ORF » Species Summary » Danio rerio » UGGT1 cDNA ORF clone

UGGT1 cDNA ORF clone, Danio rerio(Zebrafish)

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
ODa150319 XM_021480334.1
Latest version!		 Danio rerio UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
ODa150320 XM_021480338.1
Latest version!		 Danio rerio UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
ODa35266 NM_001077534.1
Latest version!		 Danio rerio UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa07207 XM_005171290.2
Latest version!		 Danio rerio UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00

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

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

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

  • Reference Sequences (Refseq)
    UGGT1 ( XM_021480334.1 ) cDNA ORF clone, Danio rerio(Zebrafish) -> XP_021336009.1 Danio rerio UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa150319
    Clone ID Related Accession (Same CDS sequence) XM_021480334.1
    Accession Version XM_021480334.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4689bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    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_007113.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGAACCATA GCATGGGCCA CTTATACCGT CCAAACATGG CAACTCACGA AGCAGATTCC 
    GAAGCCGGTG TTGGATTTTG TGGAAAGATG TGGCTGTTTT GTGCTGCACT GCTGGCTCTG 
    GGCTCTGTCG ACTCTGTCAA TGGGGACTCA AAAGCAGTTA CAACGACACT GACTACTAAA 
    TGGCCCTCGA CACCTCTCCT GTTGGAAGCC AGCGAGTTCC TTGCCGAGGA GAGTCAGGAC 
    AAGTTCTGGG CCTTTGTGGA AGCCAACCAG AACATTGAGA ATGATCATGA TGACACGGAT 
    CAGGCTTACT ATGACCTGAT CCTGAAGAGA GCTGGTGAGC TGCTGAGCCC AGTGCAGTTA 
    AACCTGCTGA AGTTCTCCTT ATCTCTGAGG GCTTACTCAT CCACCATCCA TTCTTTCCAG 
    CAGATTGCAT CCAATGAGCC TCCTCCATCT GGCTGTAAAG CATTCTTTAA TGTACACGGA 
    CAGAAATCTT GTGATTCTGA AAGACTACAA GGCATGCTGG ACAATGCCTT AGAACGGCCA 
    AAGCCAAACC TGTTCAAAGG TGATCACAGA TACCATTCAG CCAATCCTGA TGCACCAGTT 
    GTGATTTTGT ACGCTGAAAT GGGCACCAAA GAATTCTCCA GACTCCATCA ACTGATGCTT 
    TCAAAAGCCA ACAAGGGCAT GATCACTTAT GTTCTGCGGC ACTTTCTTGC TAGCCCAAGT 
    AAAAGTAAAG TACACCTGTC TGGATATGGA GTGGAACTGG CCATCAAAAA CCAGGAGTAC 
    AAAGCCAAAG ACGACACACA AGTTCAGGCT GGAGCTGATG CAAATGCAAC GGTAATAGGT 
    GAAAATGATC TGGTGGATGA AGTGCAGGGC TTTCTTTTTG GCAAACTCAA AACCATTTAC 
    CCTGAACTTA AGGAACAGCT GAAGGAGCTC CGGAAGCATT TGATAGAGAG TACCAATGAA 
    ATGGCTCCAC TCAAAGTCTG GCAAATGCAA GATCTCAGCT TTCAGACTGC TGCTCGTATC 
    CTGGCAGCTC CCTCTGTGGA TGCTCTCAAT GTCATGAAGG ATTTGAGCCA AAACTTTCCC 
    ACCAAAGCCA GGTCCATAAC AAAAACGGTG GTTAATTCGG AGATCCGTAA GGAGATTGAG 
    GAGAATCAAA AGTATTTTAA GGGGACTTTA GGGCTCCAGC CTGGAGACTC AGCTCTGTTC 
    ATCAATGGAC TCCATATTGA CTTGGATGTG CAGGATATTT TCAGTGTTTT TGATGTGTTG 
    AGGAATGAGG CAAGGGTCAT GGAGGGTCTG CGTAGTCTGC TCATAGAAAC GCCATACATC 
    CACGACATCC TCAAACTCAA CGTTCAGCCT TCAGACTCTG ACTATGCCGT AGACATCCGC 
    AACCCTGCTG TTCACTGGAT TAATAACCTG GAGACAGACG GCAGATATGC TTCCTGGCCC 
    TCTAATGTGC AAGAACTGCT GCGGCCCACT TTTCCTGGAG TCATTCGACA GATCCGGAAG 
    AACTTCCATA ATCTGGTGAT GATTCTGGAT CCGACCCATG AGAACACGGC TGAGCTGCTC 
    GGAGTGGCAG AGATGTTTTA CAGCAACAAC ATCCCACTCA GGATTGGCGT GGTGTTTGTG 
    GTGAACGATT CTGATGATGT TGATGGGATG CAAGATCCTG GTGTGGCTCT TCTTCGAGCT 
    TTCAACTATA TAGCTGATGA CGTGGACGGC CAAATGGCCT TCGATGCTGT CATATCAATA 
    ATGAATAGGA TTCCCAGTGG AGACAAACTG AAGGTGGAGC ATGTGGTGGG TGTGTTGGAG 
    AAGAGATATC CATATGTAGA GATCAGCAGC ATCTTGGGCC CTGACTCTGC TTACGAAAAC 
    AACAGAAAAG AGGGAAAGGC ATATTATGAG CAGACTGGTG TTGGCCCTCT GCCAGTGGTG 
    TTGTATAATG GTATGCCTTT ACAGCGTGAG CAGTTAGACC CTGATGAACT TGAAACGGTC 
    GTCATGCACA AGATCTTGGA GACCACCAGC TTTTTTCAGC GCACTGTCTA TCTGGGTGAG 
    CTGAACAGTG ATCATGACGT GGTGGATTAT ATCATGAATC AGCCCAACGT GGTCCCTCGA 
    ATCAATTCCA GAATTCTGAG CACCAGCAGG AATTATCTGG ACCTTTCCGC CACCAATAAT 
    CATTTTATTG ACGAATATGC ACGTTTCCTG TTTTTGGATG CCAAAGACAA GAATGCAGCG 
    GTGGCCAACA GTATGAATTA CATGACAAAG AAAGGGATGT CAACCAGGGA TGCTTCTGAT 
    GATGGCATCA TCCGTCCGGT GACTTTCTGG GTAGTGGGAG ACTTTGACCA GCCATCGGGT 
    CGACAGCTGC TGTATGATGC CATACGTCAC ATGAAAACCA GTAATAATGT GCGATTAGGA 
    CTGATCAATA ACCCCAGTGA GAACCCCTCT AATGAGAACA GTCTGATCGC TCGAGCCATA 
    TGGGCAGCCA TGCAGACGCA AACCTCCAAC AACGCCAAAA ATTTCATCAC CAAAATGGCT 
    AAAGAGGAGA CGGCGCAGGC TCTTTACGGA GGCAGTGACA TTGCGGAGTT TGCTGTCGGG 
    GGCATGGATG TTCCTCTCTT TAAGAGCGCG TATGAGTCTC CTAATGTGAA CTTCCTGCTG 
    GCTCATTCTG CGTACTGTAG AGATGTCCTC AAACTGCAGA AGGGCCAGAG AGCTGTGATC 
    AGCAATGGAA GGATCATTGG CCCACTGGAG GAAAGGGAGG TCTTTAACCA GGATGATTTC 
    CTGCTTTTGG AGAGCATTAT TCTGAAGACA TCAGGGGAGC GGATAAAGGG CAAAATCCAA 
    CAGATGGGCA TGGTAGAGGA CAGAGCTAGT GATCTGGTGA TGAAGGTGGA TGCCCTGCTG 
    TCTTCACAGC CGAAAGGGGA AGCAAGGATC GAGCACACTT TTGCTGAAGA CAGATACAGC 
    GCTGTGAAAA TCAGACCAAA GGAAGAGGAA GTGTACTTCG ATGTTGTAGC TGTTTTAGAT 
    CCAGTGACCA GAGATGCTCA GAAACTAGCA CCTCTACTCC TGGTATTGAA GCAGCTGGTG 
    AACGTCAACC TGCGAGTGTT CATGAACTGC CAGTCCAAGC TCTCTGACCT CCCGCTGAAA 
    AGTTTTTATC GATATGTTTT GGAGCCAGAG ATTGTGTTTC TGACCGATAG TAGCTTTGCT 
    CCTGGTCCGA TGGCTAAGTT CTTAGATATG CCTCAGTCGC CTTTGTTCAC TCTGAACCTG 
    AACACCCCAG AAAGCTGGAT GGTTGAGTCT GTCCACACAC GTTACGATCT GGATAACATA 
    TACCTTGAAG AGGTGGACAG TGTCGTGGCC GCCGAGTATG AGTTGGAGTA TTTATTACTG 
    GAGGGTCACT GTTTTGACGT GACCACAGGT CAGCCTCCCC GTGGTCTGCA GTTCACTCTG 
    GGCACTGCCT CCGACCCTGT CATAGTGGAC ACCATCGTCA TGGCCAACCT GGGTTATTTC 
    CAGCTGAAAG CAAACCCAGG AGCCTGGATG CTCAGGCTGA GGAAAGGCAG GTCGGATGAT 
    ATCTACAAAA TCTACAGTCA CGATGGCACA GACTCTCCAG CCGAAGCTGA TGATTTAATC 
    GTCGTCCTTA ACAACTTCAA GAGCAAGATC ATTAAAGTGA AAGTGCAGAA AAAGCCTGAT 
    ATGATAAATG AGGAGCTTCT CAGTGATGGT ACCCATGAGA ACGAGTCTGG ATTCTGGACA 
    TCTATAGCCA GAGGATTCAC TGGTGGTTCA AACCCAGAAG AACCCAAACA GGAAAAAGAC 
    GATGTTATCA ACATTTTCTC TGTGGCCTCT GGTCATTTAT ACGAGCGGTT CCTCAGGATA 
    ATGATGCTGT CTGTGCTCAA ACACACCAAG ACACCCGTCA AGTTCTGGTT CCTCAAAAAC 
    TACCTGTCGC CAACTTTTAA GGAATTCATT CCATATATGG CAGAGAAGTA TGGTTTCCAG 
    TATGAGTTGG TGCAGTATAA ATGGCCACGT TGGCTTCACC AGCAGACAGA AAAGCAAAGG 
    ATCATTTGGG GCTATAAGAT TCTGTTCCTC GACGTGCTCT TCCCGCTGGC TGTGGACAAG 
    TTCCTCTTTG TGGATGCGGA TCAGATAGTT CGCACAGACC TGAAGGAGCT GCGAGATTTT 
    GACCTAGAAG GGGCGCCTTA TGGTTACACA CCTTTCTGCG AGAGCCGAAG AGAAATGGAC 
    GGATATCGTT TTTGGAAGTC TGGATACTGG GCCAGTCATT TGGCCGGACG TAAATACCAC 
    ATCAGTGCTC TGTATGTGGT CGATCTGAAG AAGTTCAGGA AGATTGCAGC TGGAGACCGA 
    CTGAGAGGCC AGTACCAGGG TCTGAGTCAA GACCCCAACA GTCTGTCTAA TCTGGACCAG 
    GATTTGCCCA ACAACATGAT TCACCAAGTG CCAATTAAGT CACTTCCTCA GGAATGGCTT 
    TGGTGTGAAA CCTGGTGTGA TGATGCGTCT AAAAAGAAAG CCAAAACTAT AGATCTGTGC 
    AATAACCCAC AAACAAAAGA GCCGAAGCTG CAGGCTGCTG TACGTATAGT AGGTGAGTGG 
    AGCGACTATG ACCAGGAGAT AAAGAGAATC TACAACAACT TCCTGGATGA GAAAGAAAGA 
    GGCACCTTAG AAGGCTATCA GTCAACAGAC AGAAAACACC CAGGTGGTGT TACACACTCA 
    GAGCTCTGA

