| Gene Symbol | LOC100266683 |
| Entrez Gene ID | 100266683 |
| Full Name | protein GFS12 |
| Gene Type | protein-coding |
| Organism | Vitis vinifera(wine grape) |
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LOC100266683 cDNA ORF clone, Vitis vinifera(wine grape)
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Gene
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Clones
gRNAs
The following LOC100266683 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100266683 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.
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Reference Sequences (Refseq)
CloneID OVa33107 Clone ID Related Accession (Same CDS sequence) XM_010651363.2 Accession Version XM_010651363.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 5034bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1479916800000 Organism Vitis vinifera(wine grape) Product protein GFS12 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_012011.3) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Nov 25, 2016 this sequence version replaced XM_010651363.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Vitis vinifera Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981ATGGAGGATG AACCGTGCTT CGAGTGCCTT CAGCGTCGAT TTCAATCCGA TTTCTCCAAC
AAACTGATAT TCTCCTATGG CGTCTCCGAT TCTGGCCTCC CCTTCGGCTC TGGTGCCGTT
GTTCAGATGG CCGATCCTAA TGGAGAGGCG GCGTCAGCTG AGTTCATATT GGTGTGTATG
CCCACTCATG CTAACGATTG CCTCGCCAAA TACGTTGATG AGTATTTTAT GGAAAATCCT
GAAGGCAGTT ACAAGGAGGG GATTGGTGAC ATCATTGTAT CAGAAATAAA TCAACATCAA
GCAGAGGTTG GTGTTCCAAA TCTCACTGAT GAAACTGCTT CTTCAGATTC TTTATTGAAC
AGATCTGAGT CTTTGTTGAA TGGTGATAGA AAAATAATCC CGGCTGGATT AAGGTCCAGA
AGTTCTAAAT GTAACCATTC CAGTAGGTTT TCTTGTTCAA GGATGATTAG CGCATTGGCC
CCAGTTGCTC GGATTGGCAT TTGTTCAGAC TTCATATTTG AAGAGCTTGC TTCCGACTTC
TCATCTGGGT CTGTGGAAGA TCATGTATTG TGCTCACTTA GCCTTCTGAT TGAAGGAAAA
GCAACTGGTC GAGATAGCAT AAACTTTCTT AATTTAGTTG GCATACCATC ATTCAATGAG
GATATCTTCC CTGGTTGTCT GAGGCATCCA AACATAGCCC CCATTCTTGG AATGCTAAAA
ACATCTGATT ATGTTAATTT AGTGCTTCCA AAAGCTCCTT ATACCTTAGA AAACATTCTT
CATTATAGCC CCAATGCCTT AAATTCCGAG TGGCATATGA AGTTTTTGAT TTATCAGCTA
CTCTCTGCTC TAGCTTATAT CCATGGTTTA GGGGTTACCC ATGGCAATAT ATGCCCATCT
AATGTAATGT TGACTGATTC ATGCTGGTCT TGGCTGCGCA TTTGTGATAA CCCATGGTTA
AGGTCCAATC TAAGTTCAGG AAATGAAGAA TGTGCCATTA TTTCCTCCTC AAGGTTGGGT
TGTTTCATTG CAGGCTGTCC TTCTCAAGAT CTTTATGCTG ATTTGAAGCT TTCCCCATCC
ATAGATTGGC ATTTGAATTT TGATCGGTGG TGGAGGGGAG ATCTAAGTAA TTTTGAGTAT
CTACTCATCT TAAACAGGTT AGCTGGGAGA AGGTGGGGAG ATCACACATT CCATACGGTA
ATGCCATGGG TAATAGATTT CAGCATAAAA CCTGATGAGA ATGTTGATGA AGGGTGGCGG
GATTTAAGCA AGAGCAAATG GCGGTTGGCA AAAGGTGATG AGCAATTGGA CTTCACGTAT
TCAACTTCTG AAATCCCACA TCATGTATCA GATGAGTGCC TTTCTGAACT TGCTGTATGT
AGTTATAAAG CAAGGAGGTT ACCTTTGAGT GTTCTGCGTC TGGCTGTCCG TTCAGTCTAT
GAGCCTAATG AGTATCCTTC CAATATGCAA AGACTTTATC AATGGACCCC AGATGAATGC
ATCCCAGAGT TCTACTGTGA TCCTCAAATT TTTCATTCTC TGCACTCTGG TATGGCTGAT
TTAGCAGTAC CCTCATGGGC AAGAAGTCCT GAGGAATTCA TTAAAGTGCA TCGAGATGCG
TTAGAAAGTG ACCAAGTCTC ATGCCAAATC CATCATTGGA TTGATATCAC CTTTGGATAC
AAAATGTCCG GCCAGGCAGC TTTGGCTGCC ATGAATGTTA TGCTGCCTTC AACAGAGCCC
ATGATGCCAA GGTCGGTGGG ACGCCGCCAG CTCTTCACTC AACCTCACCC TACTCGTCGA
TGTGCTACCT GGAAAACGGG TAATAGCACC AATAAATTAG CTGTTCATCA ATGCCAAGGG
AGTGAATTAG TGGGTGAGAA ACCTCTCCTT CCTCAAACTG TGTATTTACA AGACTTAGAA
GAAGCAGCTG CATTTTCTGA ACATGCTTGG CATTTGAGTC CTCTCTATTG CTATCATCCC
AAAAATCTTG CTGATGATGT CTCATCTGTA GAAGAGCCAC CAAGTGAGAG TTCTAAAAAA
GGCATATCTA AGACACCTGA ACTTGGCAAC AAGAATGGGG TCCCATCTGA GATTGATTTA
AATTATCTTC TTGATTATAT TGAAGTGGAT GATGAAGGTT CTGTGGGATA TCAAGAGTTA
TTACTTTGGA GGCAGAAGTC ATATTGTTCA AGGGCTCTTT CTGAAGATGT TGCCAAGGAC
ATATTTTCTG TTGGTTGCAT TTTAGCAGAA CTTCACTTGA GGAGGCCACT TTTTGATTCA
ACATCACTAG CCATGTACTT AGAGAATGGC ATCTTACCTG GATTAATACA GGAACTTCCT
CCTCACACTA AAGCACTTGT TGAAGCATGC ATTCTGAAGG ATTGGAGAAG GAGGCCCTCT
GCCAAAAGCC TTTTGGAATC TCCATACTTT CTCACAACAG TCAGGTCATC CTACTTGTTT
GTTGCCCCAC TTCAGCTTTT AGCAAAAGAT GGATCTCGTC TTCGATATGC TGCAAATTTT
GCAAAACAAG GAGCCTTGAA AGCAATGGGA GCATTTGGAG CTGAAATGTG TGCTCCCTAT
TGCTTGCCAC TTGTGGTGGC TCCATTATCA GATACTGAGG CCGAGTGGGC TTATATACTT
CTAAAAGAGT TCTTAAAATG TTTGAAGTCA AAAGCAGTAA AGTCATTGGT CTTGCCTGCC
ATCCAGAAGA TTCTACAGGC TACAGGTTAT TCACATTTGA AAGTTTCTCT TCTCCAAGAC
TCATTTGTGC GGGAGGTATG GAACCGGGTT GGTAAACAAA CATATCTGGA GATGGTGCAT
CCTTTGGTGA TATCAAATTT GTTTGTTGCT CCTCATAAGA GTTCAGCTTC TGCTGCTTCT
GTTCTGCTGA TTGGCTCTAG TGAAGAGCTT GGAGTACCGA TAACAGTTCA TCAGACAATC
