| Gene Symbol | LOC100266796 |
| Entrez Gene ID | 100266796 |
| Full Name | ubiquitin carboxyl-terminal hydrolase 12 |
| Gene Type | protein-coding |
| Organism | Vitis vinifera(wine grape) |
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LOC100266796 cDNA ORF clone, Vitis vinifera(wine grape)
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Gene
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Clones
gRNAs
The following LOC100266796 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100266796 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 OVa06551 Clone ID Related Accession (Same CDS sequence) XM_002277664.3 Accession Version XM_002277664.3 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3351bp)
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 ubiquitin carboxyl-terminal hydrolase 12 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_012012.3) 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_002277664.2. ##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
3301ATGACTGTGA TGACTCCTGC TTCTATTGAA CGAGAGGACG AGGAGATGCT GGTTCCCCAC
ACAGATTTGG CCGACGGCCA TCAACCTATG GAAGTTGTTG CACAAGAGGA AACTACTAGT
ACTGTGGAAA ACCAGCCAGT TGAGGATCCT CCTACATCAA GGTTCACATG GAGAATTGAG
AACTTTTCTA GGTTGAATAC AAAGAAGCAC TATTCCGAAA ATTTCATTGT GGGCGGCTAT
AAGTGGCGGG TGCTTATTTT TCCAAAGGGA AACAATGTTG AACATTTGTC TATGTACTTG
GATGTTGCGG ATTCATCAAG TTTGCCCTAT GGGTGGAGTA GATATGCACA ATTCAGCTTG
GCTGTGGTAA ATCAAATTCA TAACAAATAT ACAGTGAGAA AAGACACTCA ACACCAGTTT
AATGCACGAG AAAGTGATTG GGGTTTCACT TCTTTTATGC CTCTTAGTGA ACTATACGAT
CCAGGTAGGG GTTTTCTTGT GAGTGATACA TGTATAGTTG AAGCAGAGGT TGCTGTCCGC
AGAGTTGTGG ATTACTGGAC ATATGACTCA AAAAAGGAAA CTGGTTATGT TGGACTTAAG
AACCAAGGAG CAACTTGTTA CATGAACTCT CTCCTCCAAA CTCTCTATCA TATTCCCTAC
TTTAGAAAGG CTGTGTACCA TATGCCAACG ACTGAGAATG ATATGCCATC TGGAAGCATT
CCTTTGGCTT TGCAGAGTTT ATTCTATAAG CTTCAATACA GTGACAGCAG CGTTGCAACG
AAAGAGTTGA CAAAATCGTT TGGTTGGGAC ACATATGATT CTTTCTTGCA GCATGATGTG
CAAGAACTCA ATAGGGTCCT CTGTGAAAAG CTTGAAGACA AAATGAAGGG AACTGTTGTG
GAGGGCACTA TACAGCAGTT ATTTGAAGGG CACCATATGA ACTACATTGA ATGCATCAAT
GTGGACTACA AATCTACAAG GAAGGAGTCA TTTTATGACC TTCAGCTGGA TGTCAAAGGT
