LOC100243375 cDNA ORF clone, Vitis vinifera(wine grape)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC100243375
Entrez Gene ID	100243375
Full Name	uncharacterized LOC100243375
Gene Type	protein-coding
Organism	Vitis vinifera(wine grape)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019220692.1	XP_019076237.1	uncharacterized protein LOC100243375 isoform X1
XM_010652587.2	XP_010650889.1	uncharacterized protein LOC100243375 isoform X2

Pathways from BioSystems
Gene Ontology

The following LOC100243375 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100243375 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
OVa24053	XM_010652587.2 Latest version!	Vitis vinifera uncharacterized LOC100243375 (LOC100243375), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OVa45596	XM_019220692.1 Latest version!	Vitis vinifera uncharacterized LOC100243375 (LOC100243375), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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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)

LOC100243375 ( XM_010652587.2 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_010650889.1 Vitis vinifera uncharacterized LOC100243375 (LOC100243375), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OVa24053
Clone ID Related Accession (Same CDS sequence)	XM_010652587.2
Accession Version	XM_010652587.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4008bp) 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	1479916800000
Organism	Vitis vinifera(wine grape)
Product	uncharacterized protein LOC100243375 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. Also see: Documentation of NCBI's Annotation Process On Nov 25, 2016 this sequence version replaced XM_010652587.1. ##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##