TTGCCTCTGA TTCACTGTTT TGGGAAAGGA CTCTGCACTG ATGGAATTGA TGTGCTGGTT
AGAATAGGTG GACTTTTCGG GGAGAACTTC ATTGCCAGAC ATATTCTACC ATTGCTGAAA
AACGTTGTCC GTTATTGTAT TGATGTTTCA TCTATGAATA AGCCTGAGCC TATGCAGAGC
TGGAGTGCTT TAGCCCTTAT TGATTGTCTA ATGGCATTCG AAGGTCTTGT TACAGTCTTG
CCAAAGGAGG CAGTTGTAAA GGAGCTTACT GAAGATCAAA GTTTTGTGCA TGTTATGGTC
CTTATGCAGG CGAATTTGGA AATTCCAGTG CTCCAGGTTG CTGCTAACTA TCTTATTGCA
CTCTGTCAGC GGATTGGACC AGATTTAACA GCCTTTCATG TTCTGCCAAA ACTCAAAGAG
CTGTTTGATG AGCTTGCTTT TTCTCAGGAA ACTGCCAATG GATCTGGCTC TCTAGGAAGA
GCCTTGAAGT TTGCCAAATC AAAAGTAGAT GAGGAGGCTC ACATGGGAAG CCGTATGGAC
CTTGTGTTGC TTTTATATCC TTCTTTTGCA TCTCTTCTTG GAATAGAGAA ACTTCGCCAG
TGTTGTGCTA CATGGTTGCT TCTTGAACAA TACCTTCTAC GCTGTCATAA TTGGAAGTGG
GAACATACAG GTGAATCATC TCGAACTGGT GCAGAAAATA TAAGTGCTAA TAGGCCCATT
TTCAGCAAAG GCTCTGTGTC CGAGTACAAT CCTGCTAAAC TGTTGCTTAA TGGAGTTGGG
TGGTCAATAC CACAGTCACA AGGAATTAGA GGTGCTAAAA ACTTGATTGC TCAAAAAAGG
TTTTATAGTC TTCATCAGGA CCCAGTTCAA AGGCATGCAG CATCTTCAAG CATTGGGAAG
CGTGAACCCT GGTTCTGGTT CCCTAGTCCC GCTGCTAGCT GGGATGGTCC TGATTTTCTT
GGTCGTGTAG GGGGTCTAAA AGATGAACTT CCATGGAAGA TCAGAGCCTC TGTTATACAC
TCTGCACGTG CCCATCATGG AGCTCTGAGA TCTTTAGCTG TTTGCCAAGA TGAGTGTACA
GTTTTCACTG CTGGAGTTGG CCCAGGATTC AAGGGAACTA TTCAGAGGTG GGAATTGACT
GGAATTGACT GCGTCTCTGG CTATTATGGC CATGAGGAGG TTGTGAATGA TATTTGCATC
TTGTCATCAA GCGGAAGGGT AGCTTCTTGT GATGGAACAA TACATATTTG GAATAGCCAA
ACAGGAAAGC TAATAAAAGT ATTTTCTGAA CCATCAGCAG ACTCTCTGCA TCTTGCAAGT
CCTTTATCTT CCGCATCAAA GATTAACAAT GACCAAGCCA ATATGCTGAA TCCCAATTCA
TTGACAAGTG GGATACTGAC TAGTGCATTT GATGGAAGCT TGTACACTTG TATGCATCTC
TTGGAATCTG TTGAAAAGCT TGTAGTTGGA ACAGGAAATG GTTCTCTCAG ATTCATTGAT
GTTGTGCAAG GTCAAAAACT TCATTTGTGG AGAAGTGAAT CTATCGATTC TGGGTTCCCT
TCTTTCGTCT CTGCTGTTTG TTCATGTGGA TCTGACAGAA TGCAAGTAGA TGGAGCTTCT
GCTTTACCAT CTTGGATTGC AGCTGGATTT AGTTCTGGTA GTTGCAGGTT GCTTGATGCG
AGGAGTGGCA ATCTGATTGC CTCTTGGCGT GCTCATGATG GATATATCAC AAAGTTGGCT
GCACGGGAGG ATCATCTGCT CGTGTCCAGC TCTCTTGATA GGACTTTACG AATTTGGGAC
CTCAGAAGGG GTTGGTCAGC AGAACCTATC ATTTTCAGAG GTCATACAGA TGGTGTATCT
GGATTTTCTG TATGGGGCCA AGATATAATT TCAATTTCCA AAAACAAGAT TGGACTCTCT
TCTTTATCCA GATCTGCAGA TGAGGAAGGG CAGCATTGGG TAACACCTCA GAAACTTTAC
ATGCCAGATC GCGGAACAAG ACACTTGTCA GTGCTATCAA GTATAAGCAT TCTGCCCTTC
TCACGTTTAT TTCTTGTTGG AACTGAAGAT GGTTACCTGA GAATCTGCTG TTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_010649665.1 CDS 96..5129 Translation 
Target ORF information:
RefSeq Version XM_010651363.2 Organism Vitis vinifera(wine grape) Definition Vitis vinifera protein GFS12 (LOC100266683), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_010651363.2
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
4681
4741
4801
4861
4921
4981ATGGAGGATG AACCGTGCTT CGAGTGCCTT CAGCGTCGAT TTCAATCCGA TTTCTCCAAC
AAACTGATAT TCTCCTATGG CGTCTCCGAT TCTGGCCTCC CCTTCGGCTC TGGTGCCGTT
GTTCAGATGG CCGATCCTAA TGGAGAGGCG GCGTCAGCTG AGTTCATATT GGTGTGTATG
CCCACTCATG CTAACGATTG CCTCGCCAAA TACGTTGATG AGTATTTTAT GGAAAATCCT
GAAGGCAGTT ACAAGGAGGG GATTGGTGAC ATCATTGTAT CAGAAATAAA TCAACATCAA
GCAGAGGTTG GTGTTCCAAA TCTCACTGAT GAAACTGCTT CTTCAGATTC TTTATTGAAC
AGATCTGAGT CTTTGTTGAA TGGTGATAGA AAAATAATCC CGGCTGGATT AAGGTCCAGA
AGTTCTAAAT GTAACCATTC CAGTAGGTTT TCTTGTTCAA GGATGATTAG CGCATTGGCC
CCAGTTGCTC GGATTGGCAT TTGTTCAGAC TTCATATTTG AAGAGCTTGC TTCCGACTTC
TCATCTGGGT CTGTGGAAGA TCATGTATTG TGCTCACTTA GCCTTCTGAT TGAAGGAAAA
GCAACTGGTC GAGATAGCAT AAACTTTCTT AATTTAGTTG GCATACCATC ATTCAATGAG
GATATCTTCC CTGGTTGTCT GAGGCATCCA AACATAGCCC CCATTCTTGG AATGCTAAAA
ACATCTGATT ATGTTAATTT AGTGCTTCCA AAAGCTCCTT ATACCTTAGA AAACATTCTT
CATTATAGCC CCAATGCCTT AAATTCCGAG TGGCATATGA AGTTTTTGAT TTATCAGCTA
CTCTCTGCTC TAGCTTATAT CCATGGTTTA GGGGTTACCC ATGGCAATAT ATGCCCATCT
AATGTAATGT TGACTGATTC ATGCTGGTCT TGGCTGCGCA TTTGTGATAA CCCATGGTTA
AGGTCCAATC TAAGTTCAGG AAATGAAGAA TGTGCCATTA TTTCCTCCTC AAGGTTGGGT
TGTTTCATTG CAGGCTGTCC TTCTCAAGAT CTTTATGCTG ATTTGAAGCT TTCCCCATCC
ATAGATTGGC ATTTGAATTT TGATCGGTGG TGGAGGGGAG ATCTAAGTAA TTTTGAGTAT
CTACTCATCT TAAACAGGTT AGCTGGGAGA AGGTGGGGAG ATCACACATT CCATACGGTA
ATGCCATGGG TAATAGATTT CAGCATAAAA CCTGATGAGA ATGTTGATGA AGGGTGGCGG
GATTTAAGCA AGAGCAAATG GCGGTTGGCA AAAGGTGATG AGCAATTGGA CTTCACGTAT
TCAACTTCTG AAATCCCACA TCATGTATCA GATGAGTGCC TTTCTGAACT TGCTGTATGT
AGTTATAAAG CAAGGAGGTT ACCTTTGAGT GTTCTGCGTC TGGCTGTCCG TTCAGTCTAT
GAGCCTAATG AGTATCCTTC CAATATGCAA AGACTTTATC AATGGACCCC AGATGAATGC
ATCCCAGAGT TCTACTGTGA TCCTCAAATT TTTCATTCTC TGCACTCTGG TATGGCTGAT
TTAGCAGTAC CCTCATGGGC AAGAAGTCCT GAGGAATTCA TTAAAGTGCA TCGAGATGCG