TGTCATGATG TTTATGCTTC TTTTGATAAG TACGTAGAAG TTGAGCGCCT AGAAGGGGAT
AACAAATATC ATGCTGAGCA CCATGGATTG CAGGATGCTA GGAAGGGTGT CTTATTCATT
GACTTCCCTC CTGTCCTTCA ACTTCAGCTG AAGCGATTTG AATATGATTT TATGCGGGAC
ACTATGGTAA AGATAAATGA TCGCTATGAG TTCCCTCTGC AACTTGATCT TGATCGAGAG
AATGGCAAAT ATTTATCTCC TGATGCCAAT AGGACTGTTC GCAACCTTTA CGCCCTTCAC
AGTGTTCTAG TTCACAGTGG CGGAGTGCAT GGTGGACATT ATTATGCCTT TATAAGACCC
ACCCTTTCTG ATCAGTGGTA TAAATTTGAT GATGAAAGGG TGACAAAAGA AGACGTGAAG
AGGGCTTTGG AGGAGCAATA TGGTGGTGAA GAAGAGCTGC CCCAGACAAA TCCTGGATTG
AATAACACCC CCTTTAAATT TACGAAGTAT TCAAATGCAT ACATGCTGGT GTATATACGT
GAAAGTGACA AGGACAAAAT AATTTGCAAT GTGGATGAGA AGGACATTGC TGAACATCTC
CGGGAGAGGT TGAAGAAAGA ACAAGAAGAA AAAGAGCACA AGAAAAAGGA AAAAGCCGAG
TCACATCTTT ATACCATTAT TAAGGTTGCA CGAGATGATG ACCTTGTAGA ACATATTGGA
AGGGATATAT ATTTTGATCT TGTGGATCAT GACAAAGTTA GAAGTTTTCG TATCCAGAAG
CAGATGCCTT TCAACTTTTT CAAGGAGGAG GTAGCTAAAG AGTTTGGTAT ACCAATTCAA
TTTCAGCGTT TTTGGCTGTG GGCAAAGCGC CAAAACCACA CATATCGTCC TAATCGGCCA
TTGACACATC TAGAAGAACA ACAATCTGTT GGACAGTTAA GGGAGATATC AAATAAGGTT
CAAAATGCAG AACTAAAGTT GTTCTTGGAA GTAAATCTTG GGCCGGATTT ACACCCAAAC
CCTCCACCTG AGAAGACAAA GGATGATATT TTGCTTTTCT TCAAGCTTTA TGATCCTGAG
AAGGAAGAGC TAAATTATGT TGGAAGGCTT TTTGTGAAGA GTACTGGTAA GCCTGTAGAA
ATTTTGTCAA AACTGAATGA AATGGTTGGT TATGCTCCTG ATGAAGAGAT TGAACTCTAT
GAGGAAATCA AGTTTGATCC TAGTGTCATG TGTGAACCCA TTGATAAGAA ATTCACATTC
CGAGCTAGCC AGCTTGAAGA TGGTGATATC ATTTGCTTTC AAAAAACACC TCCAATTGAA
AGTGGTGAAT CATTCCGCTA TCCAGATGTT CCTTCATTTT TAGAATACGT GCACAATCGC
CAAGTTGTTC ATTTTCGGTC CCTAGAAAAA CCCAAGGAAG ATGATTTTTG TCTTGAGATG
TCAAAGCTTT TTACTTATGA TGACGTGGTA GAAAGAGTAG CTCGTCAGCT TGGTTTGGAT
GATCCATCCA AAATCAGGCT CACATCTCAC AACTGTTACT CTCAGCAACC AAAACCCCAG
CCAATTAAGT ACCGTGGGGT GGACCATTTG TCTGACATGC TGGTTCACTA CAATCTGATT
TCGGATGTAT TGTACTATGA AGTATTGGAC ATCCCTCTTC CAGAATTACA AGGTTTAAAA
ACTTTGAAAG TTGCTTTTCA TCATGCTGAA AAGGAGGAAG TTGTTAGTCA TAGTATTAGA
CTGCCAAAAC AGAGTACAGT AGGGGATGTA ATTAATGCTC TTAAAACAAA GGTTGAGCTG
TCTCATCCTA ATGCTGAAGT TAGGTTGCTT GAAGTTTTCT ATCACAAGAT CTATAAGGTT
TTTCCTTCAA ATGAAAAAAT TGAGAACATT AATGATCAAT ACTGGACACT GCGTGCTGAA