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

    RefSeq XP_021336009.1
    CDS25..4713
    Translation

    Target ORF information:

    RefSeq Version XM_021480334.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio 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_021480334.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGAACCATA GCATGGGCCA CTTATACCGT CCAAACATGG CAACTCACGA AGCAGATTCC 
    GAAGCCGGTG TTGGATTTTG TGGAAAGATG TGGCTGTTTT GTGCTGCACT GCTGGCTCTG 
    GGCTCTGTCG ACTCTGTCAA TGGGGACTCA AAAGCAGTTA CAACGACACT GACTACTAAA 
    TGGCCCTCGA CACCTCTCCT GTTGGAAGCC AGCGAGTTCC TTGCCGAGGA GAGTCAGGAC 
    AAGTTCTGGG CCTTTGTGGA AGCCAACCAG AACATTGAGA ATGATCATGA TGACACGGAT 
    CAGGCTTACT ATGACCTGAT CCTGAAGAGA GCTGGTGAGC TGCTGAGCCC AGTGCAGTTA 
    AACCTGCTGA AGTTCTCCTT ATCTCTGAGG GCTTACTCAT CCACCATCCA TTCTTTCCAG 
    CAGATTGCAT CCAATGAGCC TCCTCCATCT GGCTGTAAAG CATTCTTTAA TGTACACGGA 
    CAGAAATCTT GTGATTCTGA AAGACTACAA GGCATGCTGG ACAATGCCTT AGAACGGCCA 
    AAGCCAAACC TGTTCAAAGG TGATCACAGA TACCATTCAG CCAATCCTGA TGCACCAGTT 
    GTGATTTTGT ACGCTGAAAT GGGCACCAAA GAATTCTCCA GACTCCATCA ACTGATGCTT 
    TCAAAAGCCA ACAAGGGCAT GATCACTTAT GTTCTGCGGC ACTTTCTTGC TAGCCCAAGT 
    AAAAGTAAAG TACACCTGTC TGGATATGGA GTGGAACTGG CCATCAAAAA CCAGGAGTAC 
    AAAGCCAAAG ACGACACACA AGTTCAGGCT GGAGCTGATG CAAATGCAAC GGTAATAGGT 
    GAAAATGATC TGGTGGATGA AGTGCAGGGC TTTCTTTTTG GCAAACTCAA AACCATTTAC 
    CCTGAACTTA AGGAACAGCT GAAGGAGCTC CGGAAGCATT TGATAGAGAG TACCAATGAA 
    ATGGCTCCAC TCAAAGTCTG GCAAATGCAA GATCTCAGCT TTCAGACTGC TGCTCGTATC 
    CTGGCAGCTC CCTCTGTGGA TGCTCTCAAT GTCATGAAGG ATTTGAGCCA AAACTTTCCC 
    ACCAAAGCCA GGTCCATAAC AAAAACGGTG GTTAATTCGG AGATCCGTAA GGAGATTGAG 
    GAGAATCAAA AGTATTTTAA GGGGACTTTA GGGCTCCAGC CTGGAGACTC AGCTCTGTTC 
    ATCAATGGAC TCCATATTGA CTTGGATGTG CAGGATATTT TCAGTGTTTT TGATGTGTTG 
    AGGAATGAGG CAAGGGTCAT GGAGGGTCTG CGTAGTCTGC TCATAGAAAC GCCATACATC 
    CACGACATCC TCAAACTCAA CGTTCAGCCT TCAGACTCTG ACTATGCCGT AGACATCCGC 
    AACCCTGCTG TTCACTGGAT TAATAACCTG GAGACAGACG GCAGATATGC TTCCTGGCCC 
    TCTAATGTGC AAGAACTGCT GCGGCCCACT TTTCCTGGAG TCATTCGACA GATCCGGAAG 
    AACTTCCATA ATCTGGTGAT GATTCTGGAT CCGACCCATG AGAACACGGC TGAGCTGCTC 
    GGAGTGGCAG AGATGTTTTA CAGCAACAAC ATCCCACTCA GGATTGGCGT GGTGTTTGTG 
    GTGAACGATT CTGATGATGT TGATGGGATG CAAGATCCTG GTGTGGCTCT TCTTCGAGCT 
    TTCAACTATA TAGCTGATGA CGTGGACGGC CAAATGGCCT TCGATGCTGT CATATCAATA 
    ATGAATAGGA TTCCCAGTGG AGACAAACTG AAGGTGGAGC ATGTGGTGGG TGTGTTGGAG 
    AAGAGATATC CATATGTAGA GATCAGCAGC ATCTTGGGCC CTGACTCTGC TTACGAAAAC 
    AACAGAAAAG AGGGAAAGGC ATATTATGAG CAGACTGGTG TTGGCCCTCT GCCAGTGGTG 
    TTGTATAATG GTATGCCTTT ACAGCGTGAG CAGTTAGACC CTGATGAACT TGAAACGGTC 
    GTCATGCACA AGATCTTGGA GACCACCAGC TTTTTTCAGC GCACTGTCTA TCTGGGTGAG 
    CTGAACAGTG ATCATGACGT GGTGGATTAT ATCATGAATC AGCCCAACGT GGTCCCTCGA 
    ATCAATTCCA GAATTCTGAG CACCAGCAGG AATTATCTGG ACCTTTCCGC CACCAATAAT 
    CATTTTATTG ACGAATATGC ACGTTTCCTG TTTTTGGATG CCAAAGACAA GAATGCAGCG 
    GTGGCCAACA GTATGAATTA CATGACAAAG AAAGGGATGT CAACCAGGGA TGCTTCTGAT 
    GATGGCATCA TCCGTCCGGT GACTTTCTGG GTAGTGGGAG ACTTTGACCA GCCATCGGGT 
    CGACAGCTGC TGTATGATGC CATACGTCAC ATGAAAACCA GTAATAATGT GCGATTAGGA 
    CTGATCAATA ACCCCAGTGA GAACCCCTCT AATGAGAACA GTCTGATCGC TCGAGCCATA 
    TGGGCAGCCA TGCAGACGCA AACCTCCAAC AACGCCAAAA ATTTCATCAC CAAAATGGCT 
    AAAGAGGAGA CGGCGCAGGC TCTTTACGGA GGCAGTGACA TTGCGGAGTT TGCTGTCGGG 
    GGCATGGATG TTCCTCTCTT TAAGAGCGCG TATGAGTCTC CTAATGTGAA CTTCCTGCTG 
    GCTCATTCTG CGTACTGTAG AGATGTCCTC AAACTGCAGA AGGGCCAGAG AGCTGTGATC 
    AGCAATGGAA GGATCATTGG CCCACTGGAG GAAAGGGAGG TCTTTAACCA GGATGATTTC 
    CTGCTTTTGG AGAGCATTAT TCTGAAGACA TCAGGGGAGC GGATAAAGGG CAAAATCCAA 
    CAGATGGGCA TGGTAGAGGA CAGAGCTAGT GATCTGGTGA TGAAGGTGGA TGCCCTGCTG 
    TCTTCACAGC CGAAAGGGGA AGCAAGGATC GAGCACACTT TTGCTGAAGA CAGATACAGC 
    GCTGTGAAAA TCAGACCAAA GGAAGAGGAA GTGTACTTCG ATGTTGTAGC TGTTTTAGAT 
    CCAGTGACCA GAGATGCTCA GAAACTAGCA CCTCTACTCC TGGTATTGAA GCAGCTGGTG 
    AACGTCAACC TGCGAGTGTT CATGAACTGC CAGTCCAAGC TCTCTGACCT CCCGCTGAAA 
    AGTTTTTATC GATATGTTTT GGAGCCAGAG ATTGTGTTTC TGACCGATAG TAGCTTTGCT 
    CCTGGTCCGA TGGCTAAGTT CTTAGATATG CCTCAGTCGC CTTTGTTCAC TCTGAACCTG 
    AACACCCCAG AAAGCTGGAT GGTTGAGTCT GTCCACACAC GTTACGATCT GGATAACATA 
    TACCTTGAAG AGGTGGACAG TGTCGTGGCC GCCGAGTATG AGTTGGAGTA TTTATTACTG 
    GAGGGTCACT GTTTTGACGT GACCACAGGT CAGCCTCCCC GTGGTCTGCA GTTCACTCTG 
    GGCACTGCCT CCGACCCTGT CATAGTGGAC ACCATCGTCA TGGCCAACCT GGGTTATTTC 
    CAGCTGAAAG CAAACCCAGG AGCCTGGATG CTCAGGCTGA GGAAAGGCAG GTCGGATGAT 
    ATCTACAAAA TCTACAGTCA CGATGGCACA GACTCTCCAG CCGAAGCTGA TGATTTAATC 
    GTCGTCCTTA ACAACTTCAA GAGCAAGATC ATTAAAGTGA AAGTGCAGAA AAAGCCTGAT 
    ATGATAAATG AGGAGCTTCT CAGTGATGGT ACCCATGAGA ACGAGTCTGG ATTCTGGACA 
    TCTATAGCCA GAGGATTCAC TGGTGGTTCA AACCCAGAAG AACCCAAACA GGAAAAAGAC 
    GATGTTATCA ACATTTTCTC TGTGGCCTCT GGTCATTTAT ACGAGCGGTT CCTCAGGATA 
    ATGATGCTGT CTGTGCTCAA ACACACCAAG ACACCCGTCA AGTTCTGGTT CCTCAAAAAC 
    TACCTGTCGC CAACTTTTAA GGAATTCATT CCATATATGG CAGAGAAGTA TGGTTTCCAG 
    TATGAGTTGG TGCAGTATAA ATGGCCACGT TGGCTTCACC AGCAGACAGA AAAGCAAAGG 
    ATCATTTGGG GCTATAAGAT TCTGTTCCTC GACGTGCTCT TCCCGCTGGC TGTGGACAAG 
    TTCCTCTTTG TGGATGCGGA TCAGATAGTT CGCACAGACC TGAAGGAGCT GCGAGATTTT 
    GACCTAGAAG GGGCGCCTTA TGGTTACACA CCTTTCTGCG AGAGCCGAAG AGAAATGGAC 
    GGATATCGTT TTTGGAAGTC TGGATACTGG GCCAGTCATT TGGCCGGACG TAAATACCAC 
    ATCAGTGCTC TGTATGTGGT CGATCTGAAG AAGTTCAGGA AGATTGCAGC TGGAGACCGA 
    CTGAGAGGCC AGTACCAGGG TCTGAGTCAA GACCCCAACA GTCTGTCTAA TCTGGACCAG 
    GATTTGCCCA ACAACATGAT TCACCAAGTG CCAATTAAGT CACTTCCTCA GGAATGGCTT 
    TGGTGTGAAA CCTGGTGTGA TGATGCGTCT AAAAAGAAAG CCAAAACTAT AGATCTGTGC 
    AATAACCCAC AAACAAAAGA GCCGAAGCTG CAGGCTGCTG TACGTATAGT AGGTGAGTGG 
    AGCGACTATG ACCAGGAGAT AAAGAGAATC TACAACAACT TCCTGGATGA GAAAGAAAGA 
    GGCACCTTAG AAGGCTATCA GTCAACAGAC AGAAAACACC CAGGTGGTGT TACACACTCA 
    GAGCTCTGA