TTAGAAAGTG ACCAAGTCTC ATGCCAAATC CATCATTGGA TTGATATCAC CTTTGGATAC
AAAATGTCCG GCCAGGCAGC TTTGGCTGCC ATGAATGTTA TGCTGCCTTC AACAGAGCCC
ATGATGCCAA GGTCGGTGGG ACGCCGCCAG CTCTTCACTC AACCTCACCC TACTCGTCGA
TGTGCTACCT GGAAAACGGG TAATAGCACC AATAAATTAG CTGTTCATCA ATGCCAAGGG
AGTGAATTAG TGGGTGAGAA ACCTCTCCTT CCTCAAACTG TGTATTTACA AGACTTAGAA
GAAGCAGCTG CATTTTCTGA ACATGCTTGG CATTTGAGTC CTCTCTATTG CTATCATCCC
AAAAATCTTG CTGATGATGT CTCATCTGTA GAAGAGCCAC CAAGTGAGAG TTCTAAAAAA
GGCATATCTA AGACACCTGA ACTTGGCAAC AAGAATGGGG TCCCATCTGA GATTGATTTA
AATTATCTTC TTGATTATAT TGAAGTGGAT GATGAAGGTT CTGTGGGATA TCAAGAGTTA
TTACTTTGGA GGCAGAAGTC ATATTGTTCA AGGGCTCTTT CTGAAGATGT TGCCAAGGAC
ATATTTTCTG TTGGTTGCAT TTTAGCAGAA CTTCACTTGA GGAGGCCACT TTTTGATTCA
ACATCACTAG CCATGTACTT AGAGAATGGC ATCTTACCTG GATTAATACA GGAACTTCCT
CCTCACACTA AAGCACTTGT TGAAGCATGC ATTCTGAAGG ATTGGAGAAG GAGGCCCTCT
GCCAAAAGCC TTTTGGAATC TCCATACTTT CTCACAACAG TCAGGTCATC CTACTTGTTT
GTTGCCCCAC TTCAGCTTTT AGCAAAAGAT GGATCTCGTC TTCGATATGC TGCAAATTTT
GCAAAACAAG GAGCCTTGAA AGCAATGGGA GCATTTGGAG CTGAAATGTG TGCTCCCTAT
TGCTTGCCAC TTGTGGTGGC TCCATTATCA GATACTGAGG CCGAGTGGGC TTATATACTT
CTAAAAGAGT TCTTAAAATG TTTGAAGTCA AAAGCAGTAA AGTCATTGGT CTTGCCTGCC
ATCCAGAAGA TTCTACAGGC TACAGGTTAT TCACATTTGA AAGTTTCTCT TCTCCAAGAC
TCATTTGTGC GGGAGGTATG GAACCGGGTT GGTAAACAAA CATATCTGGA GATGGTGCAT
CCTTTGGTGA TATCAAATTT GTTTGTTGCT CCTCATAAGA GTTCAGCTTC TGCTGCTTCT
GTTCTGCTGA TTGGCTCTAG TGAAGAGCTT GGAGTACCGA TAACAGTTCA TCAGACAATC
TTGCCTCTGA TTCACTGTTT TGGGAAAGGA CTCTGCACTG ATGGAATTGA TGTGCTGGTT
AGAATAGGTG GACTTTTCGG GGAGAACTTC ATTGCCAGAC ATATTCTACC ATTGCTGAAA
AACGTTGTCC GTTATTGTAT TGATGTTTCA TCTATGAATA AGCCTGAGCC TATGCAGAGC
TGGAGTGCTT TAGCCCTTAT TGATTGTCTA ATGGCATTCG AAGGTCTTGT TACAGTCTTG
CCAAAGGAGG CAGTTGTAAA GGAGCTTACT GAAGATCAAA GTTTTGTGCA TGTTATGGTC
CTTATGCAGG CGAATTTGGA AATTCCAGTG CTCCAGGTTG CTGCTAACTA TCTTATTGCA
CTCTGTCAGC GGATTGGACC AGATTTAACA GCCTTTCATG TTCTGCCAAA ACTCAAAGAG
CTGTTTGATG AGCTTGCTTT TTCTCAGGAA ACTGCCAATG GATCTGGCTC TCTAGGAAGA
GCCTTGAAGT TTGCCAAATC AAAAGTAGAT GAGGAGGCTC ACATGGGAAG CCGTATGGAC
CTTGTGTTGC TTTTATATCC TTCTTTTGCA TCTCTTCTTG GAATAGAGAA ACTTCGCCAG
TGTTGTGCTA CATGGTTGCT TCTTGAACAA TACCTTCTAC GCTGTCATAA TTGGAAGTGG
GAACATACAG GTGAATCATC TCGAACTGGT GCAGAAAATA TAAGTGCTAA TAGGCCCATT
TTCAGCAAAG GCTCTGTGTC CGAGTACAAT CCTGCTAAAC TGTTGCTTAA TGGAGTTGGG
TGGTCAATAC CACAGTCACA AGGAATTAGA GGTGCTAAAA ACTTGATTGC TCAAAAAAGG
TTTTATAGTC TTCATCAGGA CCCAGTTCAA AGGCATGCAG CATCTTCAAG CATTGGGAAG
CGTGAACCCT GGTTCTGGTT CCCTAGTCCC GCTGCTAGCT GGGATGGTCC TGATTTTCTT
GGTCGTGTAG GGGGTCTAAA AGATGAACTT CCATGGAAGA TCAGAGCCTC TGTTATACAC
TCTGCACGTG CCCATCATGG AGCTCTGAGA TCTTTAGCTG TTTGCCAAGA TGAGTGTACA
GTTTTCACTG CTGGAGTTGG CCCAGGATTC AAGGGAACTA TTCAGAGGTG GGAATTGACT
GGAATTGACT GCGTCTCTGG CTATTATGGC CATGAGGAGG TTGTGAATGA TATTTGCATC
TTGTCATCAA GCGGAAGGGT AGCTTCTTGT GATGGAACAA TACATATTTG GAATAGCCAA
ACAGGAAAGC TAATAAAAGT ATTTTCTGAA CCATCAGCAG ACTCTCTGCA TCTTGCAAGT
CCTTTATCTT CCGCATCAAA GATTAACAAT GACCAAGCCA ATATGCTGAA TCCCAATTCA
TTGACAAGTG GGATACTGAC TAGTGCATTT GATGGAAGCT TGTACACTTG TATGCATCTC
TTGGAATCTG TTGAAAAGCT TGTAGTTGGA ACAGGAAATG GTTCTCTCAG ATTCATTGAT
GTTGTGCAAG GTCAAAAACT TCATTTGTGG AGAAGTGAAT CTATCGATTC TGGGTTCCCT
TCTTTCGTCT CTGCTGTTTG TTCATGTGGA TCTGACAGAA TGCAAGTAGA TGGAGCTTCT
GCTTTACCAT CTTGGATTGC AGCTGGATTT AGTTCTGGTA GTTGCAGGTT GCTTGATGCG
AGGAGTGGCA ATCTGATTGC CTCTTGGCGT GCTCATGATG GATATATCAC AAAGTTGGCT
GCACGGGAGG ATCATCTGCT CGTGTCCAGC TCTCTTGATA GGACTTTACG AATTTGGGAC
CTCAGAAGGG GTTGGTCAGC AGAACCTATC ATTTTCAGAG GTCATACAGA TGGTGTATCT
GGATTTTCTG TATGGGGCCA AGATATAATT TCAATTTCCA AAAACAAGAT TGGACTCTCT
TCTTTATCCA GATCTGCAGA TGAGGAAGGG CAGCATTGGG TAACACCTCA GAAACTTTAC
ATGCCAGATC GCGGAACAAG ACACTTGTCA GTGCTATCAA GTATAAGCAT TCTGCCCTTC
TCACGTTTAT TTCTTGTTGG AACTGAAGAT GGTTACCTGA GAATCTGCTG TTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OVa45224 Clone ID Related Accession (Same CDS sequence) XM_019220114.1 Accession Version XM_019220114.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4971bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1479916800000 Organism Vitis vinifera(wine grape) Product protein GFS12 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_012011.3) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Vitis vinifera Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921ATGGAGGATG AACCGTGCTT CGAGTGCCTT CAGCGTCGAT TTCAATCCGA TTTCTCCAAC
AAACTGATAT TCTCCTATGG CGTCTCCGAT TCTGGCCTCC CCTTCGGCTC TGGTGCCGTT