ATGGCGGTTA AAGTTGAAAA ATCGGATTGG GAGAGGAAGA AGAAGCGGAA GAGTTTACAC 
AACGAACGAA AGCTTTTTAA TGATGAGAAA GGCAAGGTAA TGCGGGGTGG TATTGGGTCT 
TCAACGGTGG TGAACCTTGA AGAACCGGAT TGTGGGAGGG AGAGGACGGG CAACAAGAGA 
AAGCTTCTTG TTGGCGAAGA AGTTGAGGTA AGGAGTGTGG AAGAAGGGCT TCTGGGCTCG 
TGGCATTCAG GAACTATCAT TGGTTGTGAT TATTTAGTTC GGAACGTGAA ATATAGTGAG 
ATATTGGATG ATCGGATGGG AGAAAGATTC TTAGAGTCTG TGAGTGTTTC TGGTGCTATT 
GAGGGAACAA GTGTTGTTGA TACCGACCAG TGTAATCATC GTGGTAGGAT AAGGCCATTG 
CCACCACAAT GTGACTTTGG GAAATGGAAC CTTCATTATG GACTATGTGT GGATGTGTTT 
TTTAGGGAGG CTTGGTGGGA AGGTGTGATT TTTGACCATG AAGATGGTTT GGAGAACAGG 
AAAGTTTTTT TCCCAGATTT GGGTGATGAA TTGACAGTTG GAGTTGATAA CATTAGGATT 
ACTCAGGACT GGAACGAGGG TACAGCAACT TGGGAGCGAC GACGGAATTG GTTGTTTCTT 
GAGTTGATTG AGGAATATGA ACAGGATTGG CCCCTTAATG TCTCACTGAA GCAGATTTGG 
TATGATGTGA GGGAAAAAAA GGGGTTTGAG AAAGTTAAGG AGTGGACTTG TCCATCAAAT 
GCTCTATGGA GAGAGTTGGT TCGGGAGGCC ATTGCTGACA ATTTCAGGAT AACTCTAAAT 
AAAATCTGTT CTATGTTGAA GCCTGAAGTG TTGGCTAACT GTCATGCGGT GGAACCAATA 
CGGGGTATTA GCCCATTGGA TGGTAGTATG ATGATGACTA ACAATGATGC TAATGCAACA 
AATTCAGGGG ATTATAGTAT TGGACTCGTT GATAAATTGG TTGAAAATGG TGGCTTGGCT 
ACTAGGTTCC AGTATACTGA TCCAAAATGT AGTAGCAATC AACATGTCCA GGAGAAGCAT 
GAGGTGGATG GTGTGATTCC TTTTGTGGAG AATAGTGGGT TGGATATGCC CTATCGTGAT 
AAAGAGATGT CTGTTCAACC TCAGCCTTTG TTGGTTATAC CTTCTAAACC AAATAAATTG 
GAGAATTTCA CTTTTGATTG CAAAAGTGAA GGATATTCTA ATAACCCTTC AGCTAATAGG 
AAGAATGATT GGAGACGTGT TGATACTGAC ATACTTCACG GAGCCGAGTC CTGCTTTGAT 
GCAATTATTG AATACGCACT TATTTCTTCT GGGAAGAGGA AACCTCCAAA TTCATTAACA 
GAAAATGTCA GGAAGCACCT TTCATATCTG GGCTGGAAAA TTGAGTTTAT GAACAAAGAT 
TTTCCTAGAT TTCGTTACAC CTCCCCTGAA GGGAAGACTT ACCTATCTCT TCGACAGGTC 
TGTCAAGATT TGCGGCGACC TGATGCGGGA ATTGATTCTC CAATTTCCCA AGATGACCAG 
AGAAGTTTGC TTAGTCCATA TGATGACCTG GCATTTCCAC TCGTTAAATT GCAAGTGAAT 
GATCTGTCAA GTCAGCTTAT TGAAAAATCA CAAGTGAGTA AGGGAAAATG GACAGTGCCT 
AGTCATGATG ACAGAGTTGA TATTGATCAT GAATATTGCC CTCAAGCTGT AGTCAACTAC 
TATTTTCTTG GGTTAGACAA GAAAGAACAC CATAGCAGGA AGGATGACAT TCGGAGTTTG 
AATTTAAAAT CTAAAGCAAA GAAGCACCTC TCATTCATGG GTTGGACATT TTGGTATGCA 
TATAGGAGAG GGAAGCGTGA AATGCGCTAC TTCTCACCAA AAGGAAAGTG TTATTATTCT 
CTTCGTACAG CCTGCAAGGG CTGTATGGAT GAAGGTGGAG CTTCTGAAGG TACTTCTACC 