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

    UGGT1 ( XM_021480338.1 ) cDNA ORF clone, Danio rerio(Zebrafish) -> XP_021336013.1 Danio rerio UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ODa150320
    Clone ID Related Accession (Same CDS sequence) XM_021480338.1
    Accession Version XM_021480338.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4665bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    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_007113.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGAACCATA GCATGGGCCA CTTATACCGT CCAAACATGG CAACTCACGA AGCAGATTCC 
    GAAGCCGGTG TTGGATTTTG TGGAAAGATG TGGCTGTTTT GTGCTGCACT GCTGGCTCTG 
    GGCTCTGTCG ACTCTGTCAA TGGGGACTCA AAAGCAGTTA CAACGACACT GACTACTAAA 
    TGGCCCTCGA CACCTCTCCT GTTGGAAGCC AGCGAGTTCC TTGCCGAGGA GAGTCAGGAC 
    AAGTTCTGGG CCTTTGTGGA AGCCAACCAG AACATTGAGA ATGATCATGA TGACACGGAT 
    CAGGCTTACT ATGACCTGAT CCTGAAGAGA GCTGGTGAGC TGCTGAGCCC AGTGCAGTTA 
    AACCTGCTGA AGTTCTCCTT ATCTCTGAGG GCTTACTCAT CCACCATCCA TTCTTTCCAG 
    CAGATTGCAT CCAATGAGCC TCCTCCATCT GGCTGTAAAG CATTCTTTAA TGTACACGGA 
    CAGAAATCTT GTGATTCTGA AAGACTACAA GGCATGCTGG ACAATGCCTT AGAACGGCCA 
    AAGCCAAACC TGTTCAAAGG TGATCACAGA TACCATTCAG CCAATCCTGA TGCACCAGTT 
    GTGATTTTGT ACGCTGAAAT GGGCACCAAA GAATTCTCCA GACTCCATCA ACTGATGCTT 
    TCAAAAGCCA ACAAGGGCAT GATCACTTAT GTTCTGCGGC ACTTTCTTGC TAGCCCAAGT 
    AAAAGTAAAG TACACCTGTC TGGATATGGA GTGGAACTGG CCATCAAAAA CCAGGAGTAC 
    AAAGCCAAAG ACGACACACA AGTTCAGGCT GGAGCTGATG CAAATGCAAC GGTAATAGGT 
    GAAAATGATC TGGTGGATGA AGTGCAGGGC TTTCTTTTTG GCAAACTCAA AACCATTTAC 
    CCTGAACTTA AGGAACAGCT GAAGGAGCTC CGGAAGCATT TGATAGAGAG TACCAATGAA 
    ATGGCTCCAC TCAAAGTCTG GCAAATGCAA GATCTCAGCT TTCAGACTGC TGCTCGTATC 
    CTGGCAGCTC CCTCTGTGGA TGCTCTCAAT GTCATGAAGG ATTTGAGCCA AAACTTTCCC 
    ACCAAAGCCA GGTCCATAAC AAAAACGGTG GTTAATTCGG AGATCCGTAA GGAGATTGAG 
    GAGAATCAAA AGTATTTTAA GGGGACTTTA GGGCTCCAGC CTGGAGACTC AGCTCTGTTC 
    ATCAATGGAC TCCATATTGA CTTGGATGTG CAGGATATTT TCAGTGTTTT TGATGTGTTG 
    AGGAATGAGG CAAGGGTCAT GGAGGGTCTG CGTAGTCTGC TCATAGAAAC GCCATACATC 
    CACGACATCC TCAAACTCAA CGTTCAGCCT TCAGACTCTG ACTATGCCGT AGACATCCGC 
    AACCCTGCTG TTCACTGGAT TAATAACCTG GAGACAGACG GCAGATATGC TTCCTGGCCC 
    TCTAATGTGC AAGAACTGCT GCGGCCCACT TTTCCTGGAG TCATTCGACA GATCCGGAAG 
    AACTTCCATA ATCTGGTGAT GATTCTGGAT CCGACCCATG AGAACACGGC TGAGCTGCTC 
    GGAGTGGCAG AGATGTTTTA CAGCAACAAC ATCCCACTCA GGATTGGCGT GGTGTTTGTG 
    GTGAACGATT CTGATGATGT TGATGGGATG CAAGATCCTG GTGTGGCTCT TCTTCGAGCT 
    TTCAACTATA TAGCTGATGA CGTGGACGGC CAAATGGCCT TCGATGCTGT CATATCAATA 
    ATGAATAGGA TTCCCAGTGG AGACAAACTG AAGGTGGAGC ATGTGGTGGG TGTGTTGGAG 
    AAGAGATATC CATATGTAGA GATCAGCAGC ATCTTGGGCC CTGACTCTGC TTACGAAAAC 
    AACAGAAAAG AGGGAAAGGC ATATTATGAG CAGACTGGTG TTGGCCCTCT GCCAGTGGTG 
    TTGTATAATG GTATGCCTTT ACAGCGTGAG CAGTTAGACC CTGATGAACT TGAAACGGTC 
    GTCATGCACA AGATCTTGGA GACCACCAGC TTTTTTCAGC GCACTGTCTA TCTGGGTGAG 
    CTGAACAGTG ATCATGACGT GGTGGATTAT ATCATGAATC AGCCCAACGT GGTCCCTCGA 
    ATCAATTCCA GAATTCTGAG CACCAGCAGG AATTATCTGG ACCTTTCCGC CACCAATAAT 
    CATTTTATTG ACGAATATGC ACGTTTCCTG TTTTTGGATG CCAAAGACAA GAATGCAGCG 
    GTGGCCAACA GTATGAATTA CATGACAAAG AAAGATGATG GCATCATCCG TCCGGTGACT 
    TTCTGGGTAG TGGGAGACTT TGACCAGCCA TCGGGTCGAC AGCTGCTGTA TGATGCCATA 
    CGTCACATGA AAACCAGTAA TAATGTGCGA TTAGGACTGA TCAATAACCC CAGTGAGAAC 
    CCCTCTAATG AGAACAGTCT GATCGCTCGA GCCATATGGG CAGCCATGCA GACGCAAACC 
    TCCAACAACG CCAAAAATTT CATCACCAAA ATGGCTAAAG AGGAGACGGC GCAGGCTCTT 
    TACGGAGGCA GTGACATTGC GGAGTTTGCT GTCGGGGGCA TGGATGTTCC TCTCTTTAAG 
    AGCGCGTATG AGTCTCCTAA TGTGAACTTC CTGCTGGCTC ATTCTGCGTA CTGTAGAGAT 
    GTCCTCAAAC TGCAGAAGGG CCAGAGAGCT GTGATCAGCA ATGGAAGGAT CATTGGCCCA 
    CTGGAGGAAA GGGAGGTCTT TAACCAGGAT GATTTCCTGC TTTTGGAGAG CATTATTCTG 
    AAGACATCAG GGGAGCGGAT AAAGGGCAAA ATCCAACAGA TGGGCATGGT AGAGGACAGA 
    GCTAGTGATC TGGTGATGAA GGTGGATGCC CTGCTGTCTT CACAGCCGAA AGGGGAAGCA 
    AGGATCGAGC ACACTTTTGC TGAAGACAGA TACAGCGCTG TGAAAATCAG ACCAAAGGAA 
    GAGGAAGTGT ACTTCGATGT TGTAGCTGTT TTAGATCCAG TGACCAGAGA TGCTCAGAAA 
    CTAGCACCTC TACTCCTGGT ATTGAAGCAG CTGGTGAACG TCAACCTGCG AGTGTTCATG 
    AACTGCCAGT CCAAGCTCTC TGACCTCCCG CTGAAAAGTT TTTATCGATA TGTTTTGGAG 
    CCAGAGATTG TGTTTCTGAC CGATAGTAGC TTTGCTCCTG GTCCGATGGC TAAGTTCTTA 
    GATATGCCTC AGTCGCCTTT GTTCACTCTG AACCTGAACA CCCCAGAAAG CTGGATGGTT 
    GAGTCTGTCC ACACACGTTA CGATCTGGAT AACATATACC TTGAAGAGGT GGACAGTGTC 
    GTGGCCGCCG AGTATGAGTT GGAGTATTTA TTACTGGAGG GTCACTGTTT TGACGTGACC 
    ACAGGTCAGC CTCCCCGTGG TCTGCAGTTC ACTCTGGGCA CTGCCTCCGA CCCTGTCATA 
    GTGGACACCA TCGTCATGGC CAACCTGGGT TATTTCCAGC TGAAAGCAAA CCCAGGAGCC 
    TGGATGCTCA GGCTGAGGAA AGGCAGGTCG GATGATATCT ACAAAATCTA CAGTCACGAT 
    GGCACAGACT CTCCAGCCGA AGCTGATGAT TTAATCGTCG TCCTTAACAA CTTCAAGAGC 
    AAGATCATTA AAGTGAAAGT GCAGAAAAAG CCTGATATGA TAAATGAGGA GCTTCTCAGT 
    GATGGTACCC ATGAGAACGA GTCTGGATTC TGGACATCTA TAGCCAGAGG ATTCACTGGT 
    GGTTCAAACC CAGAAGAACC CAAACAGGAA AAAGACGATG TTATCAACAT TTTCTCTGTG 
    GCCTCTGGTC ATTTATACGA GCGGTTCCTC AGGATAATGA TGCTGTCTGT GCTCAAACAC 
    ACCAAGACAC CCGTCAAGTT CTGGTTCCTC AAAAACTACC TGTCGCCAAC TTTTAAGGAA 
    TTCATTCCAT ATATGGCAGA GAAGTATGGT TTCCAGTATG AGTTGGTGCA GTATAAATGG 
    CCACGTTGGC TTCACCAGCA GACAGAAAAG CAAAGGATCA TTTGGGGCTA TAAGATTCTG 
    TTCCTCGACG TGCTCTTCCC GCTGGCTGTG GACAAGTTCC TCTTTGTGGA TGCGGATCAG 
    ATAGTTCGCA CAGACCTGAA GGAGCTGCGA GATTTTGACC TAGAAGGGGC GCCTTATGGT 
    TACACACCTT TCTGCGAGAG CCGAAGAGAA ATGGACGGAT ATCGTTTTTG GAAGTCTGGA 
    TACTGGGCCA GTCATTTGGC CGGACGTAAA TACCACATCA GTGCTCTGTA TGTGGTCGAT 
    CTGAAGAAGT TCAGGAAGAT TGCAGCTGGA GACCGACTGA GAGGCCAGTA CCAGGGTCTG 
    AGTCAAGACC CCAACAGTCT GTCTAATCTG GACCAGGATT TGCCCAACAA CATGATTCAC 
    CAAGTGCCAA TTAAGTCACT TCCTCAGGAA TGGCTTTGGT GTGAAACCTG GTGTGATGAT 
    GCGTCTAAAA AGAAAGCCAA AACTATAGAT CTGTGCAATA ACCCACAAAC AAAAGAGCCG 
    AAGCTGCAGG CTGCTGTACG TATAGTAGGT GAGTGGAGCG ACTATGACCA GGAGATAAAG 
    AGAATCTACA ACAACTTCCT GGATGAGAAA GAAAGAGGCA CCTTAGAAGG CTATCAGTCA 
    ACAGACAGAA AACACCCAGG TGGTGTTACA CACTCAGAGC TCTGA

