CGATATCCCT ATATTGAGCT CAGTAGCATT TTGGGCAAAG ACTCTGCTTA TGACCAGTCA 
    AGAAAGGAAG GAAAGGAATA CTTCTTGCAG ACAGGGTTGA GTCCACTGCC AGTCGTACTC 
    TTTAATGGAA TTCCCTTTTC AAAAGAACAG CTGCAGCCTG ATGAGCTGGA GACTGCAACA 
    ATGCAAAAAA TAATGGAAAC CACCACCTTC TTTCAGAAAG CAGTCTACTT GGGGGAACTG 
    ACAAATGATC AAGATGTTGT GGATCATATA ATGAATCAGC CTAATGTCGT ACCAAGAATT 
    AACTTGCGGA TCTTAGAAGC AGAGCGCCGG TACCTGGATT TAACAACTCT AAATAACTAT 
    TTTATAGATG ACTACAAACG TTTCAGCTCC TTGAACTCCA ATTCTAAGAG TGCAGCAATA 
    GTTAACAGTA TGACCTATCT TACAAAGAAA GATGACTCTT TTGTGAGACC TGTCACATTT 
    TGGATTGTGG GGGATTTTGA TCAGCCTTCA GGCCGCCAGC TTTTGTATGA TGCAATTAAA 
    CATCAGAAAT CCAGTAATAA TGTAAGGATT GGCATACTCA GCAACCCCAG CCAGGATCCA 
    TCGGCTGAGA GCACTCGCAT TGCACGGGCC ATCTGGGCGG CTCTGCAGAC TCAGAACTCA 
    AACAATGCCA AGAACTTCAT CACCAAAATT GTCAAGGAGG AAAATGCAAG GCAGATCGAG 
    GCAGGAAAGG ACCCAGTGGA ATTTGCTGTT GGGGGTATGG ATACCAGTCT GTTCCGTGAG 
    ATGTTTGAGT CCCCAAAGGT GGATTTCATC TTATCGCATA CTCTTTACTG CCGGGAGGTT 
    TTGAAATTGA AAAAAGGGGA GAGAGCCATT ATCAGCAATG GAAGGATTAT TGGGCCTTTA 
    CGTGACGATG AAATATTTAA TCAAGATGAT TTCCACCTTC TAGAGAATCT TGTCTTGAAG 
    ACCTCTGCGC AGAATATTAA ATCCCATATT AAGCTGCTTC AAGTGGAAGA AGATCATGCC 
    AGTGATCTGG TGATGAAGGT AGATTCACTG TTGTCCTCCC AACCCAAAGG AGAAGGGAGA 
    GTTAATTACC AGATACCCGA AGACGCACAC AGTGCTATTA AGCTGAGACC TACAGAAGGA 
    ATGATTTATT TTGATGTGGT TGCCGTTGTA GACCCCGTAA CAAAAGCAGC GCAGAGACTA 
    GCCCCTCTAC TCCTGGTTCT TAAACAAGTA CTAAATATGA ATCTTCGCGT GTTTATGAAC 
    TGCCAGTCCA AGCTGTCGGA GATGCCTCTG AAGAGTTTCT ATCGCTACGT TTTGGAACCA 
    GAGGTGATGT TCACATCACA GAAGAATATT GCTCCTGGTC CCATTGCCAA GTTCCTAGAC 
    ATGCCCCAGT CTCCACTTTT TACTCTCAGC CTTGACACTC CTGACAGCTG GATGGTGGAG 
    TCAGTGCGGA CGCCGTATGA TCTGGATAAT ATATACCTTG AGGAGGTGGA CAGTGTTGTA 
    GCAGCTGAGT TTGAGCTTGA GTATCTCCTC TTAGAAGGCC ATTGTTTTGA TGTCTCTACT 
    GGACAGCCAC CCCGAGGGCT CCAGTTCACA TTGGGAACAT CTACAAATCC TGTAGTGGTG 
    GACACAATCG TCATGGCTAA CTTGGGTTAT TTTCAGTTAA AAGCCAATCC TGGTGCTTGG 
    ATGCTGAGGC TCAGAAAAGG GCGCTCAGAG GATATTTATA CTATTTACAG TCATGAAGGG 
    ACAGATTCTG ATCCAGAAGC TTCTGATGTG GTGGTTGTGC TACATGATTT TAAGAGCAAA 
    ATAATTAAAG TAAAAGTCCA GAAAAAGCCG GACAAAATGA ACGAGGACCT TCTGAGTGAT 