GAGATTCCTG AAGAAGAGAA AAATCTTGGA CCACAGGATC GCTTGATTCA TGTATACCAC
TTTACAAAAG ACACAGCTCA GAACCAAATG CAAATTCAGA ATTTCGGGGA GCCTTTTTTC
TTGGTCATCC ATGAGGGTGA AACTCTGGCT GAAGTTAAGG TGCGGATACA GAAGAAGCTG
CTGGTTCCAG AGGAAGAATT TGCTAAGTGG AGGTTTGCCT TTCTTTCACT AGGTCGCCCA
GAGTACCTTC AAGACTCTGA CATTGTCTCC AGTCGTTTTC AGAGAAGAGA TGTTTATGGT
GCTTGGGAGC AGTATCTTGG ACTAGAGCAT TCTGACACTG CTCCTAAAAG GGCTTATGCA
GCTAATCAGA ACCGTCACAC ATTTGAGAAG CCGGTAAAAA TCTACAACTA GThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002277700.1 CDS 175..3525 Translation 
Target ORF information:
RefSeq Version XM_002277664.3 Organism Vitis vinifera(wine grape) Definition Vitis vinifera ubiquitin carboxyl-terminal hydrolase 12 (LOC100266796), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_002277664.3
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGACTGTGA TGACTCCTGC TTCTATTGAA CGAGAGGACG AGGAGATGCT GGTTCCCCAC
ACAGATTTGG CCGACGGCCA TCAACCTATG GAAGTTGTTG CACAAGAGGA AACTACTAGT
ACTGTGGAAA ACCAGCCAGT TGAGGATCCT CCTACATCAA GGTTCACATG GAGAATTGAG
AACTTTTCTA GGTTGAATAC AAAGAAGCAC TATTCCGAAA ATTTCATTGT GGGCGGCTAT
AAGTGGCGGG TGCTTATTTT TCCAAAGGGA AACAATGTTG AACATTTGTC TATGTACTTG
GATGTTGCGG ATTCATCAAG TTTGCCCTAT GGGTGGAGTA GATATGCACA ATTCAGCTTG
GCTGTGGTAA ATCAAATTCA TAACAAATAT ACAGTGAGAA AAGACACTCA ACACCAGTTT
AATGCACGAG AAAGTGATTG GGGTTTCACT TCTTTTATGC CTCTTAGTGA ACTATACGAT
CCAGGTAGGG GTTTTCTTGT GAGTGATACA TGTATAGTTG AAGCAGAGGT TGCTGTCCGC
AGAGTTGTGG ATTACTGGAC ATATGACTCA AAAAAGGAAA CTGGTTATGT TGGACTTAAG
AACCAAGGAG CAACTTGTTA CATGAACTCT CTCCTCCAAA CTCTCTATCA TATTCCCTAC
TTTAGAAAGG CTGTGTACCA TATGCCAACG ACTGAGAATG ATATGCCATC TGGAAGCATT
CCTTTGGCTT TGCAGAGTTT ATTCTATAAG CTTCAATACA GTGACAGCAG CGTTGCAACG
AAAGAGTTGA CAAAATCGTT TGGTTGGGAC ACATATGATT CTTTCTTGCA GCATGATGTG
CAAGAACTCA ATAGGGTCCT CTGTGAAAAG CTTGAAGACA AAATGAAGGG AACTGTTGTG
GAGGGCACTA TACAGCAGTT ATTTGAAGGG CACCATATGA ACTACATTGA ATGCATCAAT
GTGGACTACA AATCTACAAG GAAGGAGTCA TTTTATGACC TTCAGCTGGA TGTCAAAGGT
TGTCATGATG TTTATGCTTC TTTTGATAAG TACGTAGAAG TTGAGCGCCT AGAAGGGGAT
AACAAATATC ATGCTGAGCA CCATGGATTG CAGGATGCTA GGAAGGGTGT CTTATTCATT
GACTTCCCTC CTGTCCTTCA ACTTCAGCTG AAGCGATTTG AATATGATTT TATGCGGGAC