GTTCAGATGG CCGATCCTAA TGGAGAGGCG GCGTCAGCTG AGTTCATATT GGTGTGTATG
CCCACTCATG CTAACGATTG CCTCGCCAAA TACGTTGATG AGTATTTTAT GGAAAATCCT
GAAGGCAGTT ACAAGGAGGG GATTGGTGAC ATCATTGTAT CAGAAATAAA TCAACATCAA
GCAGAGGTTG GTGTTCCAAA TCTCACTGAT GAAACTGCTT CTTCAGATTC TTTATTGAAC
AGATCTGAGT CTTTGTTGAA TGGTGATAGA AAAATAATCC CGGCTGGATT AAGGTCCAGA
AGTTCTAAAT GTAACCATTC CAGTAGGTTT TCTTGTTCAA GGATGATTAG CGCATTGGCC
CCAGTTGCTC GGATTGGCAT TTGTTCAGAC TTCATATTTG AAGAGCTTGC TTCCGACTTC
TCATCTGGGT CTGTGGAAGA TCATGTATTG TGCTCACTTA GCCTTCTGAT TGAAGGAAAA
GCAACTGGTC GAGATAGCAT AAACTTTCTT AATTTAGTTG GCATACCATC ATTCAATGAG
GATATCTTCC CTGGTTGTCT GAGGCATCCA AACATAGCCC CCATTCTTGG AATGCTAAAA
ACATCTGATT ATGTTAATTT AGTGCTTCCA AAAGCTCCTT ATACCTTAGA AAACATTCTT
CATTATAGCC CCAATGCCTT AAATTCCGAG TGGCATATGA AGTTTTTGAT TTATCAGCTA
CTCTCTGCTC TAGCTTATAT CCATGGTTTA GGGGTTACCC ATGGCAATAT ATGCCCATCT
AATGTAATGT TGACTGATTC ATGCTGGTCT TGGCTGCGCA TTTGTGATAA CCCATGGTTA
AGGTCCAATC TAAGTTCAGG AAATGAAGAA TGTGCCATTA TTTCCTCCTC AAGGTTGGGT
TGTTTCATTG CAGGCTGTCC TTCTCAAGAT CTTTATGCTG ATTTGAAGCT TTCCCCATCC
ATAGATTGGC ATTTGAATTT TGATCGGTGG TGGAGGGGAG ATCTAAGTAA TTTTGAGTAT
CTACTCATCT TAAACAGGTT AGCTGGGAGA AGGTGGGGAG ATCACACATT CCATACGGTA
ATGCCATGGG TAATAGATTT CAGCATAAAA CCTGATGAGA ATGTTGATGA AGGGTGGCGG
GATTTAAGCA AGAGCAAATG GCGGTTGGCA AAAGGTGATG AGCAATTGGA CTTCACGTAT
TCAACTTCTG AAATCCCACA TCATGTATCA GATGAGTGCC TTTCTGAACT TGCTGTATGT
AGTTATAAAG CAAGGAGGTT ACCTTTGAGT GTTCTGCGTC TGGCTGTCCG TTCAGTCTAT
GAGCCTAATG AGTATCCTTC CAATATGCAA AGACTTTATC AATGGACCCC AGATGAATGC
ATCCCAGAGT TCTACTGTGA TCCTCAAATT TTTCATTCTC TGCACTCTGG TATGGCTGAT
TTAGCAGTAC CCTCATGGGC AAGAAGTCCT GAGGAATTCA TTAAAGTGCA TCGAGATGCG
TTAGAAAGTG ACCAAGTCTC ATGCCAAATC CATCATTGGA TTGATATCAC CTTTGGATAC
AAAATGTCCG GCCAGGCAGC TTTGGCTGCC ATGAATGTTA TGCTGCCTTC AACAGAGCCC
ATGATGCCAA GGTCGGTGGG ACGCCGCCAG CTCTTCACTC AACCTCACCC TACTCGTCGA
TGTGCTACCT GGAAAACGGG TAATAGCACC AATAAATTAG CTGTTCATCA ATGCCAAGGG
AGTGAATTAG TGGGTGAGAA ACCTCTCCTT CCTCAAACTG TGTATTTACA AGACTTAGAA
GAAGCAGCTG CATTTTCTGA ACATGCTTGG CATTTGAGTC CTCTCTATTG CTATCATCCC
AAAAATCTTG CTGATGATGT CTCATCTGTA GAAGAGCCAC CAAGTGAGAG TTCTAAAAAA
GGCATATCTA AGACACCTGA ACTTGGCAAC AAGAATGGGG TCCCATCTGA GATTGATTTA
AATTATCTTC TTGATTATAT TGAAGTGGAT GATGAAGGTT CTGTGGGATA TCAAGAGTTA
TTACTTTGGA GGCAGAAGTC ATATTGTTCA AGGGCTCTTT CTGAAGATGT TGCCAAGGAC
ATATTTTCTG TTGGTTGCAT TTTAGCAGAA CTTCACTTGA GGAGGCCACT TTTTGATTCA
ACATCACTAG CCATGTACTT AGAGAATGGC ATCTTACCTG GATTAATACA GGAACTTCCT
CCTCACACTA AAGCACTTGT TGAAGCATGC ATTCTGAAGG ATTGGAGAAG GAGGCCCTCT
GCCAAAAGCC TTTTGGAATC TCCATACTTT CTCACAACAG TCAGGTCATC CTACTTGTTT
GTTGCCCCAC TTCAGCTTTT AGCAAAAGAT GGATCTCGTC TTCGATATGC TGCAAATTTT
GCAAAACAAG GAGCCTTGAA AGCAATGGGA GCATTTGGAG CTGAAATGTG TGCTCCCTAT
TGCTTGCCAC TTGTGGTGGC TCCATTATCA GATACTGAGG CCGAGTGGGC TTATATACTT
CTAAAAGAGT TCTTAAAATG TTTGAAGTCA AAAGCAGTAA AGTCATTGGT CTTGCCTGCC
ATCCAGAAGA TTCTACAGGC TACAGGTTAT TCACATTTGA AAGTTTCTCT TCTCCAAGAC
TCATTTGTGC GGGAGGTATG GAACCGGGTT GGTAAACAAA CATATCTGGA GATGGTGCAT
CCTTTGGTGA TATCAAATTT GTTTGTTGCT CCTCATAAGA GTTCAGCTTC TGCTGCTTCT
GTTCTGCTGA TTGGCTCTAG TGAAGAGCTT GGAGTACCGA TAACAGTTCA TCAGACAATC
TTGCCTCTGA TTCACTGTTT TGGGAAAGGA CTCTGCACTG ATGGAATTGA TGTGCTGGTT
AGAATAGGTG GACTTTTCGG GGAGAACTTC ATTGCCAGAC ATATTCTACC ATTGCTGAAA
AACGTTGTCC GTTATTGTAT TGATGTTTCA TCTATGAATA AGCCTGAGCC TATGCAGAGC
TGGAGTGCTT TAGCCCTTAT TGATTGTCTA ATGGCATTCG AAGGTCTTGT TACAGTCTTG
CCAAAGGAGG CAGTTGTAAA GGAGCTTACT GAAGTTGCTG CTAACTATCT TATTGCACTC
TGTCAGCGGA TTGGACCAGA TTTAACAGCC TTTCATGTTC TGCCAAAACT CAAAGAGCTG
TTTGATGAGC TTGCTTTTTC TCAGGAAACT GCCAATGGAT CTGGCTCTCT AGGAAGAGCC
TTGAAGTTTG CCAAATCAAA AGTAGATGAG GAGGCTCACA TGGGAAGCCG TATGGACCTT
GTGTTGCTTT TATATCCTTC TTTTGCATCT CTTCTTGGAA TAGAGAAACT TCGCCAGTGT
TGTGCTACAT GGTTGCTTCT TGAACAATAC CTTCTACGCT GTCATAATTG GAAGTGGGAA
CATACAGGTG AATCATCTCG AACTGGTGCA GAAAATATAA GTGCTAATAG GCCCATTTTC
AGCAAAGGCT CTGTGTCCGA GTACAATCCT GCTAAACTGT TGCTTAATGG AGTTGGGTGG
TCAATACCAC AGTCACAAGG AATTAGAGGT GCTAAAAACT TGATTGCTCA AAAAAGGTTT
TATAGTCTTC ATCAGGACCC AGTTCAAAGG CATGCAGCAT CTTCAAGCAT TGGGAAGCGT
GAACCCTGGT TCTGGTTCCC TAGTCCCGCT GCTAGCTGGG ATGGTCCTGA TTTTCTTGGT
CGTGTAGGGG GTCTAAAAGA TGAACTTCCA TGGAAGATCA GAGCCTCTGT TATACACTCT
GCACGTGCCC ATCATGGAGC TCTGAGATCT TTAGCTGTTT GCCAAGATGA GTGTACAGTT
TTCACTGCTG GAGTTGGCCC AGGATTCAAG GGAACTATTC AGAGGTGGGA ATTGACTGGA
ATTGACTGCG TCTCTGGCTA TTATGGCCAT GAGGAGGTTG TGAATGATAT TTGCATCTTG
TCATCAAGCG GAAGGGTAGC TTCTTGTGAT GGAACAATAC ATATTTGGAA TAGCCAAACA