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

    RefSeq XP_021336013.1
    CDS25..4689
    Translation

    Target ORF information:

    RefSeq Version XM_021480338.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio 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_021480338.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGAACCATA GCATGGGCCA CTTATACCGT CCAAACATGG CAACTCACGA AGCAGATTCC 
    GAAGCCGGTG TTGGATTTTG TGGAAAGATG TGGCTGTTTT GTGCTGCACT GCTGGCTCTG 
    GGCTCTGTCG ACTCTGTCAA TGGGGACTCA AAAGCAGTTA CAACGACACT GACTACTAAA 
    TGGCCCTCGA CACCTCTCCT GTTGGAAGCC AGCGAGTTCC TTGCCGAGGA GAGTCAGGAC 
    AAGTTCTGGG CCTTTGTGGA AGCCAACCAG AACATTGAGA ATGATCATGA TGACACGGAT 
    CAGGCTTACT ATGACCTGAT CCTGAAGAGA GCTGGTGAGC TGCTGAGCCC AGTGCAGTTA 
    AACCTGCTGA AGTTCTCCTT ATCTCTGAGG GCTTACTCAT CCACCATCCA TTCTTTCCAG 
    CAGATTGCAT CCAATGAGCC TCCTCCATCT GGCTGTAAAG CATTCTTTAA TGTACACGGA 
    CAGAAATCTT GTGATTCTGA AAGACTACAA GGCATGCTGG ACAATGCCTT AGAACGGCCA 
    AAGCCAAACC TGTTCAAAGG TGATCACAGA TACCATTCAG CCAATCCTGA TGCACCAGTT 
    GTGATTTTGT ACGCTGAAAT GGGCACCAAA GAATTCTCCA GACTCCATCA ACTGATGCTT 
    TCAAAAGCCA ACAAGGGCAT GATCACTTAT GTTCTGCGGC ACTTTCTTGC TAGCCCAAGT 
    AAAAGTAAAG TACACCTGTC TGGATATGGA GTGGAACTGG CCATCAAAAA CCAGGAGTAC 
    AAAGCCAAAG ACGACACACA AGTTCAGGCT GGAGCTGATG CAAATGCAAC GGTAATAGGT 
    GAAAATGATC TGGTGGATGA AGTGCAGGGC TTTCTTTTTG GCAAACTCAA AACCATTTAC 
    CCTGAACTTA AGGAACAGCT GAAGGAGCTC CGGAAGCATT TGATAGAGAG TACCAATGAA 
    ATGGCTCCAC TCAAAGTCTG GCAAATGCAA GATCTCAGCT TTCAGACTGC TGCTCGTATC 
    CTGGCAGCTC CCTCTGTGGA TGCTCTCAAT GTCATGAAGG ATTTGAGCCA AAACTTTCCC 
    ACCAAAGCCA GGTCCATAAC AAAAACGGTG GTTAATTCGG AGATCCGTAA GGAGATTGAG 
    GAGAATCAAA AGTATTTTAA GGGGACTTTA GGGCTCCAGC CTGGAGACTC AGCTCTGTTC 
    ATCAATGGAC TCCATATTGA CTTGGATGTG CAGGATATTT TCAGTGTTTT TGATGTGTTG 
    AGGAATGAGG CAAGGGTCAT GGAGGGTCTG CGTAGTCTGC TCATAGAAAC GCCATACATC 
    CACGACATCC TCAAACTCAA CGTTCAGCCT TCAGACTCTG ACTATGCCGT AGACATCCGC 
    AACCCTGCTG TTCACTGGAT TAATAACCTG GAGACAGACG GCAGATATGC TTCCTGGCCC 
    TCTAATGTGC AAGAACTGCT GCGGCCCACT TTTCCTGGAG TCATTCGACA GATCCGGAAG 
    AACTTCCATA ATCTGGTGAT GATTCTGGAT CCGACCCATG AGAACACGGC TGAGCTGCTC 
    GGAGTGGCAG AGATGTTTTA CAGCAACAAC ATCCCACTCA GGATTGGCGT GGTGTTTGTG 
    GTGAACGATT CTGATGATGT TGATGGGATG CAAGATCCTG GTGTGGCTCT TCTTCGAGCT 
    TTCAACTATA TAGCTGATGA CGTGGACGGC CAAATGGCCT TCGATGCTGT CATATCAATA 
    ATGAATAGGA TTCCCAGTGG AGACAAACTG AAGGTGGAGC ATGTGGTGGG TGTGTTGGAG 
    AAGAGATATC CATATGTAGA GATCAGCAGC ATCTTGGGCC CTGACTCTGC TTACGAAAAC 
    AACAGAAAAG AGGGAAAGGC ATATTATGAG CAGACTGGTG TTGGCCCTCT GCCAGTGGTG 
    TTGTATAATG GTATGCCTTT ACAGCGTGAG CAGTTAGACC CTGATGAACT TGAAACGGTC 
    GTCATGCACA AGATCTTGGA GACCACCAGC TTTTTTCAGC GCACTGTCTA TCTGGGTGAG 
    CTGAACAGTG ATCATGACGT GGTGGATTAT ATCATGAATC AGCCCAACGT GGTCCCTCGA 
    ATCAATTCCA GAATTCTGAG CACCAGCAGG AATTATCTGG ACCTTTCCGC CACCAATAAT 
    CATTTTATTG ACGAATATGC ACGTTTCCTG TTTTTGGATG CCAAAGACAA GAATGCAGCG 
    GTGGCCAACA GTATGAATTA CATGACAAAG AAAGATGATG GCATCATCCG TCCGGTGACT 
    TTCTGGGTAG TGGGAGACTT TGACCAGCCA TCGGGTCGAC AGCTGCTGTA TGATGCCATA 
    CGTCACATGA AAACCAGTAA TAATGTGCGA TTAGGACTGA TCAATAACCC CAGTGAGAAC 
    CCCTCTAATG AGAACAGTCT GATCGCTCGA GCCATATGGG CAGCCATGCA GACGCAAACC 
    TCCAACAACG CCAAAAATTT CATCACCAAA ATGGCTAAAG AGGAGACGGC GCAGGCTCTT 
    TACGGAGGCA GTGACATTGC GGAGTTTGCT GTCGGGGGCA TGGATGTTCC TCTCTTTAAG 
    AGCGCGTATG AGTCTCCTAA TGTGAACTTC CTGCTGGCTC ATTCTGCGTA CTGTAGAGAT 
    GTCCTCAAAC TGCAGAAGGG CCAGAGAGCT GTGATCAGCA ATGGAAGGAT CATTGGCCCA 
    CTGGAGGAAA GGGAGGTCTT TAACCAGGAT GATTTCCTGC TTTTGGAGAG CATTATTCTG 
    AAGACATCAG GGGAGCGGAT AAAGGGCAAA ATCCAACAGA TGGGCATGGT AGAGGACAGA 
    GCTAGTGATC TGGTGATGAA GGTGGATGCC CTGCTGTCTT CACAGCCGAA AGGGGAAGCA 
    AGGATCGAGC ACACTTTTGC TGAAGACAGA TACAGCGCTG TGAAAATCAG ACCAAAGGAA 
    GAGGAAGTGT ACTTCGATGT TGTAGCTGTT TTAGATCCAG TGACCAGAGA TGCTCAGAAA 
    CTAGCACCTC TACTCCTGGT ATTGAAGCAG CTGGTGAACG TCAACCTGCG AGTGTTCATG 
    AACTGCCAGT CCAAGCTCTC TGACCTCCCG CTGAAAAGTT TTTATCGATA TGTTTTGGAG 
    CCAGAGATTG TGTTTCTGAC CGATAGTAGC TTTGCTCCTG GTCCGATGGC TAAGTTCTTA 
    GATATGCCTC AGTCGCCTTT GTTCACTCTG AACCTGAACA CCCCAGAAAG CTGGATGGTT 
    GAGTCTGTCC ACACACGTTA CGATCTGGAT AACATATACC TTGAAGAGGT GGACAGTGTC 
    GTGGCCGCCG AGTATGAGTT GGAGTATTTA TTACTGGAGG GTCACTGTTT TGACGTGACC 
    ACAGGTCAGC CTCCCCGTGG TCTGCAGTTC ACTCTGGGCA CTGCCTCCGA CCCTGTCATA 
    GTGGACACCA TCGTCATGGC CAACCTGGGT TATTTCCAGC TGAAAGCAAA CCCAGGAGCC 
    TGGATGCTCA GGCTGAGGAA AGGCAGGTCG GATGATATCT ACAAAATCTA CAGTCACGAT 
    GGCACAGACT CTCCAGCCGA AGCTGATGAT TTAATCGTCG TCCTTAACAA CTTCAAGAGC 
    AAGATCATTA AAGTGAAAGT GCAGAAAAAG CCTGATATGA TAAATGAGGA GCTTCTCAGT 
    GATGGTACCC ATGAGAACGA GTCTGGATTC TGGACATCTA TAGCCAGAGG ATTCACTGGT 
    GGTTCAAACC CAGAAGAACC CAAACAGGAA AAAGACGATG TTATCAACAT TTTCTCTGTG 
    GCCTCTGGTC ATTTATACGA GCGGTTCCTC AGGATAATGA TGCTGTCTGT GCTCAAACAC 
    ACCAAGACAC CCGTCAAGTT CTGGTTCCTC AAAAACTACC TGTCGCCAAC TTTTAAGGAA 
    TTCATTCCAT ATATGGCAGA GAAGTATGGT TTCCAGTATG AGTTGGTGCA GTATAAATGG 
    CCACGTTGGC TTCACCAGCA GACAGAAAAG CAAAGGATCA TTTGGGGCTA TAAGATTCTG 
    TTCCTCGACG TGCTCTTCCC GCTGGCTGTG GACAAGTTCC TCTTTGTGGA TGCGGATCAG 
    ATAGTTCGCA CAGACCTGAA GGAGCTGCGA GATTTTGACC TAGAAGGGGC GCCTTATGGT 
    TACACACCTT TCTGCGAGAG CCGAAGAGAA ATGGACGGAT ATCGTTTTTG GAAGTCTGGA 
    TACTGGGCCA GTCATTTGGC CGGACGTAAA TACCACATCA GTGCTCTGTA TGTGGTCGAT 
    CTGAAGAAGT TCAGGAAGAT TGCAGCTGGA GACCGACTGA GAGGCCAGTA CCAGGGTCTG 
    AGTCAAGACC CCAACAGTCT GTCTAATCTG GACCAGGATT TGCCCAACAA CATGATTCAC 
    CAAGTGCCAA TTAAGTCACT TCCTCAGGAA TGGCTTTGGT GTGAAACCTG GTGTGATGAT 
    GCGTCTAAAA AGAAAGCCAA AACTATAGAT CTGTGCAATA ACCCACAAAC AAAAGAGCCG 
    AAGCTGCAGG CTGCTGTACG TATAGTAGGT GAGTGGAGCG ACTATGACCA GGAGATAAAG 
    AGAATCTACA ACAACTTCCT GGATGAGAAA GAAAGAGGCA CCTTAGAAGG CTATCAGTCA 
    ACAGACAGAA AACACCCAGG TGGTGTTACA CACTCAGAGC TCTGA