    GGAAATAGTG AAAATGAGTC GGGATTCTGG GATTCCATTA CATGGGGACT TGCAGGAAGT 
    CAGAAACAAG ATGACGTAAA AGCAGAGAAA GAAGACGTAC TTAATATCTT CTCTGTGGCC 
    TCCGGTCACT TGTATGAGAG ATTTCTTAGA ATAATGATGT TGTCAGTGCT GAAAAATACG 
    CAGACGCCGG TTAAGTTCTG GTTTTTAAAG AATTATCTGT CACCCACGTT TAAGAATTTT 
    ATTCCATACA TGGCCAAGAA GTACAACTTC CAGTATGAAC TGGTCCAATA TAAGTGGCCT 
    CGTTGGCTGC ACCAACAAAC TGAGAAGCAG AGAATTATCT GGGGATATAA AATCCTGTTC 
    CTGGATGTTC TGTTTCCACT GGCAGTGGAT AAATTCATCT TTGTAGATGC CGATCAGATC 
    GTAAGGACTG ATCTGAAGGA GTTGCGGGAA TTCAATTTGG ATGGTGCCCC TTATGGGTAC 
    ACACCGTTCT GTGAAAGCAG GAGGGAGATG GACGGTTACC GCTTCTGGAA ATCTGGGTAC 
    TGGGCCAGTC ATTTGGCTGG GCGTAAGTAC CACATTAGTG CTCTGTATGT AGTGGATTTG 
    AAAAAGTTCC GGAAGATAGC AGCTGGAGAC AGGCTGAGAG GGCAGTACCA AGGCCTAAGC 
    CAGGATCCCA ACAGTCTCTC CAATCTTGAC CAGGATCTTC CAAATAATAT GATCCATCAA 
    GTGCCCATAA AGTCTTTGCC TCAGGAGTGG CTGTGGTGTG AAACTTGGTG TGACGATACA 
    TCGAAGAAGA AGGCCAAAAC CATAGACTTG TGTAACAACC CTATGACCAA AGAGCCCAAG 
    TTGCAGGCAG CAGTGCGGAT CGTCCCTGAA TGGCAAGAAT ATGACCAAGA GATTAAGAAA 
    CTCTATAGCC ATTTCCAGGA TGAGTCCTCA AATGGGTCAT TGCACCAACC TGATACGAGC 
    ACCAAACCAG ATAAAGAAAA CCACATGGAG TTATGA

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

    uggt1 ( XM_002936298.4 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002936344.2 Xenopus tropicalis UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OXa10349
    Clone ID Related Accession (Same CDS sequence) XM_002936298.4 , XM_002936298.5
    Accession Version XM_002936298.4 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4590bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product UDP-glucose:glycoprotein glucosyltransferase 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030681.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_002936298.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGATGGAAA CAGCCATGAT TCTCCTTGGC TTGTGCCTGT GTATCTCCAG TGTCTCTGCA 
    GATTCCAAAG CTGTTACAAC GTCCCTCACC GCAAAGTGGG CATCTACTCC TTTACTGCTG 
    GAAGCCAGTG AATTCTTAGC TGAAGAAGCT CCTGATAAGT TCTGGGCCTT TGTGGATGAA 
    GTGCAACAAG TGAAGGATCA AGGTTCTGAT AGTATCAACT ATGAGCTGAT GGTGAATAAG 
    GCAAGCCGAC AGCTGACTCC CCAACAGGAG AACCTTCTGA AATTTGCCTT GTCTCTCCGC 