GGAAAGCTAA TAAAAGTATT TTCTGAACCA TCAGCAGACT CTCTGCATCT TGCAAGTCCT
TTATCTTCCG CATCAAAGAT TAACAATGAC CAAGCCAATA TGCTGAATCC CAATTCATTG
ACAAGTGGGA TACTGACTAG TGCATTTGAT GGAAGCTTGT ACACTTGTAT GCATCTCTTG
GAATCTGTTG AAAAGCTTGT AGTTGGAACA GGAAATGGTT CTCTCAGATT CATTGATGTT
GTGCAAGGTC AAAAACTTCA TTTGTGGAGA AGTGAATCTA TCGATTCTGG GTTCCCTTCT
TTCGTCTCTG CTGTTTGTTC ATGTGGATCT GACAGAATGC AAGTAGATGG AGCTTCTGCT
TTACCATCTT GGATTGCAGC TGGATTTAGT TCTGGTAGTT GCAGGTTGCT TGATGCGAGG
AGTGGCAATC TGATTGCCTC TTGGCGTGCT CATGATGGAT ATATCACAAA GTTGGCTGCA
CGGGAGGATC ATCTGCTCGT GTCCAGCTCT CTTGATAGGA CTTTACGAAT TTGGGACCTC
AGAAGGGGTT GGTCAGCAGA ACCTATCATT TTCAGAGGTC ATACAGATGG TGTATCTGGA
TTTTCTGTAT GGGGCCAAGA TATAATTTCA ATTTCCAAAA ACAAGATTGG ACTCTCTTCT
TTATCCAGAT CTGCAGATGA GGAAGGGCAG CATTGGGTAA CACCTCAGAA ACTTTACATG
CCAGATCGCG GAACAAGACA CTTGTCAGTG CTATCAAGTA TAAGCATTCT GCCCTTCTCA
CGTTTATTTC TTGTTGGAAC TGAAGATGGT TACCTGAGAA TCTGCTGTTA GThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_019075659.1 CDS 97..5067 Translation
Target ORF information:
RefSeq Version XM_019220114.1 Organism Vitis vinifera(wine grape) Definition Vitis vinifera protein GFS12 (LOC100266683), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_019220114.1
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
4741
4801
4861
4921ATGGAGGATG AACCGTGCTT CGAGTGCCTT CAGCGTCGAT TTCAATCCGA TTTCTCCAAC
AAACTGATAT TCTCCTATGG CGTCTCCGAT TCTGGCCTCC CCTTCGGCTC TGGTGCCGTT
GTTCAGATGG CCGATCCTAA TGGAGAGGCG GCGTCAGCTG AGTTCATATT GGTGTGTATG
CCCACTCATG CTAACGATTG CCTCGCCAAA TACGTTGATG AGTATTTTAT GGAAAATCCT
GAAGGCAGTT ACAAGGAGGG GATTGGTGAC ATCATTGTAT CAGAAATAAA TCAACATCAA
GCAGAGGTTG GTGTTCCAAA TCTCACTGAT GAAACTGCTT CTTCAGATTC TTTATTGAAC
AGATCTGAGT CTTTGTTGAA TGGTGATAGA AAAATAATCC CGGCTGGATT AAGGTCCAGA
AGTTCTAAAT GTAACCATTC CAGTAGGTTT TCTTGTTCAA GGATGATTAG CGCATTGGCC
CCAGTTGCTC GGATTGGCAT TTGTTCAGAC TTCATATTTG AAGAGCTTGC TTCCGACTTC
TCATCTGGGT CTGTGGAAGA TCATGTATTG TGCTCACTTA GCCTTCTGAT TGAAGGAAAA
GCAACTGGTC GAGATAGCAT AAACTTTCTT AATTTAGTTG GCATACCATC ATTCAATGAG
GATATCTTCC CTGGTTGTCT GAGGCATCCA AACATAGCCC CCATTCTTGG AATGCTAAAA
ACATCTGATT ATGTTAATTT AGTGCTTCCA AAAGCTCCTT ATACCTTAGA AAACATTCTT
CATTATAGCC CCAATGCCTT AAATTCCGAG TGGCATATGA AGTTTTTGAT TTATCAGCTA
CTCTCTGCTC TAGCTTATAT CCATGGTTTA GGGGTTACCC ATGGCAATAT ATGCCCATCT
AATGTAATGT TGACTGATTC ATGCTGGTCT TGGCTGCGCA TTTGTGATAA CCCATGGTTA
AGGTCCAATC TAAGTTCAGG AAATGAAGAA TGTGCCATTA TTTCCTCCTC AAGGTTGGGT
TGTTTCATTG CAGGCTGTCC TTCTCAAGAT CTTTATGCTG ATTTGAAGCT TTCCCCATCC
ATAGATTGGC ATTTGAATTT TGATCGGTGG TGGAGGGGAG ATCTAAGTAA TTTTGAGTAT
CTACTCATCT TAAACAGGTT AGCTGGGAGA AGGTGGGGAG ATCACACATT CCATACGGTA
ATGCCATGGG TAATAGATTT CAGCATAAAA CCTGATGAGA ATGTTGATGA AGGGTGGCGG
GATTTAAGCA AGAGCAAATG GCGGTTGGCA AAAGGTGATG AGCAATTGGA CTTCACGTAT
TCAACTTCTG AAATCCCACA TCATGTATCA GATGAGTGCC TTTCTGAACT TGCTGTATGT
AGTTATAAAG CAAGGAGGTT ACCTTTGAGT GTTCTGCGTC TGGCTGTCCG TTCAGTCTAT
GAGCCTAATG AGTATCCTTC CAATATGCAA AGACTTTATC AATGGACCCC AGATGAATGC
ATCCCAGAGT TCTACTGTGA TCCTCAAATT TTTCATTCTC TGCACTCTGG TATGGCTGAT
TTAGCAGTAC CCTCATGGGC AAGAAGTCCT GAGGAATTCA TTAAAGTGCA TCGAGATGCG
TTAGAAAGTG ACCAAGTCTC ATGCCAAATC CATCATTGGA TTGATATCAC CTTTGGATAC
AAAATGTCCG GCCAGGCAGC TTTGGCTGCC ATGAATGTTA TGCTGCCTTC AACAGAGCCC
ATGATGCCAA GGTCGGTGGG ACGCCGCCAG CTCTTCACTC AACCTCACCC TACTCGTCGA
TGTGCTACCT GGAAAACGGG TAATAGCACC AATAAATTAG CTGTTCATCA ATGCCAAGGG
AGTGAATTAG TGGGTGAGAA ACCTCTCCTT CCTCAAACTG TGTATTTACA AGACTTAGAA
GAAGCAGCTG CATTTTCTGA ACATGCTTGG CATTTGAGTC CTCTCTATTG CTATCATCCC
AAAAATCTTG CTGATGATGT CTCATCTGTA GAAGAGCCAC CAAGTGAGAG TTCTAAAAAA
GGCATATCTA AGACACCTGA ACTTGGCAAC AAGAATGGGG TCCCATCTGA GATTGATTTA
AATTATCTTC TTGATTATAT TGAAGTGGAT GATGAAGGTT CTGTGGGATA TCAAGAGTTA
TTACTTTGGA GGCAGAAGTC ATATTGTTCA AGGGCTCTTT CTGAAGATGT TGCCAAGGAC
ATATTTTCTG TTGGTTGCAT TTTAGCAGAA CTTCACTTGA GGAGGCCACT TTTTGATTCA
ACATCACTAG CCATGTACTT AGAGAATGGC ATCTTACCTG GATTAATACA GGAACTTCCT
CCTCACACTA AAGCACTTGT TGAAGCATGC ATTCTGAAGG ATTGGAGAAG GAGGCCCTCT
GCCAAAAGCC TTTTGGAATC TCCATACTTT CTCACAACAG TCAGGTCATC CTACTTGTTT
GTTGCCCCAC TTCAGCTTTT AGCAAAAGAT GGATCTCGTC TTCGATATGC TGCAAATTTT
GCAAAACAAG GAGCCTTGAA AGCAATGGGA GCATTTGGAG CTGAAATGTG TGCTCCCTAT
TGCTTGCCAC TTGTGGTGGC TCCATTATCA GATACTGAGG CCGAGTGGGC TTATATACTT
CTAAAAGAGT TCTTAAAATG TTTGAAGTCA AAAGCAGTAA AGTCATTGGT CTTGCCTGCC
ATCCAGAAGA TTCTACAGGC TACAGGTTAT TCACATTTGA AAGTTTCTCT TCTCCAAGAC
TCATTTGTGC GGGAGGTATG GAACCGGGTT GGTAAACAAA CATATCTGGA GATGGTGCAT
CCTTTGGTGA TATCAAATTT GTTTGTTGCT CCTCATAAGA GTTCAGCTTC TGCTGCTTCT