ACTATGGTAA AGATAAATGA TCGCTATGAG TTCCCTCTGC AACTTGATCT TGATCGAGAG
AATGGCAAAT ATTTATCTCC TGATGCCAAT AGGACTGTTC GCAACCTTTA CGCCCTTCAC
AGTGTTCTAG TTCACAGTGG CGGAGTGCAT GGTGGACATT ATTATGCCTT TATAAGACCC
ACCCTTTCTG ATCAGTGGTA TAAATTTGAT GATGAAAGGG TGACAAAAGA AGACGTGAAG
AGGGCTTTGG AGGAGCAATA TGGTGGTGAA GAAGAGCTGC CCCAGACAAA TCCTGGATTG
AATAACACCC CCTTTAAATT TACGAAGTAT TCAAATGCAT ACATGCTGGT GTATATACGT
GAAAGTGACA AGGACAAAAT AATTTGCAAT GTGGATGAGA AGGACATTGC TGAACATCTC
CGGGAGAGGT TGAAGAAAGA ACAAGAAGAA AAAGAGCACA AGAAAAAGGA AAAAGCCGAG
TCACATCTTT ATACCATTAT TAAGGTTGCA CGAGATGATG ACCTTGTAGA ACATATTGGA
AGGGATATAT ATTTTGATCT TGTGGATCAT GACAAAGTTA GAAGTTTTCG TATCCAGAAG
CAGATGCCTT TCAACTTTTT CAAGGAGGAG GTAGCTAAAG AGTTTGGTAT ACCAATTCAA
TTTCAGCGTT TTTGGCTGTG GGCAAAGCGC CAAAACCACA CATATCGTCC TAATCGGCCA
TTGACACATC TAGAAGAACA ACAATCTGTT GGACAGTTAA GGGAGATATC AAATAAGGTT
CAAAATGCAG AACTAAAGTT GTTCTTGGAA GTAAATCTTG GGCCGGATTT ACACCCAAAC
CCTCCACCTG AGAAGACAAA GGATGATATT TTGCTTTTCT TCAAGCTTTA TGATCCTGAG
AAGGAAGAGC TAAATTATGT TGGAAGGCTT TTTGTGAAGA GTACTGGTAA GCCTGTAGAA
ATTTTGTCAA AACTGAATGA AATGGTTGGT TATGCTCCTG ATGAAGAGAT TGAACTCTAT
GAGGAAATCA AGTTTGATCC TAGTGTCATG TGTGAACCCA TTGATAAGAA ATTCACATTC
CGAGCTAGCC AGCTTGAAGA TGGTGATATC ATTTGCTTTC AAAAAACACC TCCAATTGAA
AGTGGTGAAT CATTCCGCTA TCCAGATGTT CCTTCATTTT TAGAATACGT GCACAATCGC
CAAGTTGTTC ATTTTCGGTC CCTAGAAAAA CCCAAGGAAG ATGATTTTTG TCTTGAGATG
TCAAAGCTTT TTACTTATGA TGACGTGGTA GAAAGAGTAG CTCGTCAGCT TGGTTTGGAT
GATCCATCCA AAATCAGGCT CACATCTCAC AACTGTTACT CTCAGCAACC AAAACCCCAG
CCAATTAAGT ACCGTGGGGT GGACCATTTG TCTGACATGC TGGTTCACTA CAATCTGATT
TCGGATGTAT TGTACTATGA AGTATTGGAC ATCCCTCTTC CAGAATTACA AGGTTTAAAA
ACTTTGAAAG TTGCTTTTCA TCATGCTGAA AAGGAGGAAG TTGTTAGTCA TAGTATTAGA
CTGCCAAAAC AGAGTACAGT AGGGGATGTA ATTAATGCTC TTAAAACAAA GGTTGAGCTG
TCTCATCCTA ATGCTGAAGT TAGGTTGCTT GAAGTTTTCT ATCACAAGAT CTATAAGGTT
TTTCCTTCAA ATGAAAAAAT TGAGAACATT AATGATCAAT ACTGGACACT GCGTGCTGAA
GAGATTCCTG AAGAAGAGAA AAATCTTGGA CCACAGGATC GCTTGATTCA TGTATACCAC
TTTACAAAAG ACACAGCTCA GAACCAAATG CAAATTCAGA ATTTCGGGGA GCCTTTTTTC
TTGGTCATCC ATGAGGGTGA AACTCTGGCT GAAGTTAAGG TGCGGATACA GAAGAAGCTG