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

    UGGT1 ( NM_001077534.1 ) cDNA ORF clone, Danio rerio(Zebrafish) -> NP_001071002.1 Danio rerio UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), mRNA.
    Price & Availability↑
    CloneID ODa35266
    Clone ID Related Accession (Same CDS sequence) NM_001077534.1
    Accession Version NM_001077534.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4578bp)
    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 2019-01-26
    Organism Danio rerio(zebrafish)
    Product UDP-glucose:glycoprotein glucosyltransferase 1 precursor
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC125832.1. On Nov 9, 2006 this sequence version replaced XM_695443.1. ##Evidence-Data-START## Transcript exon combination :: BC125832.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA2168446, SAMEA2168447 [ECO:0000350] ##Evidence-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
    ATGTGGCTGT TTTGTGCTGC ACTGCTGGCT CTGGGCTCTG TCGACTCTGT CATTGGGGAC 
    TCAAAAGCAG TTACAACGAC ACTGACTACT AAATGGCCCT CGACACCTCT CCTGTTGGAA 
    GCCAGCGAGT TCCTTGCCGA GGAGAGTCAG GACAAGTTCT GGGTTTTTGT GGAAGCCAAC 
    CAGAACATTG AGAATGATCA TGATGACACG GATCAGGCTT ACTATGACCT GATCCTGAAG 
    AGAGCTGGTG AGCTGCTGAG CCCAGTGCAG TTAAACCTGC TGAAGTTCTC CTTATCTCTG 
    AGGGCTTACT CATCCACCAT CCATTCTTTC CAGCAGATTG CATCCAATGA GCCTCCTCCA 
    TCTGGCTGTA AAGCATTCTT TAATGTACAT GGACAGAAAT CTTGTGATTC TGAAAGACTA 
    CAAGGCATGC TGGACAATGC CTTAGAACGG CCAAAGCCAA ACCTGTTCAA AGGTGATCAC 
    AGATACCATT CAGCCAATCC TGATGCACCA GTTGTGATTT TGTACGCTGA AATGGGCACC 
    AAAGAATTCT CCAGACTCCA TCAACTGATG CTTTCAAAAG CCAACAAGGG CATGATCACT 
    TATGTTCTGC GGCACTTTCT TGCTAGCCCA AGTAAAAGTA AAGTACACCT GTCTGGATAT 
    GGAGTGGAAC TGGCCATCAA AAACCAGGAG TACAAAGCCA AAGACGACAC ACAAGTTCAG 
    GCTGGCGCTG ATGCAAATGC AACGGTAATA GGTGAAAATG ATCCGGTGGA TGAAGTGCAG 
    GGCTTTCTTT TTGGCAAACT CAAAACCATT TACCCTGAAC TTAAGGAACA GCTGAAGGAG 
    CTCCGGAAGC ATTTGATAGA GAGTACCAAT GAAATGGCTC CACTCAAAGT CTGGCAAATG 
    CAAGATCTCA GCTTTCAGAC TGCTGCTCGT ATCCTGGCAG CTCCCTCTGT GGATGCTCTC 
    AATGTCATGA AGGATTTGAG CCAAAACTTT CCCACCAAAG CCAGGTCCAT AACAAAAACG 
    GTGGTTAATT CGGAGATCCG TAAGGAGATT GAGGAGAATC AAAAGTATTT TAAGGGGACT 
    TTAGGGCTAC AGCCTGGAGA CTCGGCTCTG TTCATCAATG GACTCCATAT TGACTTGGAT 
    GTGCAGGATA TTTTCAGTGT TTTTGATGTG TTGAGGAATG AGGCAAGGGT CATGGAGGGT 
    CTGCGTAGTC TGCTCATAGA AACGCCATAC ATCCACGACA TCCTCAAACT CAACGTTCAG 
    CCTTCAGACT CTGACTATGC CGTAGACATC CGCAACCCTG CTGTTCACTG GATTAATAAC 
    CTGGAGACAG ACGGCAGATA TGCTTCCTGG CCCTCTAATG TGCAAGAACT GCTGCGGCCC 
    ACTTTTCCTG GAGTCATTCG ACAGATCCGG AAGAACTTCC ATAATCTGGT GATGATTCTG 
    GATCCGACCC ATGAGAACAC GGCTGAGCTG CTTGGAGTGG CAGAGATGTT TTACAGCAAC 
    AACATCCCAC TCAGGATCGG CGTGGTGTTT GTGGTGAACG ATTCTGATGA TGTTGATGGG 
    ATGCAAGATC CTGGTGTGGC TCTTCTTCGA GCTTTCAACT ATATTGCTGA TGACGTGGAC 
    GGCCAAATGG CCTTCGATGC TGTCATATCT ATAATGAATA GGATTCCCAG TGGAGACAAA 
    CTGAAGGTGG AGCATGTGGT GGGTGTGTTG GAGAAGAGAT ATCCATATGT AGAGATCAGC 
    AGCATCTTGG GCCCTGACTC TGCTTACGAC AACAACAGAA AAGAGGGAAA GGCATATTAT 
    GAGCAGACTG GTGTTGGCCC TCTGCCAGTG GTGTTGTATA ATGGTATGCC CTTACAGCGT 
    GAGCAGTTAG ACCCTGATGA ACTTGAAACG GTCGTCATGC ACAAGATCTT GGAGACCACC 
    AGCTTTTTTC AGCGCACTGT CTATCTGGGT GAGCTGAACA GTGATCATGA CGTGGTGGAT 
    TATATCATGA ATCAGCCCAA CGTGGTCCCT CGAATCAATT CCAGAATCCT GAGCACCAGC 
    AGGAATTATC TGGACCTTTC CGCCACCAAT AATCATTTTA TTGACGAATA TGCACGTTTC 
    CTGTTTTTGG ATGCCAAAGA CAAGAATGCA GCGGTGGCCA ACAGTATGAA TTACATGACA 
    AAGAAAGATG ATGGCATCAT CCGTCCGGTG ACTTTCTGGG TAGTGGGAGA CTTTGACCAG 
    CCATCGGGTC GACAGCTGCT GTATGATGCC ATACGTCACA TGAAAACCAG TAATAATGTG 
    CGATTAGGAC TGATCAATAA CCCCAGTGAG AACCCCTCTA ATGAGAACAG TCTGATCGCT 
    CGAGCCATAT GGGCAGCCAT GCAGACGCAA ACCTCCAACA ACGCCAAAAA TTTCATCACC 
    AAAATGGCTA AAGAGGAGAC GGCGCAGGCT CTTTACGGAG GCAGTGACAT TGCGGAGTTT 
    GCTGTCGGGG GCATGGATGT TCCTCTCTTT AAGAGCGCGT ATGAGTCTCC TAATGTGAAC 
    TTCCTGCTGG CTCATTCTGC GTACTGTAGA GATGTCCTCA AACTGCAGAA GGGCCAGAGA 
    GCTGTGATCA GCAATGGAAG GATCATTGGC CCACTGGAGG AAAGGGAGGT CTTTAACCAG 
    GATGATTTCC TGCTTCTGGA GAGCATTATT CTGAAGACAT CAGGGGAGCG GATAAAGGGC 
    AAAATCCAAC AGATGGGCAT GGTAGAGGAC AGAGCTAGTG ATCTGGTGAT GAAGGTGGAT 
    GCCCTGCTGT CTTCACAGCC GAAAGGTGAA GCAAGGATCG AGCACACTTT TGCTGAAGAC 
    AGATACAGCG CTGTGAAAAT CAGACCAAAG GAAGAGGAAG TGTACTTCGA TGTTGTAGCT 
    GTTTTAGATC CAGTGACCAG AGATGCTCAG AAACTAGCAC CTCTACTCCT GGTATTGAAG 
    CAGCTGGTGG ACGTCAACCT GCGAGTGTTC ATGAACTGCC AGTCCAAGCT CTCTGACCTC 
    CCGCTGAAAA GTTTTTATCG ATATGTTTTG GAGCCAGAGA TTGTGTTTCT GACCGATAGC 
    AGCTTTGCTC CTGGTCCGAT GGCTAAGTTC TTAGATATGC CTCAGTCGCC TTTGTTCACT 
    CTGAACCTGA ACACCCCAGA AAGCTGGATG GTTGAGTCTG TCCACACACG TTACGATCTG 
    GATAACATAT ACCTTGAAGA GGTGGACAGT GTCGTGGCCG CTGAGTATGA GTTGGAGTAT 
    TTATTACTGG AGGGTCACTG TTTTGACGTG ACCACAGGTC AGCCTCCCCG TGGTCTGCAG 
    TTCACTCTGG GCACTGCCTC CGACCCTGTC ATAGTGGACA CCATCGTCAT GGCCAACCTG 
    GGTTATTTCC AGCTGAAAGC AAACCCAGGA GCCTGGATGC TCAGGCTGAG GAAAGGCAGG 
    TCGGATGATA TCTACAAAAT CTACAGTCAC GATGGCACAG ACTCTCCAGC CGAAGCTGAT 
    GATTTAATCG TCGTCCTTAA CAACTTCAAG AGCAAGATCA TTAAAGTGAA AGTGCAGAAA 
    AAGCCTGATA TGATAAATGA GGAGCTTCTC AGTGATGGTA CCCATGAGAA CGAGTCTGGA 
    TTCTGGACAT CTATAGCCAG AGGATTCACT GGTGGTTCAA ACCCAGAAGA GCCCAAACAG 
    GAAAAAGACG ATGTTATCAA CATTTTCTCT GTGGCTTCTG GTCATTTATA CGAGCGGTTC 
    CTCAGGATAA TGATGCTGTC TGTGCTCAAA CACACCAAGA CACCCGTCAA GTTCTGGTTC 
    CTCAAAAACT ACCTGTCGCC AACTTTTAAG GAATTCATTC CATATATGGC AGAGAAGTAT 
    GGTTTCCAGT ATGAGTTGGT GCAGTATAAA TGGCCACGTT GGCTTCACCA GCAGACAGAA 
    AAGCAAAGGA TCATTTGGGG CTATAAGATT CTGTTCCTCG ACGTGCTCTT CCCGCTGGCT 
    GTGGACAAGT TCCTCTTTGT GGATGCGGAT CAGATAGTTC GCACAGACCT GAAGGAGCTG 
    CGAGATTTTG ACCTAGAAGG GGCGCCTTAT GGTTACACAC CTTTCTGCGA GAGCCGAAGA 
    GAAATGGACG GACATCGTTT TTGGAAGTCT GGATACTGGG CTAGTCATTT GGCCGGACGT 
    AAATACCACA TCAGTGCTCT GTATGTGGTC GATCTGAAGA AGTTCAGGAA GATTGCAGCT 
    GGAGACCGAC TGAGAGGCCA GTACCAGGGT CTGAGTCAAG ACCCCAACAG TCTGTCTAAT 
    CTGGACCAGG ATTTGCCCAA CAACATGATC CACCAAGTGC CAATTAAGTC ACTTCCTCAG 
    GAATGGCTTT GGTGTGAAAC CTGGTGTGAT GATGCGTCTA AAAAGAAAGC CAAAACTATA 
    GATCTGTGCA ATAACCCACA GACAAAAGAG CCGAAGCTGC AGGCTGCTGT ACGTATAGTA 
    GGTGAGTGGA GCGACTATGA CCAGGAGATA AAGAGAATCT ACAACAACTT CCTGGATGAG 
    AAAGAAAGAG GCACCTTAGA AGGCTATCAG TCAACAGACA GAAAACACCC AGGTGGTGAT 
    ACACACTCAG AGCTCTGA