GTTCTGCTGA TTGGCTCTAG TGAAGAGCTT GGAGTACCGA TAACAGTTCA TCAGACAATC
TTGCCTCTGA TTCACTGTTT TGGGAAAGGA CTCTGCACTG ATGGAATTGA TGTGCTGGTT
AGAATAGGTG GACTTTTCGG GGAGAACTTC ATTGCCAGAC ATATTCTACC ATTGCTGAAA
AACGTTGTCC GTTATTGTAT TGATGTTTCA TCTATGAATA AGCCTGAGCC TATGCAGAGC
TGGAGTGCTT TAGCCCTTAT TGATTGTCTA ATGGCATTCG AAGGTCTTGT TACAGTCTTG
CCAAAGGAGG CAGTTGTAAA GGAGCTTACT GAAGTTGCTG CTAACTATCT TATTGCACTC
TGTCAGCGGA TTGGACCAGA TTTAACAGCC TTTCATGTTC TGCCAAAACT CAAAGAGCTG
TTTGATGAGC TTGCTTTTTC TCAGGAAACT GCCAATGGAT CTGGCTCTCT AGGAAGAGCC
TTGAAGTTTG CCAAATCAAA AGTAGATGAG GAGGCTCACA TGGGAAGCCG TATGGACCTT
GTGTTGCTTT TATATCCTTC TTTTGCATCT CTTCTTGGAA TAGAGAAACT TCGCCAGTGT
TGTGCTACAT GGTTGCTTCT TGAACAATAC CTTCTACGCT GTCATAATTG GAAGTGGGAA
CATACAGGTG AATCATCTCG AACTGGTGCA GAAAATATAA GTGCTAATAG GCCCATTTTC
AGCAAAGGCT CTGTGTCCGA GTACAATCCT GCTAAACTGT TGCTTAATGG AGTTGGGTGG
TCAATACCAC AGTCACAAGG AATTAGAGGT GCTAAAAACT TGATTGCTCA AAAAAGGTTT
TATAGTCTTC ATCAGGACCC AGTTCAAAGG CATGCAGCAT CTTCAAGCAT TGGGAAGCGT
GAACCCTGGT TCTGGTTCCC TAGTCCCGCT GCTAGCTGGG ATGGTCCTGA TTTTCTTGGT
CGTGTAGGGG GTCTAAAAGA TGAACTTCCA TGGAAGATCA GAGCCTCTGT TATACACTCT
GCACGTGCCC ATCATGGAGC TCTGAGATCT TTAGCTGTTT GCCAAGATGA GTGTACAGTT
TTCACTGCTG GAGTTGGCCC AGGATTCAAG GGAACTATTC AGAGGTGGGA ATTGACTGGA
ATTGACTGCG TCTCTGGCTA TTATGGCCAT GAGGAGGTTG TGAATGATAT TTGCATCTTG
TCATCAAGCG GAAGGGTAGC TTCTTGTGAT GGAACAATAC ATATTTGGAA TAGCCAAACA
GGAAAGCTAA TAAAAGTATT TTCTGAACCA TCAGCAGACT CTCTGCATCT TGCAAGTCCT
TTATCTTCCG CATCAAAGAT TAACAATGAC CAAGCCAATA TGCTGAATCC CAATTCATTG
ACAAGTGGGA TACTGACTAG TGCATTTGAT GGAAGCTTGT ACACTTGTAT GCATCTCTTG
GAATCTGTTG AAAAGCTTGT AGTTGGAACA GGAAATGGTT CTCTCAGATT CATTGATGTT
GTGCAAGGTC AAAAACTTCA TTTGTGGAGA AGTGAATCTA TCGATTCTGG GTTCCCTTCT
TTCGTCTCTG CTGTTTGTTC ATGTGGATCT GACAGAATGC AAGTAGATGG AGCTTCTGCT
TTACCATCTT GGATTGCAGC TGGATTTAGT TCTGGTAGTT GCAGGTTGCT TGATGCGAGG
AGTGGCAATC TGATTGCCTC TTGGCGTGCT CATGATGGAT ATATCACAAA GTTGGCTGCA
CGGGAGGATC ATCTGCTCGT GTCCAGCTCT CTTGATAGGA CTTTACGAAT TTGGGACCTC
AGAAGGGGTT GGTCAGCAGA ACCTATCATT TTCAGAGGTC ATACAGATGG TGTATCTGGA
TTTTCTGTAT GGGGCCAAGA TATAATTTCA ATTTCCAAAA ACAAGATTGG ACTCTCTTCT
TTATCCAGAT CTGCAGATGA GGAAGGGCAG CATTGGGTAA CACCTCAGAA ACTTTACATG
CCAGATCGCG GAACAAGACA CTTGTCAGTG CTATCAAGTA TAAGCATTCT GCCCTTCTCA
CGTTTATTTC TTGTTGGAAC TGAAGATGGT TACCTGAGAA TCTGCTGTTA GThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OVa45225 Clone ID Related Accession (Same CDS sequence) XM_019220115.1 Accession Version XM_019220115.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4572bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1479916800000 Organism Vitis vinifera(wine grape) Product protein GFS12 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_012011.3) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Vitis vinifera Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561ATGATTAGCG CATTGGCCCC AGTTGCTCGG ATTGGCATTT GTTCAGACTT CATATTTGAA
GAGCTTGCTT CCGACTTCTC ATCTGGGTCT GTGGAAGATC ATGTATTGTG CTCACTTAGC
CTTCTGATTG AAGGAAAAGC AACTGGTCGA GATAGCATAA ACTTTCTTAA TTTAGTTGGC
ATACCATCAT TCAATGAGGA TATCTTCCCT GGTTGTCTGA GGCATCCAAA CATAGCCCCC
ATTCTTGGAA TGCTAAAAAC ATCTGATTAT GTTAATTTAG TGCTTCCAAA AGCTCCTTAT
ACCTTAGAAA ACATTCTTCA TTATAGCCCC AATGCCTTAA ATTCCGAGTG GCATATGAAG
TTTTTGATTT ATCAGCTACT CTCTGCTCTA GCTTATATCC ATGGTTTAGG GGTTACCCAT
GGCAATATAT GCCCATCTAA TGTAATGTTG ACTGATTCAT GCTGGTCTTG GCTGCGCATT
TGTGATAACC CATGGTTAAG GTCCAATCTA AGTTCAGGAA ATGAAGAATG TGCCATTATT
TCCTCCTCAA GGTTGGGTTG TTTCATTGCA GGCTGTCCTT CTCAAGATCT TTATGCTGAT
TTGAAGCTTT CCCCATCCAT AGATTGGCAT TTGAATTTTG ATCGGTGGTG GAGGGGAGAT
CTAAGTAATT TTGAGTATCT ACTCATCTTA AACAGGTTAG CTGGGAGAAG GTGGGGAGAT
CACACATTCC ATACGGTAAT GCCATGGGTA ATAGATTTCA GCATAAAACC TGATGAGAAT
GTTGATGAAG GGTGGCGGGA TTTAAGCAAG AGCAAATGGC GGTTGGCAAA AGGTGATGAG
CAATTGGACT TCACGTATTC AACTTCTGAA ATCCCACATC ATGTATCAGA TGAGTGCCTT
TCTGAACTTG CTGTATGTAG TTATAAAGCA AGGAGGTTAC CTTTGAGTGT TCTGCGTCTG
GCTGTCCGTT CAGTCTATGA GCCTAATGAG TATCCTTCCA ATATGCAAAG ACTTTATCAA
TGGACCCCAG ATGAATGCAT CCCAGAGTTC TACTGTGATC CTCAAATTTT TCATTCTCTG
CACTCTGGTA TGGCTGATTT AGCAGTACCC TCATGGGCAA GAAGTCCTGA GGAATTCATT
AAAGTGCATC GAGATGCGTT AGAAAGTGAC CAAGTCTCAT GCCAAATCCA TCATTGGATT
GATATCACCT TTGGATACAA AATGTCCGGC CAGGCAGCTT TGGCTGCCAT GAATGTTATG
CTGCCTTCAA CAGAGCCCAT GATGCCAAGG TCGGTGGGAC GCCGCCAGCT CTTCACTCAA
CCTCACCCTA CTCGTCGATG TGCTACCTGG AAAACGGGTA ATAGCACCAA TAAATTAGCT
GTTCATCAAT GCCAAGGGAG TGAATTAGTG GGTGAGAAAC CTCTCCTTCC TCAAACTGTG
TATTTACAAG ACTTAGAAGA AGCAGCTGCA TTTTCTGAAC ATGCTTGGCA TTTGAGTCCT