CTGGTTCCAG AGGAAGAATT TGCTAAGTGG AGGTTTGCCT TTCTTTCACT AGGTCGCCCA
GAGTACCTTC AAGACTCTGA CATTGTCTCC AGTCGTTTTC AGAGAAGAGA TGTTTATGGT
GCTTGGGAGC AGTATCTTGG ACTAGAGCAT TCTGACACTG CTCCTAAAAG GGCTTATGCA
GCTAATCAGA ACCGTCACAC ATTTGAGAAG CCGGTAAAAA TCTACAACTA GThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OVa33145 Clone ID Related Accession (Same CDS sequence) XM_010653329.2 Accession Version XM_010653329.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3306bp)
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 ubiquitin carboxyl-terminal hydrolase 12 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_012012.3) 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_010653329.1. ##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
3301ATGCTGGTTC CCCACACAGA TTTGGCCGAC GGCCATCAAC CTATGGAAGT TGTTGCACAA
GAGGAAACTA CTAGTACTGT GGAAAACCAG CCAGTTGAGG ATCCTCCTAC ATCAAGGTTC
ACATGGAGAA TTGAGAACTT TTCTAGGTTG AATACAAAGA AGCACTATTC CGAAAATTTC
ATTGTGGGCG GCTATAAGTG GCGGGTGCTT ATTTTTCCAA AGGGAAACAA TGTTGAACAT
TTGTCTATGT ACTTGGATGT TGCGGATTCA TCAAGTTTGC CCTATGGGTG GAGTAGATAT
GCACAATTCA GCTTGGCTGT GGTAAATCAA ATTCATAACA AATATACAGT GAGAAAAGAC
ACTCAACACC AGTTTAATGC ACGAGAAAGT GATTGGGGTT TCACTTCTTT TATGCCTCTT
AGTGAACTAT ACGATCCAGG TAGGGGTTTT CTTGTGAGTG ATACATGTAT AGTTGAAGCA
GAGGTTGCTG TCCGCAGAGT TGTGGATTAC TGGACATATG ACTCAAAAAA GGAAACTGGT
TATGTTGGAC TTAAGAACCA AGGAGCAACT TGTTACATGA ACTCTCTCCT CCAAACTCTC
TATCATATTC CCTACTTTAG AAAGGCTGTG TACCATATGC CAACGACTGA GAATGATATG
CCATCTGGAA GCATTCCTTT GGCTTTGCAG AGTTTATTCT ATAAGCTTCA ATACAGTGAC
AGCAGCGTTG CAACGAAAGA GTTGACAAAA TCGTTTGGTT GGGACACATA TGATTCTTTC
TTGCAGCATG ATGTGCAAGA ACTCAATAGG GTCCTCTGTG AAAAGCTTGA AGACAAAATG
AAGGGAACTG TTGTGGAGGG CACTATACAG CAGTTATTTG AAGGGCACCA TATGAACTAC
ATTGAATGCA TCAATGTGGA CTACAAATCT ACAAGGAAGG AGTCATTTTA TGACCTTCAG
CTGGATGTCA AAGGTTGTCA TGATGTTTAT GCTTCTTTTG ATAAGTACGT AGAAGTTGAG
CGCCTAGAAG GGGATAACAA ATATCATGCT GAGCACCATG GATTGCAGGA TGCTAGGAAG
GGTGTCTTAT TCATTGACTT CCCTCCTGTC CTTCAACTTC AGCTGAAGCG ATTTGAATAT
GATTTTATGC GGGACACTAT GGTAAAGATA AATGATCGCT ATGAGTTCCC TCTGCAACTT
GATCTTGATC GAGAGAATGG CAAATATTTA TCTCCTGATG CCAATAGGAC TGTTCGCAAC