    ACCTACTCTG CTACAGTACA GACCTTCCAG CAGATGGCCG CAGATGAGCC ACCCCCAGCA 
    GGCTGCACTA GTTTCATTGT AGTGCATGGA GCGAAGACAT GTGTTCTTGA AAACTTGCCA 
    TCACTTCTCA AGACTGCTTC TCAAAGACCG AAGCCCTTTC TGTTCAAAGG AGATCACAGA 
    TACCCATATG GTGCACCCGA AAGCCCTGTT GTTATACTTT ATGCTGAGAT TGGCTCCAAA 
    GACTTTGCTA GGTTTCACCA GCTGCTTTCT CTGAAGGCCC AAGAAGATGG GATTAATTAC 
    ATACTCCGTC ACTTTGTTTC TAACCCACGA TCTGAAAAGG TTTTTCTGTC TGGATATGGT 
    GTAGAGCTGT CCATGAAGAG CACGGAATAT AAAGCAAAGG ATGACACACA AGTGAAAGGA 
    AATGATGTGA ATGCTACAGT GGTGGGTGAT AACGATCCAG TAGATGAAGT ACAGGGATTT 
    CTCTTTGGGA AGCTCAGGCA GTTGTATCCA GAGCTTAAGG AGCAGCTGAA AGAACTGAGG 
    AAACATTTAA TTGATAGCAC CAATGAAATG GCACCTCTGA AGGTCTGGGA GCTGCAAGAT 
    CTTAGCTACC AAAGTGCTGC ACATATCCTG TCAGCTCCAC CCGCTGAAGC ACTGATGGTT 
    ATGAAAGATT TGAGCCAGAA TTTCCCTACC AAAGCCAGGG CATTAACAAG GACAGTAGTT 
    GACTCTGCTC TTCGTAAGGA AGTCGAAGAA AATCAAAAGT ATTTTAAGTC TAATCTTGGT 
    GTGCATCCCG GAGACTCAGC GTTGTTCATT AATGGATTGC ATGTTGATCT TGACAGTCAG 
    GATATCTTCA GCTTGTTTGA TACATTACGT AATGAAGCCC GGGTTATGGA AGGCCTTTTC 
    CGCTTAGGCA TAGATGGGAC CGCCCTCCAA AATGTTCTGA AACTTAATAT CCAACCGTCT 
    ACTGCAGATT ATGCCGTGGA TATCAGGCAC CCTGCTATAA CTTGGGTAAA CAATCTGGAG 
    ATGGACAGCA GATATAACTC ATGGCCATCC ACTCTTCAGG AGTTGCTTCG CCCCACATTC 
    CCTGGTGTCA TCCGACAGAT CCGCAGGAAC TTTCACAACT TTGTGATCAT TTTTGATCCT 
    GTGCATGACT CCACCTCTGA GCTGATTAAT CTTGCTGAAA TGTTTCTGAG TAACCATATT 
    CCAGTGAGGG TCGGGTTGGT TTTTGTTGTG GATGACTCTG AGGATGTTGA TGGTTTTCAG 
    GATGCAGGTG TTGCTTTGCT TAGAGCTTTC AACTATGTGT CCGACGAAGT GAATGAGTAT 
    CACGCCTTCC AAACAATTGT ATCTATCTAC AACAAGGTGC CAGCAGGAAA GCGCCTGACT 
    GTGAAGCACG TTACCGCTGT CCTAGAGCAG CGATATCCCT ATATTGAGCT CAGTAGCATT 
    TTGGGCAAAG ACTCTGCTTA TGACCAGTCA AGAAAGGAAG GAAAGGAATA CTTCTTGCAG 
    ACAGGGTTGA GTCCACTGCC AGTCGTACTC TTTAATGGAA TTCCCTTTTC AAAAGAACAG 
    CTGCAGCCTG ATGAGCTGGA GACTGCAACA ATGCAAAAAA TAATGGAAAC CACCACCTTC 
    TTTCAGAAAG CAGTCTACTT GGGGGAACTG ACAAATGATC AAGATGTTGT GGATCATATA 
    ATGAATCAGC CTAATGTCGT ACCAAGAATT AACTTGCGGA TCTTAGAAGC AGAGCGCCGG 
    TACCTGGATT TAACAACTCT AAATAACTAT TTTATAGATG ACTACAAACG TTTCAGCTCC 