CTCTATTGCT ATCATCCCAA AAATCTTGCT GATGATGTCT CATCTGTAGA AGAGCCACCA
AGTGAGAGTT CTAAAAAAGG CATATCTAAG ACACCTGAAC TTGGCAACAA GAATGGGGTC
CCATCTGAGA TTGATTTAAA TTATCTTCTT GATTATATTG AAGTGGATGA TGAAGGTTCT
GTGGGATATC AAGAGTTATT ACTTTGGAGG CAGAAGTCAT ATTGTTCAAG GGCTCTTTCT
GAAGATGTTG CCAAGGACAT ATTTTCTGTT GGTTGCATTT TAGCAGAACT TCACTTGAGG
AGGCCACTTT TTGATTCAAC ATCACTAGCC ATGTACTTAG AGAATGGCAT CTTACCTGGA
TTAATACAGG AACTTCCTCC TCACACTAAA GCACTTGTTG AAGCATGCAT TCTGAAGGAT
TGGAGAAGGA GGCCCTCTGC CAAAAGCCTT TTGGAATCTC CATACTTTCT CACAACAGTC
AGGTCATCCT ACTTGTTTGT TGCCCCACTT CAGCTTTTAG CAAAAGATGG ATCTCGTCTT
CGATATGCTG CAAATTTTGC AAAACAAGGA GCCTTGAAAG CAATGGGAGC ATTTGGAGCT
GAAATGTGTG CTCCCTATTG CTTGCCACTT GTGGTGGCTC CATTATCAGA TACTGAGGCC
GAGTGGGCTT ATATACTTCT AAAAGAGTTC TTAAAATGTT TGAAGTCAAA AGCAGTAAAG
TCATTGGTCT TGCCTGCCAT CCAGAAGATT CTACAGGCTA CAGGTTATTC ACATTTGAAA
GTTTCTCTTC TCCAAGACTC ATTTGTGCGG GAGGTATGGA ACCGGGTTGG TAAACAAACA
TATCTGGAGA TGGTGCATCC TTTGGTGATA TCAAATTTGT TTGTTGCTCC TCATAAGAGT
TCAGCTTCTG CTGCTTCTGT TCTGCTGATT GGCTCTAGTG AAGAGCTTGG AGTACCGATA
ACAGTTCATC AGACAATCTT GCCTCTGATT CACTGTTTTG GGAAAGGACT CTGCACTGAT
GGAATTGATG TGCTGGTTAG AATAGGTGGA CTTTTCGGGG AGAACTTCAT TGCCAGACAT
ATTCTACCAT TGCTGAAAAA CGTTGTCCGT TATTGTATTG ATGTTTCATC TATGAATAAG
CCTGAGCCTA TGCAGAGCTG GAGTGCTTTA GCCCTTATTG ATTGTCTAAT GGCATTCGAA
GGTCTTGTTA CAGTCTTGCC AAAGGAGGCA GTTGTAAAGG AGCTTACTGA AGATCAAAGT
TTTGTGCATG TTATGGTCCT TATGCAGGCG AATTTGGAAA TTCCAGTGCT CCAGGTTGCT
GCTAACTATC TTATTGCACT CTGTCAGCGG ATTGGACCAG ATTTAACAGC CTTTCATGTT
CTGCCAAAAC TCAAAGAGCT GTTTGATGAG CTTGCTTTTT CTCAGGAAAC TGCCAATGGA
TCTGGCTCTC TAGGAAGAGC CTTGAAGTTT GCCAAATCAA AAGTAGATGA GGAGGCTCAC
ATGGGAAGCC GTATGGACCT TGTGTTGCTT TTATATCCTT CTTTTGCATC TCTTCTTGGA
ATAGAGAAAC TTCGCCAGTG TTGTGCTACA TGGTTGCTTC TTGAACAATA CCTTCTACGC
TGTCATAATT GGAAGTGGGA ACATACAGGT GAATCATCTC GAACTGGTGC AGAAAATATA
AGTGCTAATA GGCCCATTTT CAGCAAAGGC TCTGTGTCCG AGTACAATCC TGCTAAACTG
TTGCTTAATG GAGTTGGGTG GTCAATACCA CAGTCACAAG GAATTAGAGG TGCTAAAAAC
TTGATTGCTC AAAAAAGGTT TTATAGTCTT CATCAGGACC CAGTTCAAAG GCATGCAGCA
TCTTCAAGCA TTGGGAAGCG TGAACCCTGG TTCTGGTTCC CTAGTCCCGC TGCTAGCTGG
GATGGTCCTG ATTTTCTTGG TCGTGTAGGG GGTCTAAAAG ATGAACTTCC ATGGAAGATC
AGAGCCTCTG TTATACACTC TGCACGTGCC CATCATGGAG CTCTGAGATC TTTAGCTGTT
TGCCAAGATG AGTGTACAGT TTTCACTGCT GGAGTTGGCC CAGGATTCAA GGGAACTATT
CAGAGGTGGG AATTGACTGG AATTGACTGC GTCTCTGGCT ATTATGGCCA TGAGGAGGTT
GTGAATGATA TTTGCATCTT GTCATCAAGC GGAAGGGTAG CTTCTTGTGA TGGAACAATA
CATATTTGGA ATAGCCAAAC AGGAAAGCTA ATAAAAGTAT TTTCTGAACC ATCAGCAGAC
TCTCTGCATC TTGCAAGTCC TTTATCTTCC GCATCAAAGA TTAACAATGA CCAAGCCAAT
ATGCTGAATC CCAATTCATT GACAAGTGGG ATACTGACTA GTGCATTTGA TGGAAGCTTG
TACACTTGTA TGCATCTCTT GGAATCTGTT GAAAAGCTTG TAGTTGGAAC AGGAAATGGT
TCTCTCAGAT TCATTGATGT TGTGCAAGGT CAAAAACTTC ATTTGTGGAG AAGTGAATCT
ATCGATTCTG GGTTCCCTTC TTTCGTCTCT GCTGTTTGTT CATGTGGATC TGACAGAATG
CAAGTAGATG GAGCTTCTGC TTTACCATCT TGGATTGCAG CTGGATTTAG TTCTGGTAGT
TGCAGGTTGC TTGATGCGAG GAGTGGCAAT CTGATTGCCT CTTGGCGTGC TCATGATGGA
TATATCACAA AGTTGGCTGC ACGGGAGGAT CATCTGCTCG TGTCCAGCTC TCTTGATAGG
ACTTTACGAA TTTGGGACCT CAGAAGGGGT TGGTCAGCAG AACCTATCAT TTTCAGAGGT
CATACAGATG GTGTATCTGG ATTTTCTGTA TGGGGCCAAG ATATAATTTC AATTTCCAAA
AACAAGATTG GACTCTCTTC TTTATCCAGA TCTGCAGATG AGGAAGGGCA GCATTGGGTA
ACACCTCAGA AACTTTACAT GCCAGATCGC GGAACAAGAC ACTTGTCAGT GCTATCAAGT
ATAAGCATTC TGCCCTTCTC ACGTTTATTT CTTGTTGGAA CTGAAGATGG TTACCTGAGA
ATCTGCTGTT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_019075660.1 CDS 108..4679 Translation
Target ORF information:
RefSeq Version XM_019220115.1 Organism Vitis vinifera(wine grape) Definition Vitis vinifera protein GFS12 (LOC100266683), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_019220115.1
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
4561ATGATTAGCG CATTGGCCCC AGTTGCTCGG ATTGGCATTT GTTCAGACTT CATATTTGAA
GAGCTTGCTT CCGACTTCTC ATCTGGGTCT GTGGAAGATC ATGTATTGTG CTCACTTAGC
CTTCTGATTG AAGGAAAAGC AACTGGTCGA GATAGCATAA ACTTTCTTAA TTTAGTTGGC
ATACCATCAT TCAATGAGGA TATCTTCCCT GGTTGTCTGA GGCATCCAAA CATAGCCCCC
ATTCTTGGAA TGCTAAAAAC ATCTGATTAT GTTAATTTAG TGCTTCCAAA AGCTCCTTAT
ACCTTAGAAA ACATTCTTCA TTATAGCCCC AATGCCTTAA ATTCCGAGTG GCATATGAAG
TTTTTGATTT ATCAGCTACT CTCTGCTCTA GCTTATATCC ATGGTTTAGG GGTTACCCAT
GGCAATATAT GCCCATCTAA TGTAATGTTG ACTGATTCAT GCTGGTCTTG GCTGCGCATT
TGTGATAACC CATGGTTAAG GTCCAATCTA AGTTCAGGAA ATGAAGAATG TGCCATTATT
TCCTCCTCAA GGTTGGGTTG TTTCATTGCA GGCTGTCCTT CTCAAGATCT TTATGCTGAT