ACTTGGAACC CTGTGAAAAC CATGAATGTT AGTGAGGTAG CTTTGGGCCA AGAATTATCT 
TCTGCCTTGA TTGATATGAG AATGCAGAAC AGTTTGATAG AACAAAATGT ACCATCTGCA 
AAGTGGCCAA TAAAGTCTTC CAGCATATCA CAGTTGAAAA GCAAAGAGAT TAGTGCAGTT 
ACAAAGAAGA GACATGATGG ACTACATGGT GTTACCTCTA ATTCGCTTCA ATCTTGGACA 
CAATCCACTG GAAAAGATGG ATTTGGAATT GGATTAGTAG GTGACAGAGA GTTGAGGCAC 
CCAAAGGACA AAAATGTCTG CTTCTCAAAG TTGAAGAATG GAAAGGGATC TAAAGCTTTG 
ATGAGACTAA ATGGTCTAGA TGGTACCCGT GTTCTGCGAT CTAGAAAAAG AGCACGTCAG 
GTACTGATTC CTGGTTCATC AAACAACCCA AGGACTATAC TTTCTTGGTT GATAGACAAC 
AATGTGGTGC TGCCAAGGGC AAAAGTACAC TACAGTAGTC GAAGGGATCA TCATCCAATG 
GCAGACGGGC GGATAACTCG TGATGGGATC AAATGCAGTT GTTGCCAAGA AGTGTTTAGT 
CTTAGCAGGT TTGAAGCTCA TGCTGGCAGC TCTTATCACA GGTCAGCTGC CAATATTTTC 
TTGGAAGATG GAAGGTCTCT GTTAGAATGC CAAATGCAAA TAATACGTGA TATTACTGGG 
AAAGGCTTCA CAAAAGAATC GTTTAGTAGG AAGAAGAGCA ATGAACGTCA CCATGAGAAT 
GACCACATTT GTTCTGTTTG TCACTATGGT GGTGATTTAG TCCTATGTGA CCATTGTCCA 
TCCTCATTCC ATAAGAGTTG CCTTGGTTTG AAGACACTTC CTGAGGGTGA CTGGTTTTGC 
CCATCCTGTT GTTGTGGAAT TTGTGGTGAA AACAAATTTG ATGGAGGCAG TGAACAGGAT 
AATGTTGTTT TCAGTTGTTA TCAATGCGAA CGTCAATATC ATGTAGGTTG CCTAAGGAAA 
TGGGGGCATG TTAAGTTGGC AAGTTATCCT AATGGAACTT GGTTTTGCAG TAAACAGTGT 
AAAAAGATAT TTTTGGGCCT TCAGAAGCTT TTAGGGAAAT CATTTCCAGT AGGTGTGGAT 
AATTTAACCT GGACCTTGCT GAAACCCATT CGAAGTAAAG GTCTTGAGAT TGATTTACCT 
GATATTGAGG CCTTGACAGA AGTTTACAGC AAGCTCAATA TTGCTCTTGG TGTCATGCAT 
GAATGTTTTG AGCCCGTTAA AGAACCTCAT ACAAGGAGAG ATGTTGTTGA AGATGTTATT 
TTCTGTAGAG GGTCAGATCT CAACCGTTTG AACTTCCAAG GATTCTATAC AGTGCTCTTG 
GAGAGAAATG ATGAGCTGAT TAGTGTGGCT ACTGTAAGGG TATATGGAGA AAAGGTGGCA 
GAAGTGCCAC TTATTGGTAC TCGATTTCAA TATCGTCGAC TAGGAATGTG TCACATTTTG 
ATGAATGAAC TTGAAAAGAA ACTCATGGAA TTAGGAGTGG AGAGGTTGGT GTTGCCAGCT 
GTTCCTAGTG TGCTAAACAC ATGGACTACT TCATTTGGTT TTTCAAAGAT GACGGATTCT 
GAAAGACTAA GGTTTTTGGA TTACAGTTTC CTGGATTTCC AGGACACGGT AATGTGCCAG 
AAACTCTTGA TGAAGATCCC TTTAGCAAAA TCAAACCAAT CGACTGGAGC TTGGTCAAAG 
CATATTATTG ATTTCAATAA GCGTGGTGCC ATCTCTGAAG CTCTTAAATC AGAACAAGTT 
GAAGCTGAAA TTGTTGCCCC AGGACCATCG GATACTTCAA GCAAAGGCGG TGATGGTAGC 
AATAGCCTGC CTGCAACCCA ACAGACTGAT CCTGAACATA AACTGGGCCT CAATGAAAAT 
AATTTAGAGT GCTTGCTCAA AGATGACAAT CATAAGGGCA GAGACATTGG CAATGGATAT 
TTCAAGTGCT ACAAGCGAAG GAGAATACTA TCAGCCAGTG GGAGCTGA