    TTGAACTCCA ATTCTAAGAG TGCAGCAATA GTTAACAGTA TGACCTATCT TACAAAGAAA 
    GGAATGTCAT CCAGGGAGAT TTATGATGAC TCTTTTGTGA GACCTGTCAC ATTTTGGATT 
    GTGGGGGATT TTGATCAGCC TTCAGGCCGC CAGCTTTTGT ATGATGCAAT TAAACATCAG 
    AAATCCAGTA ATAATGTAAG GATTGGCATA CTCAGCAACC CCAGCCAGGA TCCATCGGCT 
    GAGAGCACTC GCATTGCACG GGCCATCTGG GCGGCTCTGC AGACTCAGAA CTCAAACAAT 
    GCCAAGAACT TCATCACCAA AATTGTCAAG GAGGAAAATG CAAGGCAGAT CGAGGCAGGA 
    AAGGACCCAG TGGAATTTGC TGTTGGGGGT ATGGATACCA GTCTGTTCCG TGAGATGTTT 
    GAGTCCCCAA AGGTGGATTT CATCTTATCG CATACTCTTT ACTGCCGGGA GGTTTTGAAA 
    TTGAAAAAAG GGGAGAGAGC CATTATCAGC AATGGAAGGA TTATTGGGCC TTTACGTGAC 
    GATGAAATAT TTAATCAAGA TGATTTCCAC CTTCTAGAGA ATCTTGTCTT GAAGACCTCT 
    GCGCAGAATA TTAAATCCCA TATTAAGCTG CTTCAAGTGG AAGAAGATCA TGCCAGTGAT 
    CTGGTGATGA AGGTAGATTC ACTGTTGTCC TCCCAACCCA AAGGAGAAGG GAGAGTTAAT 
    TACCAGATAC CCGAAGACGC ACACAGTGCT ATTAAGCTGA GACCTACAGA AGGAATGATT 
    TATTTTGATG TGGTTGCCGT TGTAGACCCC GTAACAAAAG CAGCGCAGAG ACTAGCCCCT 
    CTACTCCTGG TTCTTAAACA AGTACTAAAT ATGAATCTTC GCGTGTTTAT GAACTGCCAG 
    TCCAAGCTGT CGGAGATGCC TCTGAAGAGT TTCTATCGCT ACGTTTTGGA ACCAGAGGTG 
    ATGTTCACAT CACAGAAGAA TATTGCTCCT GGTCCCATTG CCAAGTTCCT AGACATGCCC 
    CAGTCTCCAC TTTTTACTCT CAGCCTTGAC ACTCCTGACA GCTGGATGGT GGAGTCAGTG 
    CGGACGCCGT ATGATCTGGA TAATATATAC CTTGAGGAGG TGGACAGTGT TGTAGCAGCT 
    GAGTTTGAGC TTGAGTATCT CCTCTTAGAA GGCCATTGTT TTGATGTCTC TACTGGACAG 
    CCACCCCGAG GGCTCCAGTT CACATTGGGA ACATCTACAA ATCCTGTAGT GGTGGACACA 
    ATCGTCATGG CTAACTTGGG TTATTTTCAG TTAAAAGCCA ATCCTGGTGC TTGGATGCTG 
    AGGCTCAGAA AAGGGCGCTC AGAGGATATT TATACTATTT ACAGTCATGA AGGGACAGAT 
    TCTGATCCAG AAGCTTCTGA TGTGGTGGTT GTGCTACATG ATTTTAAGAG CAAAATAATT 
    AAAGTAAAAG TCCAGAAAAA GCCGGACAAA ATGAACGAGG ACCTTCTGAG TGATGGAAAT 
    AGTGAAAATG AGTCGGGATT CTGGGATTCC ATTACATGGG GACTTGCAGG AAGTCAGAAA 
    CAAGATGACG TAAAAGCAGA GAAAGAAGAC GTACTTAATA TCTTCTCTGT GGCCTCCGGT 
    CACTTGTATG AGAGATTTCT TAGAATAATG ATGTTGTCAG TGCTGAAAAA TACGCAGACG 
    CCGGTTAAGT TCTGGTTTTT AAAGAATTAT CTGTCACCCA CGTTTAAGAA TTTTATTCCA 
    TACATGGCCA AGAAGTACAA CTTCCAGTAT GAACTGGTCC AATATAAGTG GCCTCGTTGG 
    CTGCACCAAC AAACTGAGAA GCAGAGAATT ATCTGGGGAT ATAAAATCCT GTTCCTGGAT 