TTGAAGCTTT CCCCATCCAT AGATTGGCAT TTGAATTTTG ATCGGTGGTG GAGGGGAGAT
CTAAGTAATT TTGAGTATCT ACTCATCTTA AACAGGTTAG CTGGGAGAAG GTGGGGAGAT
CACACATTCC ATACGGTAAT GCCATGGGTA ATAGATTTCA GCATAAAACC TGATGAGAAT
GTTGATGAAG GGTGGCGGGA TTTAAGCAAG AGCAAATGGC GGTTGGCAAA AGGTGATGAG
CAATTGGACT TCACGTATTC AACTTCTGAA ATCCCACATC ATGTATCAGA TGAGTGCCTT
TCTGAACTTG CTGTATGTAG TTATAAAGCA AGGAGGTTAC CTTTGAGTGT TCTGCGTCTG
GCTGTCCGTT CAGTCTATGA GCCTAATGAG TATCCTTCCA ATATGCAAAG ACTTTATCAA
TGGACCCCAG ATGAATGCAT CCCAGAGTTC TACTGTGATC CTCAAATTTT TCATTCTCTG
CACTCTGGTA TGGCTGATTT AGCAGTACCC TCATGGGCAA GAAGTCCTGA GGAATTCATT
AAAGTGCATC GAGATGCGTT AGAAAGTGAC CAAGTCTCAT GCCAAATCCA TCATTGGATT
GATATCACCT TTGGATACAA AATGTCCGGC CAGGCAGCTT TGGCTGCCAT GAATGTTATG
CTGCCTTCAA CAGAGCCCAT GATGCCAAGG TCGGTGGGAC GCCGCCAGCT CTTCACTCAA
CCTCACCCTA CTCGTCGATG TGCTACCTGG AAAACGGGTA ATAGCACCAA TAAATTAGCT
GTTCATCAAT GCCAAGGGAG TGAATTAGTG GGTGAGAAAC CTCTCCTTCC TCAAACTGTG
TATTTACAAG ACTTAGAAGA AGCAGCTGCA TTTTCTGAAC ATGCTTGGCA TTTGAGTCCT
CTCTATTGCT ATCATCCCAA AAATCTTGCT GATGATGTCT CATCTGTAGA AGAGCCACCA
AGTGAGAGTT CTAAAAAAGG CATATCTAAG ACACCTGAAC TTGGCAACAA GAATGGGGTC
CCATCTGAGA TTGATTTAAA TTATCTTCTT GATTATATTG AAGTGGATGA TGAAGGTTCT
GTGGGATATC AAGAGTTATT ACTTTGGAGG CAGAAGTCAT ATTGTTCAAG GGCTCTTTCT
GAAGATGTTG CCAAGGACAT ATTTTCTGTT GGTTGCATTT TAGCAGAACT TCACTTGAGG
AGGCCACTTT TTGATTCAAC ATCACTAGCC ATGTACTTAG AGAATGGCAT CTTACCTGGA
TTAATACAGG AACTTCCTCC TCACACTAAA GCACTTGTTG AAGCATGCAT TCTGAAGGAT
TGGAGAAGGA GGCCCTCTGC CAAAAGCCTT TTGGAATCTC CATACTTTCT CACAACAGTC
AGGTCATCCT ACTTGTTTGT TGCCCCACTT CAGCTTTTAG CAAAAGATGG ATCTCGTCTT
CGATATGCTG CAAATTTTGC AAAACAAGGA GCCTTGAAAG CAATGGGAGC ATTTGGAGCT
GAAATGTGTG CTCCCTATTG CTTGCCACTT GTGGTGGCTC CATTATCAGA TACTGAGGCC
GAGTGGGCTT ATATACTTCT AAAAGAGTTC TTAAAATGTT TGAAGTCAAA AGCAGTAAAG
TCATTGGTCT TGCCTGCCAT CCAGAAGATT CTACAGGCTA CAGGTTATTC ACATTTGAAA
GTTTCTCTTC TCCAAGACTC ATTTGTGCGG GAGGTATGGA ACCGGGTTGG TAAACAAACA
TATCTGGAGA TGGTGCATCC TTTGGTGATA TCAAATTTGT TTGTTGCTCC TCATAAGAGT
TCAGCTTCTG CTGCTTCTGT TCTGCTGATT GGCTCTAGTG AAGAGCTTGG AGTACCGATA
ACAGTTCATC AGACAATCTT GCCTCTGATT CACTGTTTTG GGAAAGGACT CTGCACTGAT
GGAATTGATG TGCTGGTTAG AATAGGTGGA CTTTTCGGGG AGAACTTCAT TGCCAGACAT
ATTCTACCAT TGCTGAAAAA CGTTGTCCGT TATTGTATTG ATGTTTCATC TATGAATAAG
CCTGAGCCTA TGCAGAGCTG GAGTGCTTTA GCCCTTATTG ATTGTCTAAT GGCATTCGAA
GGTCTTGTTA CAGTCTTGCC AAAGGAGGCA GTTGTAAAGG AGCTTACTGA AGATCAAAGT
TTTGTGCATG TTATGGTCCT TATGCAGGCG AATTTGGAAA TTCCAGTGCT CCAGGTTGCT
GCTAACTATC TTATTGCACT CTGTCAGCGG ATTGGACCAG ATTTAACAGC CTTTCATGTT
CTGCCAAAAC TCAAAGAGCT GTTTGATGAG CTTGCTTTTT CTCAGGAAAC TGCCAATGGA
TCTGGCTCTC TAGGAAGAGC CTTGAAGTTT GCCAAATCAA AAGTAGATGA GGAGGCTCAC
ATGGGAAGCC GTATGGACCT TGTGTTGCTT TTATATCCTT CTTTTGCATC TCTTCTTGGA
ATAGAGAAAC TTCGCCAGTG TTGTGCTACA TGGTTGCTTC TTGAACAATA CCTTCTACGC
TGTCATAATT GGAAGTGGGA ACATACAGGT GAATCATCTC GAACTGGTGC AGAAAATATA
AGTGCTAATA GGCCCATTTT CAGCAAAGGC TCTGTGTCCG AGTACAATCC TGCTAAACTG
TTGCTTAATG GAGTTGGGTG GTCAATACCA CAGTCACAAG GAATTAGAGG TGCTAAAAAC
TTGATTGCTC AAAAAAGGTT TTATAGTCTT CATCAGGACC CAGTTCAAAG GCATGCAGCA
TCTTCAAGCA TTGGGAAGCG TGAACCCTGG TTCTGGTTCC CTAGTCCCGC TGCTAGCTGG
GATGGTCCTG ATTTTCTTGG TCGTGTAGGG GGTCTAAAAG ATGAACTTCC ATGGAAGATC
AGAGCCTCTG TTATACACTC TGCACGTGCC CATCATGGAG CTCTGAGATC TTTAGCTGTT
TGCCAAGATG AGTGTACAGT TTTCACTGCT GGAGTTGGCC CAGGATTCAA GGGAACTATT
CAGAGGTGGG AATTGACTGG AATTGACTGC GTCTCTGGCT ATTATGGCCA TGAGGAGGTT
GTGAATGATA TTTGCATCTT GTCATCAAGC GGAAGGGTAG CTTCTTGTGA TGGAACAATA
CATATTTGGA ATAGCCAAAC AGGAAAGCTA ATAAAAGTAT TTTCTGAACC ATCAGCAGAC
TCTCTGCATC TTGCAAGTCC TTTATCTTCC GCATCAAAGA TTAACAATGA CCAAGCCAAT
ATGCTGAATC CCAATTCATT GACAAGTGGG ATACTGACTA GTGCATTTGA TGGAAGCTTG
TACACTTGTA TGCATCTCTT GGAATCTGTT GAAAAGCTTG TAGTTGGAAC AGGAAATGGT
TCTCTCAGAT TCATTGATGT TGTGCAAGGT CAAAAACTTC ATTTGTGGAG AAGTGAATCT
ATCGATTCTG GGTTCCCTTC TTTCGTCTCT GCTGTTTGTT CATGTGGATC TGACAGAATG
CAAGTAGATG GAGCTTCTGC TTTACCATCT TGGATTGCAG CTGGATTTAG TTCTGGTAGT
TGCAGGTTGC TTGATGCGAG GAGTGGCAAT CTGATTGCCT CTTGGCGTGC TCATGATGGA
TATATCACAA AGTTGGCTGC ACGGGAGGAT CATCTGCTCG TGTCCAGCTC TCTTGATAGG
ACTTTACGAA TTTGGGACCT CAGAAGGGGT TGGTCAGCAG AACCTATCAT TTTCAGAGGT
CATACAGATG GTGTATCTGG ATTTTCTGTA TGGGGCCAAG ATATAATTTC AATTTCCAAA
AACAAGATTG GACTCTCTTC TTTATCCAGA TCTGCAGATG AGGAAGGGCA GCATTGGGTA
ACACCTCAGA AACTTTACAT GCCAGATCGC GGAACAAGAC ACTTGTCAGT GCTATCAAGT
ATAAGCATTC TGCCCTTCTC ACGTTTATTT CTTGTTGGAA CTGAAGATGG TTACCTGAGA
ATCTGCTGTT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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