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

    RefSeq NP_001071002.1
    CDS40..4617
    Translation

    Target ORF information:

    RefSeq Version NM_001077534.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001077534.1

    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
    ATGTGGCTGT TTTGTGCTGC ACTGCTGGCT CTGGGCTCTG TCGACTCTGT CATTGGGGAC 
    TCAAAAGCAG TTACAACGAC ACTGACTACT AAATGGCCCT CGACACCTCT CCTGTTGGAA 
    GCCAGCGAGT TCCTTGCCGA GGAGAGTCAG GACAAGTTCT GGGTTTTTGT GGAAGCCAAC 
    CAGAACATTG AGAATGATCA TGATGACACG GATCAGGCTT ACTATGACCT GATCCTGAAG 
    AGAGCTGGTG AGCTGCTGAG CCCAGTGCAG TTAAACCTGC TGAAGTTCTC CTTATCTCTG 
    AGGGCTTACT CATCCACCAT CCATTCTTTC CAGCAGATTG CATCCAATGA GCCTCCTCCA 
    TCTGGCTGTA AAGCATTCTT TAATGTACAT GGACAGAAAT CTTGTGATTC TGAAAGACTA 
    CAAGGCATGC TGGACAATGC CTTAGAACGG CCAAAGCCAA ACCTGTTCAA AGGTGATCAC 
    AGATACCATT CAGCCAATCC TGATGCACCA GTTGTGATTT TGTACGCTGA AATGGGCACC 
    AAAGAATTCT CCAGACTCCA TCAACTGATG CTTTCAAAAG CCAACAAGGG CATGATCACT 
    TATGTTCTGC GGCACTTTCT TGCTAGCCCA AGTAAAAGTA AAGTACACCT GTCTGGATAT 
    GGAGTGGAAC TGGCCATCAA AAACCAGGAG TACAAAGCCA AAGACGACAC ACAAGTTCAG 
    GCTGGCGCTG ATGCAAATGC AACGGTAATA GGTGAAAATG ATCCGGTGGA TGAAGTGCAG 
    GGCTTTCTTT TTGGCAAACT CAAAACCATT TACCCTGAAC TTAAGGAACA GCTGAAGGAG 
    CTCCGGAAGC ATTTGATAGA GAGTACCAAT GAAATGGCTC CACTCAAAGT CTGGCAAATG 
    CAAGATCTCA GCTTTCAGAC TGCTGCTCGT ATCCTGGCAG CTCCCTCTGT GGATGCTCTC 
    AATGTCATGA AGGATTTGAG CCAAAACTTT CCCACCAAAG CCAGGTCCAT AACAAAAACG 
    GTGGTTAATT CGGAGATCCG TAAGGAGATT GAGGAGAATC AAAAGTATTT TAAGGGGACT 
    TTAGGGCTAC AGCCTGGAGA CTCGGCTCTG TTCATCAATG GACTCCATAT TGACTTGGAT 
    GTGCAGGATA TTTTCAGTGT TTTTGATGTG TTGAGGAATG AGGCAAGGGT CATGGAGGGT 
    CTGCGTAGTC TGCTCATAGA AACGCCATAC ATCCACGACA TCCTCAAACT CAACGTTCAG 
    CCTTCAGACT CTGACTATGC CGTAGACATC CGCAACCCTG CTGTTCACTG GATTAATAAC 
    CTGGAGACAG ACGGCAGATA TGCTTCCTGG CCCTCTAATG TGCAAGAACT GCTGCGGCCC 
    ACTTTTCCTG GAGTCATTCG ACAGATCCGG AAGAACTTCC ATAATCTGGT GATGATTCTG 
    GATCCGACCC ATGAGAACAC GGCTGAGCTG CTTGGAGTGG CAGAGATGTT TTACAGCAAC 
    AACATCCCAC TCAGGATCGG CGTGGTGTTT GTGGTGAACG ATTCTGATGA TGTTGATGGG 
    ATGCAAGATC CTGGTGTGGC TCTTCTTCGA GCTTTCAACT ATATTGCTGA TGACGTGGAC 
    GGCCAAATGG CCTTCGATGC TGTCATATCT ATAATGAATA GGATTCCCAG TGGAGACAAA 
    CTGAAGGTGG AGCATGTGGT GGGTGTGTTG GAGAAGAGAT ATCCATATGT AGAGATCAGC 
    AGCATCTTGG GCCCTGACTC TGCTTACGAC AACAACAGAA AAGAGGGAAA GGCATATTAT 
    GAGCAGACTG GTGTTGGCCC TCTGCCAGTG GTGTTGTATA ATGGTATGCC CTTACAGCGT 
    GAGCAGTTAG ACCCTGATGA ACTTGAAACG GTCGTCATGC ACAAGATCTT GGAGACCACC 
    AGCTTTTTTC AGCGCACTGT CTATCTGGGT GAGCTGAACA GTGATCATGA CGTGGTGGAT 
    TATATCATGA ATCAGCCCAA CGTGGTCCCT CGAATCAATT CCAGAATCCT GAGCACCAGC 
    AGGAATTATC TGGACCTTTC CGCCACCAAT AATCATTTTA TTGACGAATA TGCACGTTTC 
    CTGTTTTTGG ATGCCAAAGA CAAGAATGCA GCGGTGGCCA ACAGTATGAA TTACATGACA 
    AAGAAAGATG ATGGCATCAT CCGTCCGGTG ACTTTCTGGG TAGTGGGAGA CTTTGACCAG 
    CCATCGGGTC GACAGCTGCT GTATGATGCC ATACGTCACA TGAAAACCAG TAATAATGTG 
    CGATTAGGAC TGATCAATAA CCCCAGTGAG AACCCCTCTA ATGAGAACAG TCTGATCGCT 
    CGAGCCATAT GGGCAGCCAT GCAGACGCAA ACCTCCAACA ACGCCAAAAA TTTCATCACC 
    AAAATGGCTA AAGAGGAGAC GGCGCAGGCT CTTTACGGAG GCAGTGACAT TGCGGAGTTT 
    GCTGTCGGGG GCATGGATGT TCCTCTCTTT AAGAGCGCGT ATGAGTCTCC TAATGTGAAC 
    TTCCTGCTGG CTCATTCTGC GTACTGTAGA GATGTCCTCA AACTGCAGAA GGGCCAGAGA 
    GCTGTGATCA GCAATGGAAG GATCATTGGC CCACTGGAGG AAAGGGAGGT CTTTAACCAG 
    GATGATTTCC TGCTTCTGGA GAGCATTATT CTGAAGACAT CAGGGGAGCG GATAAAGGGC 
    AAAATCCAAC AGATGGGCAT GGTAGAGGAC AGAGCTAGTG ATCTGGTGAT GAAGGTGGAT 
    GCCCTGCTGT CTTCACAGCC GAAAGGTGAA GCAAGGATCG AGCACACTTT TGCTGAAGAC 
    AGATACAGCG CTGTGAAAAT CAGACCAAAG GAAGAGGAAG TGTACTTCGA TGTTGTAGCT 
    GTTTTAGATC CAGTGACCAG AGATGCTCAG AAACTAGCAC CTCTACTCCT GGTATTGAAG 
    CAGCTGGTGG ACGTCAACCT GCGAGTGTTC ATGAACTGCC AGTCCAAGCT CTCTGACCTC 
    CCGCTGAAAA GTTTTTATCG ATATGTTTTG GAGCCAGAGA TTGTGTTTCT GACCGATAGC 
    AGCTTTGCTC CTGGTCCGAT GGCTAAGTTC TTAGATATGC CTCAGTCGCC TTTGTTCACT 
    CTGAACCTGA ACACCCCAGA AAGCTGGATG GTTGAGTCTG TCCACACACG TTACGATCTG 
    GATAACATAT ACCTTGAAGA GGTGGACAGT GTCGTGGCCG CTGAGTATGA GTTGGAGTAT 
    TTATTACTGG AGGGTCACTG TTTTGACGTG ACCACAGGTC AGCCTCCCCG TGGTCTGCAG 
    TTCACTCTGG GCACTGCCTC CGACCCTGTC ATAGTGGACA CCATCGTCAT GGCCAACCTG 
    GGTTATTTCC AGCTGAAAGC AAACCCAGGA GCCTGGATGC TCAGGCTGAG GAAAGGCAGG 
    TCGGATGATA TCTACAAAAT CTACAGTCAC GATGGCACAG ACTCTCCAGC CGAAGCTGAT 
    GATTTAATCG TCGTCCTTAA CAACTTCAAG AGCAAGATCA TTAAAGTGAA AGTGCAGAAA 
    AAGCCTGATA TGATAAATGA GGAGCTTCTC AGTGATGGTA CCCATGAGAA CGAGTCTGGA 
    TTCTGGACAT CTATAGCCAG AGGATTCACT GGTGGTTCAA ACCCAGAAGA GCCCAAACAG 
    GAAAAAGACG ATGTTATCAA CATTTTCTCT GTGGCTTCTG GTCATTTATA CGAGCGGTTC 
    CTCAGGATAA TGATGCTGTC TGTGCTCAAA CACACCAAGA CACCCGTCAA GTTCTGGTTC 
    CTCAAAAACT ACCTGTCGCC AACTTTTAAG GAATTCATTC CATATATGGC AGAGAAGTAT 
    GGTTTCCAGT ATGAGTTGGT GCAGTATAAA TGGCCACGTT GGCTTCACCA GCAGACAGAA 
    AAGCAAAGGA TCATTTGGGG CTATAAGATT CTGTTCCTCG ACGTGCTCTT CCCGCTGGCT 
    GTGGACAAGT TCCTCTTTGT GGATGCGGAT CAGATAGTTC GCACAGACCT GAAGGAGCTG 
    CGAGATTTTG ACCTAGAAGG GGCGCCTTAT GGTTACACAC CTTTCTGCGA GAGCCGAAGA 
    GAAATGGACG GACATCGTTT TTGGAAGTCT GGATACTGGG CTAGTCATTT GGCCGGACGT 
    AAATACCACA TCAGTGCTCT GTATGTGGTC GATCTGAAGA AGTTCAGGAA GATTGCAGCT 
    GGAGACCGAC TGAGAGGCCA GTACCAGGGT CTGAGTCAAG ACCCCAACAG TCTGTCTAAT 
    CTGGACCAGG ATTTGCCCAA CAACATGATC CACCAAGTGC CAATTAAGTC ACTTCCTCAG 
    GAATGGCTTT GGTGTGAAAC CTGGTGTGAT GATGCGTCTA AAAAGAAAGC CAAAACTATA 
    GATCTGTGCA ATAACCCACA GACAAAAGAG CCGAAGCTGC AGGCTGCTGT ACGTATAGTA 
    GGTGAGTGGA GCGACTATGA CCAGGAGATA AAGAGAATCT ACAACAACTT CCTGGATGAG 
    AAAGAAAGAG GCACCTTAGA AGGCTATCAG TCAACAGACA GAAAACACCC AGGTGGTGAT 
    ACACACTCAG AGCTCTGA