    GTTCTGTTTC CACTGGCAGT GGATAAATTC ATCTTTGTAG ATGCCGATCA GATCGTAAGG 
    ACTGATCTGA AGGAGTTGCG GGAATTCAAT TTGGATGGTG CCCCTTATGG GTACACACCG 
    TTCTGTGAAA GCAGGAGGGA GATGGACGGT TACCGCTTCT GGAAATCTGG GTACTGGGCC 
    AGTCATTTGG CTGGGCGTAA GTACCACATT AGTGCTCTGT ATGTAGTGGA TTTGAAAAAG 
    TTCCGGAAGA TAGCAGCTGG AGACAGGCTG AGAGGGCAGT ACCAAGGCCT AAGCCAGGAT 
    CCCAACAGTC TCTCCAATCT TGACCAGGAT CTTCCAAATA ATATGATCCA TCAAGTGCCC 
    ATAAAGTCTT TGCCTCAGGA GTGGCTGTGG TGTGAAACTT GGTGTGACGA TACATCGAAG 
    AAGAAGGCCA AAACCATAGA CTTGTGTAAC AACCCTATGA CCAAAGAGCC CAAGTTGCAG 
    GCAGCAGTGC GGATCGTCCC TGAATGGCAA GAATATGACC AAGAGATTAA GAAACTCTAT 
    AGCCATTTCC AGGATGAGTC CTCAAATGGG TCATTGCACC AACCTGATAC GAGCACCAAA 
    CCAGATAAAG AAAACCACAT GGAGTTATGA

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

    RefSeq XP_002936344.2
    CDS119..4708
    Translation

    Target ORF information:

    RefSeq Version XM_002936298.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_002936298.4

    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
    ATGATGGAAA CAGCCATGAT TCTCCTTGGC TTGTGCCTGT GTATCTCCAG TGTCTCTGCA 
    GATTCCAAAG CTGTTACAAC GTCCCTCACC GCAAAGTGGG CATCTACTCC TTTACTGCTG 
    GAAGCCAGTG AATTCTTAGC TGAAGAAGCT CCTGATAAGT TCTGGGCCTT TGTGGATGAA 
    GTGCAACAAG TGAAGGATCA AGGTTCTGAT AGTATCAACT ATGAGCTGAT GGTGAATAAG 
    GCAAGCCGAC AGCTGACTCC CCAACAGGAG AACCTTCTGA AATTTGCCTT GTCTCTCCGC 
    ACCTACTCTG CTACAGTACA GACCTTCCAG CAGATGGCCG CAGATGAGCC ACCCCCAGCA 
    GGCTGCACTA GTTTCATTGT AGTGCATGGA GCGAAGACAT GTGTTCTTGA AAACTTGCCA 
    TCACTTCTCA AGACTGCTTC TCAAAGACCG AAGCCCTTTC TGTTCAAAGG AGATCACAGA 
    TACCCATATG GTGCACCCGA AAGCCCTGTT GTTATACTTT ATGCTGAGAT TGGCTCCAAA 
    GACTTTGCTA GGTTTCACCA GCTGCTTTCT CTGAAGGCCC AAGAAGATGG GATTAATTAC 
    ATACTCCGTC ACTTTGTTTC TAACCCACGA TCTGAAAAGG TTTTTCTGTC TGGATATGGT 
    GTAGAGCTGT CCATGAAGAG CACGGAATAT AAAGCAAAGG ATGACACACA AGTGAAAGGA 
    AATGATGTGA ATGCTACAGT GGTGGGTGAT AACGATCCAG TAGATGAAGT ACAGGGATTT 
    CTCTTTGGGA AGCTCAGGCA GTTGTATCCA GAGCTTAAGG AGCAGCTGAA AGAACTGAGG 
    AAACATTTAA TTGATAGCAC CAATGAAATG GCACCTCTGA AGGTCTGGGA GCTGCAAGAT 
    CTTAGCTACC AAAGTGCTGC ACATATCCTG TCAGCTCCAC CCGCTGAAGC ACTGATGGTT 