CTTTACGCCC TTCACAGTGT TCTAGTTCAC AGTGGCGGAG TGCATGGTGG ACATTATTAT
GCCTTTATAA GACCCACCCT TTCTGATCAG TGGTATAAAT TTGATGATGA AAGGGTGACA
AAAGAAGACG TGAAGAGGGC TTTGGAGGAG CAATATGGTG GTGAAGAAGA GCTGCCCCAG
ACAAATCCTG GATTGAATAA CACCCCCTTT AAATTTACGA AGTATTCAAA TGCATACATG
CTGGTGTATA TACGTGAAAG TGACAAGGAC AAAATAATTT GCAATGTGGA TGAGAAGGAC
ATTGCTGAAC ATCTCCGGGA GAGGTTGAAG AAAGAACAAG AAGAAAAAGA GCACAAGAAA
AAGGAAAAAG CCGAGTCACA TCTTTATACC ATTATTAAGG TTGCACGAGA TGATGACCTT
GTAGAACATA TTGGAAGGGA TATATATTTT GATCTTGTGG ATCATGACAA AGTTAGAAGT
TTTCGTATCC AGAAGCAGAT GCCTTTCAAC TTTTTCAAGG AGGAGGTAGC TAAAGAGTTT
GGTATACCAA TTCAATTTCA GCGTTTTTGG CTGTGGGCAA AGCGCCAAAA CCACACATAT
CGTCCTAATC GGCCATTGAC ACATCTAGAA GAACAACAAT CTGTTGGACA GTTAAGGGAG
ATATCAAATA AGGTTCAAAA TGCAGAACTA AAGTTGTTCT TGGAAGTAAA TCTTGGGCCG
GATTTACACC CAAACCCTCC ACCTGAGAAG ACAAAGGATG ATATTTTGCT TTTCTTCAAG
CTTTATGATC CTGAGAAGGA AGAGCTAAAT TATGTTGGAA GGCTTTTTGT GAAGAGTACT
GGTAAGCCTG TAGAAATTTT GTCAAAACTG AATGAAATGG TTGGTTATGC TCCTGATGAA
GAGATTGAAC TCTATGAGGA AATCAAGTTT GATCCTAGTG TCATGTGTGA ACCCATTGAT
AAGAAATTCA CATTCCGAGC TAGCCAGCTT GAAGATGGTG ATATCATTTG CTTTCAAAAA
ACACCTCCAA TTGAAAGTGG TGAATCATTC CGCTATCCAG ATGTTCCTTC ATTTTTAGAA
TACGTGCACA ATCGCCAAGT TGTTCATTTT CGGTCCCTAG AAAAACCCAA GGAAGATGAT
TTTTGTCTTG AGATGTCAAA GCTTTTTACT TATGATGACG TGGTAGAAAG AGTAGCTCGT
CAGCTTGGTT TGGATGATCC ATCCAAAATC AGGCTCACAT CTCACAACTG TTACTCTCAG
CAACCAAAAC CCCAGCCAAT TAAGTACCGT GGGGTGGACC ATTTGTCTGA CATGCTGGTT
CACTACAATC TGATTTCGGA TGTATTGTAC TATGAAGTAT TGGACATCCC TCTTCCAGAA
TTACAAGGTT TAAAAACTTT GAAAGTTGCT TTTCATCATG CTGAAAAGGA GGAAGTTGTT
AGTCATAGTA TTAGACTGCC AAAACAGAGT ACAGTAGGGG ATGTAATTAA TGCTCTTAAA
ACAAAGGTTG AGCTGTCTCA TCCTAATGCT GAAGTTAGGT TGCTTGAAGT TTTCTATCAC
AAGATCTATA AGGTTTTTCC TTCAAATGAA AAAATTGAGA ACATTAATGA TCAATACTGG
ACACTGCGTG CTGAAGAGAT TCCTGAAGAA GAGAAAAATC TTGGACCACA GGATCGCTTG
ATTCATGTAT ACCACTTTAC AAAAGACACA GCTCAGAACC AAATGCAAAT TCAGAATTTC
GGGGAGCCTT TTTTCTTGGT CATCCATGAG GGTGAAACTC TGGCTGAAGT TAAGGTGCGG
ATACAGAAGA AGCTGCTGGT TCCAGAGGAA GAATTTGCTA AGTGGAGGTT TGCCTTTCTT
TCACTAGGTC GCCCAGAGTA CCTTCAAGAC TCTGACATTG TCTCCAGTCG TTTTCAGAGA