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

    UGGT1 ( XM_005171290.2 ) cDNA ORF clone, Danio rerio(Zebrafish) -> XP_005171347.1 Danio rerio UDP-glucose glycoprotein glucosyltransferase 1 (uggt1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ODa07207
    Clone ID Related Accession (Same CDS sequence) XM_005171290.2
    Accession Version XM_005171290.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4653bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product UDP-glucose:glycoprotein glucosyltransferase 1 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 24, 2014 this sequence version replaced XM_005171290.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    ATGGGCCACT TATACCGTCC AAACATGGCA ACTCACGAAG CAGATTCCGA AGCCGGTGTT 
    GGATTTTGTG GAAAGATGTG GCTGTTTTGT GCTGCACTGC TGGCTCTGGG CTCTGTCGAC 
    TCTGTCAATG GGGACTCAAA AGCAGTTACA ACGACACTGA CTACTAAATG GCCCTCGACA 
    CCTCTCCTGT TGGAAGCCAG CGAGTTCCTT GCCGAGGAGA GTCAGGACAA GTTCTGGGCC 
    TTTGTGGAAG CCAACCAGAA CATTGAGAAT GATCATGATG ACACGGATCA GGCTTACTAT 
    GACCTGATCC TGAAGAGAGC TGGTGAGCTG CTGAGCCCAG TGCAGTTAAA CCTGCTGAAG 
    TTCTCCTTAT CTCTGAGGGC TTACTCATCC ACCATCCATT CTTTCCAGCA GATTGCATCC 
    AATGAGCCTC CTCCATCTGG CTGTAAAGCA TTCTTTAATG TACACGGACA GAAATCTTGT 
    GATTCTGAAA GACTACAAGG CATGCTGGAC AATGCCTTAG AACGGCCAAA GCCAAACCTG 
    TTCAAAGGTG ATCACAGATA CCATTCAGCC AATCCTGATG CACCAGTTGT GATTTTGTAC 
    GCTGAAATGG GCACCAAAGA ATTCTCCAGA CTCCATCAAC TGATGCTTTC AAAAGCCAAC 
    AAGGGCATGA TCACTTATGT TCTGCGGCAC TTTCTTGCTA GCCCAAGTAA AAGTAAAGTA 
    CACCTGTCTG GATATGGAGT GGAACTGGCC ATCAAAAACC AGGAGTACAA AGCCAAAGAC 
    GACACACAAG TTCAGGCTGG AGCTGATGCA AATGCAACGG TAATAGGTGA AAATGATCTG 
    GTGGATGAAG TGCAGGGCTT TCTTTTTGGC AAACTCAAAA CCATTTACCC TGAACTTAAG 
    GAACAGCTGA AGGAGCTCCG GAAGCATTTG ATAGAGAGTA CCAATGAAAT GGCTCCACTC 
    AAAGTCTGGC AAATGCAAGA TCTCAGCTTT CAGACTGCTG CTCGTATCCT GGCAGCTCCC 
    TCTGTGGATG CTCTCAATGT CATGAAGGAT TTGAGCCAAA ACTTTCCCAC CAAAGCCAGG 
    TCCATAACAA AAACGGTGGT TAATTCGGAG ATCCGTAAGG AGATTGAGGA GAATCAAAAG 
    TATTTTAAGG GGACTTTAGG GCTCCAGCCT GGAGACTCAG CTCTGTTCAT CAATGGACTC 
    CATATTGACT TGGATGTGCA GGATATTTTC AGTGTTTTTG ATGTGTTGAG GAATGAGGCA 
    AGGGTCATGG AGGGTCTGCG TAGTCTGCTC ATAGAAACGC CATACATCCA CGACATCCTC 
    AAACTCAACG TTCAGCCTTC AGACTCTGAC TATGCCGTAG ACATCCGCAA CCCTGCTGTT 
    CACTGGATTA ATAACCTGGA GACAGACGGC AGATATGCTT CCTGGCCCTC TAATGTGCAA 
    GAACTGCTGC GGCCCACTTT TCCTGGAGTC ATTCGACAGA TCCGGAAGAA CTTCCATAAT 
    CTGGTGATGA TTCTGGATCC GACCCATGAG AACACGGCTG AGCTGCTCGG AGTGGCAGAG 
    ATGTTTTACA GCAACAACAT CCCACTCAGG ATTGGCGTGG TGTTTGTGGT GAACGATTCT 
    GATGATGTTG ATGGGATGCA AGATCCTGGT GTGGCTCTTC TTCGAGCTTT CAACTATATA 
    GCTGATGACG TGGACGGCCA AATGGCCTTC GATGCTGTCA TATCAATAAT GAATAGGATT 
    CCCAGTGGAG ACAAACTGAA GGTGGAGCAT GTGGTGGGTG TGTTGGAGAA GAGATATCCA 
    TATGTAGAGA TCAGCAGCAT CTTGGGCCCT GACTCTGCTT ACGAAAACAA CAGAAAAGAG 
    GGAAAGGCAT ATTATGAGCA GACTGGTGTT GGCCCTCTGC CAGTGGTGTT GTATAATGGT 
    ATGCCTTTAC AGCGTGAGCA GTTAGACCCT GATGAACTTG AAACGGTCGT CATGCACAAG 
    ATCTTGGAGA CCACCAGCTT TTTTCAGCGC ACTGTCTATC TGGGTGAGCT GAACAGTGAT 
    CATGACGTGG TGGATTATAT CATGAATCAG CCCAACGTGG TCCCTCGAAT CAATTCCAGA 
    ATTCTGAGCA CCAGCAGGAA TTATCTGGAC CTTTCCGCCA CCAATAATCA TTTTATTGAC 
    GAATATGCAC GTTTCCTGTT TTTGGATGCC AAAGACAAGA ATGCAGCGGT GGCCAACAGT 
    ATGAATTACA TGACAAAGAA AGATGATGGC ATCATCCGTC CGGTGACTTT CTGGGTAGTG 
    GGAGACTTTG ACCAGCCATC GGGTCGACAG CTGCTGTATG ATGCCATACG TCACATGAAA 
    ACCAGTAATA ATGTGCGATT AGGACTGATC AATAACCCCA GTGAGAACCC CTCTAATGAG 
    AACAGTCTGA TCGCTCGAGC CATATGGGCA GCCATGCAGA CGCAAACCTC CAACAACGCC 
    AAAAATTTCA TCACCAAAAT GGCTAAAGAG GAGACGGCGC AGGCTCTTTA CGGAGGCAGT 
    GACATTGCGG AGTTTGCTGT CGGGGGCATG GATGTTCCTC TCTTTAAGAG CGCGTATGAG 
    TCTCCTAATG TGAACTTCCT GCTGGCTCAT TCTGCGTACT GTAGAGATGT CCTCAAACTG 
    CAGAAGGGCC AGAGAGCTGT GATCAGCAAT GGAAGGATCA TTGGCCCACT GGAGGAAAGG 
    GAGGTCTTTA ACCAGGATGA TTTCCTGCTT TTGGAGAGCA TTATTCTGAA GACATCAGGG 
    GAGCGGATAA AGGGCAAAAT CCAACAGATG GGCATGGTAG AGGACAGAGC TAGTGATCTG 
    GTGATGAAGG TGGATGCCCT GCTGTCTTCA CAGCCGAAAG GGGAAGCAAG GATCGAGCAC 
    ACTTTTGCTG AAGACAGATA CAGCGCTGTG AAAATCAGAC CAAAGGAAGA GGAAGTGTAC 
    TTCGATGTTG TAGCTGTTTT AGATCCAGTG ACCAGAGATG CTCAGAAACT AGCACCTCTA 
    CTCCTGGTAT TGAAGCAGCT GGTGAACGTC AACCTGCGAG TGTTCATGAA CTGCCAGTCC 
    AAGCTCTCTG ACCTCCCGCT GAAAAGTTTT TATCGATATG TTTTGGAGCC AGAGATTGTG 
    TTTCTGACCG ATAGTAGCTT TGCTCCTGGT CCGATGGCTA AGTTCTTAGA TATGCCTCAG 
    TCGCCTTTGT TCACTCTGAA CCTGAACACC CCAGAAAGCT GGATGGTTGA GTCTGTCCAC 
    ACACGTTACG ATCTGGATAA CATATACCTT GAAGAGGTGG ACAGTGTCGT GGCCGCCGAG 
    TATGAGTTGG AGTATTTATT ACTGGAGGGT CACTGTTTTG ACGTGACCAC AGGTCAGCCT 
    CCCCGTGGTC TGCAGTTCAC TCTGGGCACT GCCTCCGACC CTGTCATAGT GGACACCATC 
    GTCATGGCCA ACCTGGGTTA TTTCCAGCTG AAAGCAAACC CAGGAGCCTG GATGCTCAGG 
    CTGAGGAAAG GCAGGTCGGA TGATATCTAC AAAATCTACA GTCACGATGG CACAGACTCT 
    CCAGCCGAAG CTGATGATTT AATCGTCGTC CTTAACAACT TCAAGAGCAA GATCATTAAA 
    GTGAAAGTGC AGAAAAAGCC TGATATGATA AATGAGGAGC TTCTCAGTGA TGGTACCCAT 
    GAGAACGAGT CTGGATTCTG GACATCTATA GCCAGAGGAT TCACTGGTGG TTCAAACCCA 
    GAAGAACCCA AACAGGAAAA AGACGATGTT ATCAACATTT TCTCTGTGGC CTCTGGTCAT 
    TTATACGAGC GGTTCCTCAG GATAATGATG CTGTCTGTGC TCAAACACAC CAAGACACCC 
    GTCAAGTTCT GGTTCCTCAA AAACTACCTG TCGCCAACTT TTAAGGAATT CATTCCATAT 
    ATGGCAGAGA AGTATGGTTT CCAGTATGAG TTGGTGCAGT ATAAATGGCC ACGTTGGCTT 
    CACCAGCAGA CAGAAAAGCA AAGGATCATT TGGGGCTATA AGATTCTGTT CCTCGACGTG 
    CTCTTCCCGC TGGCTGTGGA CAAGTTCCTC TTTGTGGATG CGGATCAGAT AGTTCGCACA 
    GACCTGAAGG AGCTGCGAGA TTTTGACCTA GAAGGGGCGC CTTATGGTTA CACACCTTTC 
    TGCGAGAGCC GAAGAGAAAT GGACGGATAT CGTTTTTGGA AGTCTGGATA CTGGGCCAGT 
    CATTTGGCCG GACGTAAATA CCACATCAGT GCTCTGTATG TGGTCGATCT GAAGAAGTTC 
    AGGAAGATTG CAGCTGGAGA CCGACTGAGA GGCCAGTACC AGGGTCTGAG TCAAGACCCC 
    AACAGTCTGT CTAATCTGGA CCAGGATTTG CCCAACAACA TGATTCACCA AGTGCCAATT 
    AAGTCACTTC CTCAGGAATG GCTTTGGTGT GAAACCTGGT GTGATGATGC GTCTAAAAAG 
    AAAGCCAAAA CTATAGATCT GTGCAATAAC CCACAAACAA AAGAGCCGAA GCTGCAGGCT 
    GCTGTACGTA TAGTAGGTGA GTGGAGCGAC TATGACCAGG AGATAAAGAG AATCTACAAC 
    AACTTCCTGG ATGAGAAAGA AAGAGGCACC TTAGAAGGCT ATCAGTCAAC AGACAGAAAA 
    CACCCAGGTG GTGTTACACA CTCAGAGCTC TGA