    ATGAAAGATT TGAGCCAGAA TTTCCCTACC AAAGCCAGGG CATTAACAAG GACAGTAGTT 
    GACTCTGCTC TTCGTAAGGA AGTCGAAGAA AATCAAAAGT ATTTTAAGTC TAATCTTGGT 
    GTGCATCCCG GAGACTCAGC GTTGTTCATT AATGGATTGC ATGTTGATCT TGACAGTCAG 
    GATATCTTCA GCTTGTTTGA TACATTACGT AATGAAGCCC GGGTTATGGA AGGCCTTTTC 
    CGCTTAGGCA TAGATGGGAC CGCCCTCCAA AATGTTCTGA AACTTAATAT CCAACCGTCT 
    ACTGCAGATT ATGCCGTGGA TATCAGGCAC CCTGCTATAA CTTGGGTAAA CAATCTGGAG 
    ATGGACAGCA GATATAACTC ATGGCCATCC ACTCTTCAGG AGTTGCTTCG CCCCACATTC 
    CCTGGTGTCA TCCGACAGAT CCGCAGGAAC TTTCACAACT TTGTGATCAT TTTTGATCCT 
    GTGCATGACT CCACCTCTGA GCTGATTAAT CTTGCTGAAA TGTTTCTGAG TAACCATATT 
    CCAGTGAGGG TCGGGTTGGT TTTTGTTGTG GATGACTCTG AGGATGTTGA TGGTTTTCAG 
    GATGCAGGTG TTGCTTTGCT TAGAGCTTTC AACTATGTGT CCGACGAAGT GAATGAGTAT 
    CACGCCTTCC AAACAATTGT ATCTATCTAC AACAAGGTGC CAGCAGGAAA GCGCCTGACT 
    GTGAAGCACG TTACCGCTGT CCTAGAGCAG CGATATCCCT ATATTGAGCT CAGTAGCATT 
    TTGGGCAAAG ACTCTGCTTA TGACCAGTCA AGAAAGGAAG GAAAGGAATA CTTCTTGCAG 
    ACAGGGTTGA GTCCACTGCC AGTCGTACTC TTTAATGGAA TTCCCTTTTC AAAAGAACAG 
    CTGCAGCCTG ATGAGCTGGA GACTGCAACA ATGCAAAAAA TAATGGAAAC CACCACCTTC 
    TTTCAGAAAG CAGTCTACTT GGGGGAACTG ACAAATGATC AAGATGTTGT GGATCATATA 
    ATGAATCAGC CTAATGTCGT ACCAAGAATT AACTTGCGGA TCTTAGAAGC AGAGCGCCGG 
    TACCTGGATT TAACAACTCT AAATAACTAT TTTATAGATG ACTACAAACG TTTCAGCTCC 
    TTGAACTCCA ATTCTAAGAG TGCAGCAATA GTTAACAGTA TGACCTATCT TACAAAGAAA 
    GGAATGTCAT CCAGGGAGAT TTATGATGAC TCTTTTGTGA GACCTGTCAC ATTTTGGATT 
    GTGGGGGATT TTGATCAGCC TTCAGGCCGC CAGCTTTTGT ATGATGCAAT TAAACATCAG 
    AAATCCAGTA ATAATGTAAG GATTGGCATA CTCAGCAACC CCAGCCAGGA TCCATCGGCT 
    GAGAGCACTC GCATTGCACG GGCCATCTGG GCGGCTCTGC AGACTCAGAA CTCAAACAAT 
    GCCAAGAACT TCATCACCAA AATTGTCAAG GAGGAAAATG CAAGGCAGAT CGAGGCAGGA 
    AAGGACCCAG TGGAATTTGC TGTTGGGGGT ATGGATACCA GTCTGTTCCG TGAGATGTTT 
    GAGTCCCCAA AGGTGGATTT CATCTTATCG CATACTCTTT ACTGCCGGGA GGTTTTGAAA 
    TTGAAAAAAG GGGAGAGAGC CATTATCAGC AATGGAAGGA TTATTGGGCC TTTACGTGAC 
    GATGAAATAT TTAATCAAGA TGATTTCCAC CTTCTAGAGA ATCTTGTCTT GAAGACCTCT 
    GCGCAGAATA TTAAATCCCA TATTAAGCTG CTTCAAGTGG AAGAAGATCA TGCCAGTGAT 
    CTGGTGATGA AGGTAGATTC ACTGTTGTCC TCCCAACCCA AAGGAGAAGG GAGAGTTAAT 