AGAGATGTTT ATGGTGCTTG GGAGCAGTAT CTTGGACTAG AGCATTCTGA CACTGCTCCT
AAAAGGGCTT ATGCAGCTAA TCAGAACCGT CACACATTTG AGAAGCCGGT AAAAATCTAC
AACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_010651631.1 CDS 62..3367 Translation
Target ORF information:
RefSeq Version XM_010653329.2 Organism Vitis vinifera(wine grape) Definition Vitis vinifera ubiquitin carboxyl-terminal hydrolase 12 (LOC100266796), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_010653329.2
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
3301ATGCTGGTTC CCCACACAGA TTTGGCCGAC GGCCATCAAC CTATGGAAGT TGTTGCACAA
GAGGAAACTA CTAGTACTGT GGAAAACCAG CCAGTTGAGG ATCCTCCTAC ATCAAGGTTC
ACATGGAGAA TTGAGAACTT TTCTAGGTTG AATACAAAGA AGCACTATTC CGAAAATTTC
ATTGTGGGCG GCTATAAGTG GCGGGTGCTT ATTTTTCCAA AGGGAAACAA TGTTGAACAT
TTGTCTATGT ACTTGGATGT TGCGGATTCA TCAAGTTTGC CCTATGGGTG GAGTAGATAT
GCACAATTCA GCTTGGCTGT GGTAAATCAA ATTCATAACA AATATACAGT GAGAAAAGAC
ACTCAACACC AGTTTAATGC ACGAGAAAGT GATTGGGGTT TCACTTCTTT TATGCCTCTT
AGTGAACTAT ACGATCCAGG TAGGGGTTTT CTTGTGAGTG ATACATGTAT AGTTGAAGCA
GAGGTTGCTG TCCGCAGAGT TGTGGATTAC TGGACATATG ACTCAAAAAA GGAAACTGGT
TATGTTGGAC TTAAGAACCA AGGAGCAACT TGTTACATGA ACTCTCTCCT CCAAACTCTC
TATCATATTC CCTACTTTAG AAAGGCTGTG TACCATATGC CAACGACTGA GAATGATATG
CCATCTGGAA GCATTCCTTT GGCTTTGCAG AGTTTATTCT ATAAGCTTCA ATACAGTGAC
AGCAGCGTTG CAACGAAAGA GTTGACAAAA TCGTTTGGTT GGGACACATA TGATTCTTTC
TTGCAGCATG ATGTGCAAGA ACTCAATAGG GTCCTCTGTG AAAAGCTTGA AGACAAAATG
AAGGGAACTG TTGTGGAGGG CACTATACAG CAGTTATTTG AAGGGCACCA TATGAACTAC
ATTGAATGCA TCAATGTGGA CTACAAATCT ACAAGGAAGG AGTCATTTTA TGACCTTCAG
CTGGATGTCA AAGGTTGTCA TGATGTTTAT GCTTCTTTTG ATAAGTACGT AGAAGTTGAG
CGCCTAGAAG GGGATAACAA ATATCATGCT GAGCACCATG GATTGCAGGA TGCTAGGAAG
GGTGTCTTAT TCATTGACTT CCCTCCTGTC CTTCAACTTC AGCTGAAGCG ATTTGAATAT
GATTTTATGC GGGACACTAT GGTAAAGATA AATGATCGCT ATGAGTTCCC TCTGCAACTT
GATCTTGATC GAGAGAATGG CAAATATTTA TCTCCTGATG CCAATAGGAC TGTTCGCAAC
CTTTACGCCC TTCACAGTGT TCTAGTTCAC AGTGGCGGAG TGCATGGTGG ACATTATTAT
GCCTTTATAA GACCCACCCT TTCTGATCAG TGGTATAAAT TTGATGATGA AAGGGTGACA
AAAGAAGACG TGAAGAGGGC TTTGGAGGAG CAATATGGTG GTGAAGAAGA GCTGCCCCAG