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

    RefSeq XP_005171347.1
    CDS12..4664
    Translation

    Target ORF information:

    RefSeq Version XM_005171290.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio 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_005171290.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCCACT TATACCGTCC AAACATGGCA ACTCACGAAG CAGATTCCGA AGCCGGTGTT 
    GGATTTTGTG GAAAGATGTG GCTGTTTTGT GCTGCACTGC TGGCTCTGGG CTCTGTCGAC 
    TCTGTCAATG GGGACTCAAA AGCAGTTACA ACGACACTGA CTACTAAATG GCCCTCGACA 
    CCTCTCCTGT TGGAAGCCAG CGAGTTCCTT GCCGAGGAGA GTCAGGACAA GTTCTGGGCC 
    TTTGTGGAAG CCAACCAGAA CATTGAGAAT GATCATGATG ACACGGATCA GGCTTACTAT 
    GACCTGATCC TGAAGAGAGC TGGTGAGCTG CTGAGCCCAG TGCAGTTAAA CCTGCTGAAG 
    TTCTCCTTAT CTCTGAGGGC TTACTCATCC ACCATCCATT CTTTCCAGCA GATTGCATCC 
    AATGAGCCTC CTCCATCTGG CTGTAAAGCA TTCTTTAATG TACACGGACA GAAATCTTGT 
    GATTCTGAAA GACTACAAGG CATGCTGGAC AATGCCTTAG AACGGCCAAA GCCAAACCTG 
    TTCAAAGGTG ATCACAGATA CCATTCAGCC AATCCTGATG CACCAGTTGT GATTTTGTAC 
    GCTGAAATGG GCACCAAAGA ATTCTCCAGA CTCCATCAAC TGATGCTTTC AAAAGCCAAC 
    AAGGGCATGA TCACTTATGT TCTGCGGCAC TTTCTTGCTA GCCCAAGTAA AAGTAAAGTA 
    CACCTGTCTG GATATGGAGT GGAACTGGCC ATCAAAAACC AGGAGTACAA AGCCAAAGAC 
    GACACACAAG TTCAGGCTGG AGCTGATGCA AATGCAACGG TAATAGGTGA AAATGATCTG 
    GTGGATGAAG TGCAGGGCTT TCTTTTTGGC AAACTCAAAA CCATTTACCC TGAACTTAAG 
    GAACAGCTGA AGGAGCTCCG GAAGCATTTG ATAGAGAGTA CCAATGAAAT GGCTCCACTC 
    AAAGTCTGGC AAATGCAAGA TCTCAGCTTT CAGACTGCTG CTCGTATCCT GGCAGCTCCC 
    TCTGTGGATG CTCTCAATGT CATGAAGGAT TTGAGCCAAA ACTTTCCCAC CAAAGCCAGG 
    TCCATAACAA AAACGGTGGT TAATTCGGAG ATCCGTAAGG AGATTGAGGA GAATCAAAAG 
    TATTTTAAGG GGACTTTAGG GCTCCAGCCT GGAGACTCAG CTCTGTTCAT CAATGGACTC 
    CATATTGACT TGGATGTGCA GGATATTTTC AGTGTTTTTG ATGTGTTGAG GAATGAGGCA 
    AGGGTCATGG AGGGTCTGCG TAGTCTGCTC ATAGAAACGC CATACATCCA CGACATCCTC 
    AAACTCAACG TTCAGCCTTC AGACTCTGAC TATGCCGTAG ACATCCGCAA CCCTGCTGTT 
    CACTGGATTA ATAACCTGGA GACAGACGGC AGATATGCTT CCTGGCCCTC TAATGTGCAA 
    GAACTGCTGC GGCCCACTTT TCCTGGAGTC ATTCGACAGA TCCGGAAGAA CTTCCATAAT 
    CTGGTGATGA TTCTGGATCC GACCCATGAG AACACGGCTG AGCTGCTCGG AGTGGCAGAG 
    ATGTTTTACA GCAACAACAT CCCACTCAGG ATTGGCGTGG TGTTTGTGGT GAACGATTCT 
    GATGATGTTG ATGGGATGCA AGATCCTGGT GTGGCTCTTC TTCGAGCTTT CAACTATATA 
    GCTGATGACG TGGACGGCCA AATGGCCTTC GATGCTGTCA TATCAATAAT GAATAGGATT 
    CCCAGTGGAG ACAAACTGAA GGTGGAGCAT GTGGTGGGTG TGTTGGAGAA GAGATATCCA 
    TATGTAGAGA TCAGCAGCAT CTTGGGCCCT GACTCTGCTT ACGAAAACAA CAGAAAAGAG 
    GGAAAGGCAT ATTATGAGCA GACTGGTGTT GGCCCTCTGC CAGTGGTGTT GTATAATGGT 
    ATGCCTTTAC AGCGTGAGCA GTTAGACCCT GATGAACTTG AAACGGTCGT CATGCACAAG 
    ATCTTGGAGA CCACCAGCTT TTTTCAGCGC ACTGTCTATC TGGGTGAGCT GAACAGTGAT 
    CATGACGTGG TGGATTATAT CATGAATCAG CCCAACGTGG TCCCTCGAAT CAATTCCAGA 
    ATTCTGAGCA CCAGCAGGAA TTATCTGGAC CTTTCCGCCA CCAATAATCA TTTTATTGAC 
    GAATATGCAC GTTTCCTGTT TTTGGATGCC AAAGACAAGA ATGCAGCGGT GGCCAACAGT 
    ATGAATTACA TGACAAAGAA AGATGATGGC ATCATCCGTC CGGTGACTTT CTGGGTAGTG 
    GGAGACTTTG ACCAGCCATC GGGTCGACAG CTGCTGTATG ATGCCATACG TCACATGAAA 
    ACCAGTAATA ATGTGCGATT AGGACTGATC AATAACCCCA GTGAGAACCC CTCTAATGAG 
    AACAGTCTGA TCGCTCGAGC CATATGGGCA GCCATGCAGA CGCAAACCTC CAACAACGCC 
    AAAAATTTCA TCACCAAAAT GGCTAAAGAG GAGACGGCGC AGGCTCTTTA CGGAGGCAGT 
    GACATTGCGG AGTTTGCTGT CGGGGGCATG GATGTTCCTC TCTTTAAGAG CGCGTATGAG 
    TCTCCTAATG TGAACTTCCT GCTGGCTCAT TCTGCGTACT GTAGAGATGT CCTCAAACTG 
    CAGAAGGGCC AGAGAGCTGT GATCAGCAAT GGAAGGATCA TTGGCCCACT GGAGGAAAGG 
    GAGGTCTTTA ACCAGGATGA TTTCCTGCTT TTGGAGAGCA TTATTCTGAA GACATCAGGG 
    GAGCGGATAA AGGGCAAAAT CCAACAGATG GGCATGGTAG AGGACAGAGC TAGTGATCTG 
    GTGATGAAGG TGGATGCCCT GCTGTCTTCA CAGCCGAAAG GGGAAGCAAG GATCGAGCAC 
    ACTTTTGCTG AAGACAGATA CAGCGCTGTG AAAATCAGAC CAAAGGAAGA GGAAGTGTAC 
    TTCGATGTTG TAGCTGTTTT AGATCCAGTG ACCAGAGATG CTCAGAAACT AGCACCTCTA 
    CTCCTGGTAT TGAAGCAGCT GGTGAACGTC AACCTGCGAG TGTTCATGAA CTGCCAGTCC 
    AAGCTCTCTG ACCTCCCGCT GAAAAGTTTT TATCGATATG TTTTGGAGCC AGAGATTGTG 
    TTTCTGACCG ATAGTAGCTT TGCTCCTGGT CCGATGGCTA AGTTCTTAGA TATGCCTCAG 
    TCGCCTTTGT TCACTCTGAA CCTGAACACC CCAGAAAGCT GGATGGTTGA GTCTGTCCAC 
    ACACGTTACG ATCTGGATAA CATATACCTT GAAGAGGTGG ACAGTGTCGT GGCCGCCGAG 
    TATGAGTTGG AGTATTTATT ACTGGAGGGT CACTGTTTTG ACGTGACCAC AGGTCAGCCT 
    CCCCGTGGTC TGCAGTTCAC TCTGGGCACT GCCTCCGACC CTGTCATAGT GGACACCATC 
    GTCATGGCCA ACCTGGGTTA TTTCCAGCTG AAAGCAAACC CAGGAGCCTG GATGCTCAGG 
    CTGAGGAAAG GCAGGTCGGA TGATATCTAC AAAATCTACA GTCACGATGG CACAGACTCT 
    CCAGCCGAAG CTGATGATTT AATCGTCGTC CTTAACAACT TCAAGAGCAA GATCATTAAA 
    GTGAAAGTGC AGAAAAAGCC TGATATGATA AATGAGGAGC TTCTCAGTGA TGGTACCCAT 
    GAGAACGAGT CTGGATTCTG GACATCTATA GCCAGAGGAT TCACTGGTGG TTCAAACCCA 
    GAAGAACCCA AACAGGAAAA AGACGATGTT ATCAACATTT TCTCTGTGGC CTCTGGTCAT 
    TTATACGAGC GGTTCCTCAG GATAATGATG CTGTCTGTGC TCAAACACAC CAAGACACCC 
    GTCAAGTTCT GGTTCCTCAA AAACTACCTG TCGCCAACTT TTAAGGAATT CATTCCATAT 
    ATGGCAGAGA AGTATGGTTT CCAGTATGAG TTGGTGCAGT ATAAATGGCC ACGTTGGCTT 
    CACCAGCAGA CAGAAAAGCA AAGGATCATT TGGGGCTATA AGATTCTGTT CCTCGACGTG 
    CTCTTCCCGC TGGCTGTGGA CAAGTTCCTC TTTGTGGATG CGGATCAGAT AGTTCGCACA 
    GACCTGAAGG AGCTGCGAGA TTTTGACCTA GAAGGGGCGC CTTATGGTTA CACACCTTTC 
    TGCGAGAGCC GAAGAGAAAT GGACGGATAT CGTTTTTGGA AGTCTGGATA CTGGGCCAGT 
    CATTTGGCCG GACGTAAATA CCACATCAGT GCTCTGTATG TGGTCGATCT GAAGAAGTTC 
    AGGAAGATTG CAGCTGGAGA CCGACTGAGA GGCCAGTACC AGGGTCTGAG TCAAGACCCC 
    AACAGTCTGT CTAATCTGGA CCAGGATTTG CCCAACAACA TGATTCACCA AGTGCCAATT 
    AAGTCACTTC CTCAGGAATG GCTTTGGTGT GAAACCTGGT GTGATGATGC GTCTAAAAAG 
    AAAGCCAAAA CTATAGATCT GTGCAATAAC CCACAAACAA AAGAGCCGAA GCTGCAGGCT 
    GCTGTACGTA TAGTAGGTGA GTGGAGCGAC TATGACCAGG AGATAAAGAG AATCTACAAC 
    AACTTCCTGG ATGAGAAAGA AAGAGGCACC TTAGAAGGCT ATCAGTCAAC AGACAGAAAA 
    CACCCAGGTG GTGTTACACA CTCAGAGCTC TGA

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

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