    TACCAGATAC CCGAAGACGC ACACAGTGCT ATTAAGCTGA GACCTACAGA AGGAATGATT 
    TATTTTGATG TGGTTGCCGT TGTAGACCCC GTAACAAAAG CAGCGCAGAG ACTAGCCCCT 
    CTACTCCTGG TTCTTAAACA AGTACTAAAT ATGAATCTTC GCGTGTTTAT GAACTGCCAG 
    TCCAAGCTGT CGGAGATGCC TCTGAAGAGT TTCTATCGCT ACGTTTTGGA ACCAGAGGTG 
    ATGTTCACAT CACAGAAGAA TATTGCTCCT GGTCCCATTG CCAAGTTCCT AGACATGCCC 
    CAGTCTCCAC TTTTTACTCT CAGCCTTGAC ACTCCTGACA GCTGGATGGT GGAGTCAGTG 
    CGGACGCCGT ATGATCTGGA TAATATATAC CTTGAGGAGG TGGACAGTGT TGTAGCAGCT 
    GAGTTTGAGC TTGAGTATCT CCTCTTAGAA GGCCATTGTT TTGATGTCTC TACTGGACAG 
    CCACCCCGAG GGCTCCAGTT CACATTGGGA ACATCTACAA ATCCTGTAGT GGTGGACACA 
    ATCGTCATGG CTAACTTGGG TTATTTTCAG TTAAAAGCCA ATCCTGGTGC TTGGATGCTG 
    AGGCTCAGAA AAGGGCGCTC AGAGGATATT TATACTATTT ACAGTCATGA AGGGACAGAT 
    TCTGATCCAG AAGCTTCTGA TGTGGTGGTT GTGCTACATG ATTTTAAGAG CAAAATAATT 
    AAAGTAAAAG TCCAGAAAAA GCCGGACAAA ATGAACGAGG ACCTTCTGAG TGATGGAAAT 
    AGTGAAAATG AGTCGGGATT CTGGGATTCC ATTACATGGG GACTTGCAGG AAGTCAGAAA 
    CAAGATGACG TAAAAGCAGA GAAAGAAGAC GTACTTAATA TCTTCTCTGT GGCCTCCGGT 
    CACTTGTATG AGAGATTTCT TAGAATAATG ATGTTGTCAG TGCTGAAAAA TACGCAGACG 
    CCGGTTAAGT TCTGGTTTTT AAAGAATTAT CTGTCACCCA CGTTTAAGAA TTTTATTCCA 
    TACATGGCCA AGAAGTACAA CTTCCAGTAT GAACTGGTCC AATATAAGTG GCCTCGTTGG 
    CTGCACCAAC AAACTGAGAA GCAGAGAATT ATCTGGGGAT ATAAAATCCT GTTCCTGGAT 
    GTTCTGTTTC CACTGGCAGT GGATAAATTC ATCTTTGTAG ATGCCGATCA GATCGTAAGG 
    ACTGATCTGA AGGAGTTGCG GGAATTCAAT TTGGATGGTG CCCCTTATGG GTACACACCG 
    TTCTGTGAAA GCAGGAGGGA GATGGACGGT TACCGCTTCT GGAAATCTGG GTACTGGGCC 
    AGTCATTTGG CTGGGCGTAA GTACCACATT AGTGCTCTGT ATGTAGTGGA TTTGAAAAAG 
    TTCCGGAAGA TAGCAGCTGG AGACAGGCTG AGAGGGCAGT ACCAAGGCCT AAGCCAGGAT 
    CCCAACAGTC TCTCCAATCT TGACCAGGAT CTTCCAAATA ATATGATCCA TCAAGTGCCC 
    ATAAAGTCTT TGCCTCAGGA GTGGCTGTGG TGTGAAACTT GGTGTGACGA TACATCGAAG 
    AAGAAGGCCA AAACCATAGA CTTGTGTAAC AACCCTATGA CCAAAGAGCC CAAGTTGCAG 
    GCAGCAGTGC GGATCGTCCC TGAATGGCAA GAATATGACC AAGAGATTAA GAAACTCTAT 
    AGCCATTTCC AGGATGAGTC CTCAAATGGG TCATTGCACC AACCTGATAC GAGCACCAAA 
    CCAGATAAAG AAAACCACAT GGAGTTATGA

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

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