ACAAATCCTG GATTGAATAA CACCCCCTTT AAATTTACGA AGTATTCAAA TGCATACATG
CTGGTGTATA TACGTGAAAG TGACAAGGAC AAAATAATTT GCAATGTGGA TGAGAAGGAC
ATTGCTGAAC ATCTCCGGGA GAGGTTGAAG AAAGAACAAG AAGAAAAAGA GCACAAGAAA
AAGGAAAAAG CCGAGTCACA TCTTTATACC ATTATTAAGG TTGCACGAGA TGATGACCTT
GTAGAACATA TTGGAAGGGA TATATATTTT GATCTTGTGG ATCATGACAA AGTTAGAAGT
TTTCGTATCC AGAAGCAGAT GCCTTTCAAC TTTTTCAAGG AGGAGGTAGC TAAAGAGTTT
GGTATACCAA TTCAATTTCA GCGTTTTTGG CTGTGGGCAA AGCGCCAAAA CCACACATAT
CGTCCTAATC GGCCATTGAC ACATCTAGAA GAACAACAAT CTGTTGGACA GTTAAGGGAG
ATATCAAATA AGGTTCAAAA TGCAGAACTA AAGTTGTTCT TGGAAGTAAA TCTTGGGCCG
GATTTACACC CAAACCCTCC ACCTGAGAAG ACAAAGGATG ATATTTTGCT TTTCTTCAAG
CTTTATGATC CTGAGAAGGA AGAGCTAAAT TATGTTGGAA GGCTTTTTGT GAAGAGTACT
GGTAAGCCTG TAGAAATTTT GTCAAAACTG AATGAAATGG TTGGTTATGC TCCTGATGAA
GAGATTGAAC TCTATGAGGA AATCAAGTTT GATCCTAGTG TCATGTGTGA ACCCATTGAT
AAGAAATTCA CATTCCGAGC TAGCCAGCTT GAAGATGGTG ATATCATTTG CTTTCAAAAA
ACACCTCCAA TTGAAAGTGG TGAATCATTC CGCTATCCAG ATGTTCCTTC ATTTTTAGAA
TACGTGCACA ATCGCCAAGT TGTTCATTTT CGGTCCCTAG AAAAACCCAA GGAAGATGAT
TTTTGTCTTG AGATGTCAAA GCTTTTTACT TATGATGACG TGGTAGAAAG AGTAGCTCGT
CAGCTTGGTT TGGATGATCC ATCCAAAATC AGGCTCACAT CTCACAACTG TTACTCTCAG
CAACCAAAAC CCCAGCCAAT TAAGTACCGT GGGGTGGACC ATTTGTCTGA CATGCTGGTT
CACTACAATC TGATTTCGGA TGTATTGTAC TATGAAGTAT TGGACATCCC TCTTCCAGAA
TTACAAGGTT TAAAAACTTT GAAAGTTGCT TTTCATCATG CTGAAAAGGA GGAAGTTGTT
AGTCATAGTA TTAGACTGCC AAAACAGAGT ACAGTAGGGG ATGTAATTAA TGCTCTTAAA
ACAAAGGTTG AGCTGTCTCA TCCTAATGCT GAAGTTAGGT TGCTTGAAGT TTTCTATCAC
AAGATCTATA AGGTTTTTCC TTCAAATGAA AAAATTGAGA ACATTAATGA TCAATACTGG
ACACTGCGTG CTGAAGAGAT TCCTGAAGAA GAGAAAAATC TTGGACCACA GGATCGCTTG
ATTCATGTAT ACCACTTTAC AAAAGACACA GCTCAGAACC AAATGCAAAT TCAGAATTTC
GGGGAGCCTT TTTTCTTGGT CATCCATGAG GGTGAAACTC TGGCTGAAGT TAAGGTGCGG
ATACAGAAGA AGCTGCTGGT TCCAGAGGAA GAATTTGCTA AGTGGAGGTT TGCCTTTCTT
TCACTAGGTC GCCCAGAGTA CCTTCAAGAC TCTGACATTG TCTCCAGTCG TTTTCAGAGA
AGAGATGTTT ATGGTGCTTG GGAGCAGTAT CTTGGACTAG AGCATTCTGA CACTGCTCCT
AAAAGGGCTT ATGCAGCTAA TCAGAACCGT CACACATTTG AGAAGCCGGT AAAAATCTAC
AACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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