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

RefSeq	XP_010650889.1
CDS	261..4268
Translation	MAVKVEKSDWERKKKRKSLHNERKLFNDEKGKVMRGGIGSSTVVNLEEPDCGRERTGNKRKLLVGEEVEVRSVEEGLLGSWHSGTIIGCDYLVRNVKYSEILDDRMGERFLESVSVSGAIEGTSVVDTDQCNHRGRIRPLPPQCDFGKWNLHYGLCVDVFFREAWWEGVIFDHEDGLENRKVFFPDLGDELTVGVDNIRITQDWNEGTATWERRRNWLFLELIEEYEQDWPLNVSLKQIWYDVREKKGFEKVKEWTCPSNALWRELVREAIADNFRITLNKICSMLKPEVLANCHAVEPIRGISPLDGSMMMTNNDANATNSGDYSIGLVDKLVENGGLATRFQYTDPKCSSNQHVQEKHEVDGVIPFVENSGLDMPYRDKEMSVQPQPLLVIPSKPNKLENFTFDCKSEGYSNNPSANRKNDWRRVDTDILHGAESCFDAIIEYALISSGKRKPPNSLTENVRKHLSYLGWKIEFMNKDFPRFRYTSPEGKTYLSLRQVCQDLRRPDAGIDSPISQDDQRSLLSPYDDLAFPLVKLQVNDLSSQLIEKSQVSKGKWTVPSHDDRVDIDHEYCPQAVVNYYFLGLDKKEHHSRKDDIRSLNLKSKAKKHLSFMGWTFWYAYRRGKREMRYFSPKGKCYYSLRTACKGCMDEGGASEGTSTTWNPVKTMNVSEVALGQELSSALIDMRMQNSLIEQNVPSAKWPIKSSSISQLKSKEISAVTKKRHDGLHGVTSNSLQSWTQSTGKDGFGIGLVGDRELRHPKDKNVCFSKLKNGKGSKALMRLNGLDGTRVLRSRKRARQVLIPGSSNNPRTILSWLIDNNVVLPRAKVHYSSRRDHHPMADGRITRDGIKCSCCQEVFSLSRFEAHAGSSYHRSAANIFLEDGRSLLECQMQIIRDITGKGFTKESFSRKKSNERHHENDHICSVCHYGGDLVLCDHCPSSFHKSCLGLKTLPEGDWFCPSCCCGICGENKFDGGSEQDNVVFSCYQCERQYHVGCLRKWGHVKLASYPNGTWFCSKQCKKIFLGLQKLLGKSFPVGVDNLTWTLLKPIRSKGLEIDLPDIEALTEVYSKLNIALGVMHECFEPVKEPHTRRDVVEDVIFCRGSDLNRLNFQGFYTVLLERNDELISVATVRVYGEKVAEVPLIGTRFQYRRLGMCHILMNELEKKLMELGVERLVLPAVPSVLNTWTTSFGFSKMTDSERLRFLDYSFLDFQDTVMCQKLLMKIPLAKSNQSTGAWSKHIIDFNKRGAISEALKSEQVEAEIVAPGPSDTSSKGGDGSNSLPATQQTDPEHKLGLNENNLECLLKDDNHKGRDIGNGYFKCYKRRRILSASGS

Target ORF information:

RefSeq Version	XM_010652587.2
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera uncharacterized LOC100243375 (LOC100243375), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_010652587.2

ORF Insert Sequence:

ATGGCGGTTA AAGTTGAAAA ATCGGATTGG GAGAGGAAGA AGAAGCGGAA GAGTTTACAC 
AACGAACGAA AGCTTTTTAA TGATGAGAAA GGCAAGGTAA TGCGGGGTGG TATTGGGTCT 
TCAACGGTGG TGAACCTTGA AGAACCGGAT TGTGGGAGGG AGAGGACGGG CAACAAGAGA 
AAGCTTCTTG TTGGCGAAGA AGTTGAGGTA AGGAGTGTGG AAGAAGGGCT TCTGGGCTCG 
TGGCATTCAG GAACTATCAT TGGTTGTGAT TATTTAGTTC GGAACGTGAA ATATAGTGAG 
ATATTGGATG ATCGGATGGG AGAAAGATTC TTAGAGTCTG TGAGTGTTTC TGGTGCTATT 
GAGGGAACAA GTGTTGTTGA TACCGACCAG TGTAATCATC GTGGTAGGAT AAGGCCATTG 
CCACCACAAT GTGACTTTGG GAAATGGAAC CTTCATTATG GACTATGTGT GGATGTGTTT 
TTTAGGGAGG CTTGGTGGGA AGGTGTGATT TTTGACCATG AAGATGGTTT GGAGAACAGG 
AAAGTTTTTT TCCCAGATTT GGGTGATGAA TTGACAGTTG GAGTTGATAA CATTAGGATT 
ACTCAGGACT GGAACGAGGG TACAGCAACT TGGGAGCGAC GACGGAATTG GTTGTTTCTT 
GAGTTGATTG AGGAATATGA ACAGGATTGG CCCCTTAATG TCTCACTGAA GCAGATTTGG 
TATGATGTGA GGGAAAAAAA GGGGTTTGAG AAAGTTAAGG AGTGGACTTG TCCATCAAAT 
GCTCTATGGA GAGAGTTGGT TCGGGAGGCC ATTGCTGACA ATTTCAGGAT AACTCTAAAT 
AAAATCTGTT CTATGTTGAA GCCTGAAGTG TTGGCTAACT GTCATGCGGT GGAACCAATA 
CGGGGTATTA GCCCATTGGA TGGTAGTATG ATGATGACTA ACAATGATGC TAATGCAACA 
AATTCAGGGG ATTATAGTAT TGGACTCGTT GATAAATTGG TTGAAAATGG TGGCTTGGCT 
ACTAGGTTCC AGTATACTGA TCCAAAATGT AGTAGCAATC AACATGTCCA GGAGAAGCAT 
GAGGTGGATG GTGTGATTCC TTTTGTGGAG AATAGTGGGT TGGATATGCC CTATCGTGAT 
AAAGAGATGT CTGTTCAACC TCAGCCTTTG TTGGTTATAC CTTCTAAACC AAATAAATTG 
GAGAATTTCA CTTTTGATTG CAAAAGTGAA GGATATTCTA ATAACCCTTC AGCTAATAGG 
AAGAATGATT GGAGACGTGT TGATACTGAC ATACTTCACG GAGCCGAGTC CTGCTTTGAT 
GCAATTATTG AATACGCACT TATTTCTTCT GGGAAGAGGA AACCTCCAAA TTCATTAACA 
GAAAATGTCA GGAAGCACCT TTCATATCTG GGCTGGAAAA TTGAGTTTAT GAACAAAGAT 
TTTCCTAGAT TTCGTTACAC CTCCCCTGAA GGGAAGACTT ACCTATCTCT TCGACAGGTC 
TGTCAAGATT TGCGGCGACC TGATGCGGGA ATTGATTCTC CAATTTCCCA AGATGACCAG 
AGAAGTTTGC TTAGTCCATA TGATGACCTG GCATTTCCAC TCGTTAAATT GCAAGTGAAT 
GATCTGTCAA GTCAGCTTAT TGAAAAATCA CAAGTGAGTA AGGGAAAATG GACAGTGCCT 
AGTCATGATG ACAGAGTTGA TATTGATCAT GAATATTGCC CTCAAGCTGT AGTCAACTAC 
TATTTTCTTG GGTTAGACAA GAAAGAACAC CATAGCAGGA AGGATGACAT TCGGAGTTTG 
AATTTAAAAT CTAAAGCAAA GAAGCACCTC TCATTCATGG GTTGGACATT TTGGTATGCA 
TATAGGAGAG GGAAGCGTGA AATGCGCTAC TTCTCACCAA AAGGAAAGTG TTATTATTCT 
CTTCGTACAG CCTGCAAGGG CTGTATGGAT GAAGGTGGAG CTTCTGAAGG TACTTCTACC 
ACTTGGAACC CTGTGAAAAC CATGAATGTT AGTGAGGTAG CTTTGGGCCA AGAATTATCT 
TCTGCCTTGA TTGATATGAG AATGCAGAAC AGTTTGATAG AACAAAATGT ACCATCTGCA 
AAGTGGCCAA TAAAGTCTTC CAGCATATCA CAGTTGAAAA GCAAAGAGAT TAGTGCAGTT 
ACAAAGAAGA GACATGATGG ACTACATGGT GTTACCTCTA ATTCGCTTCA ATCTTGGACA 
CAATCCACTG GAAAAGATGG ATTTGGAATT GGATTAGTAG GTGACAGAGA GTTGAGGCAC 
CCAAAGGACA AAAATGTCTG CTTCTCAAAG TTGAAGAATG GAAAGGGATC TAAAGCTTTG 
ATGAGACTAA ATGGTCTAGA TGGTACCCGT GTTCTGCGAT CTAGAAAAAG AGCACGTCAG 
GTACTGATTC CTGGTTCATC AAACAACCCA AGGACTATAC TTTCTTGGTT GATAGACAAC 
AATGTGGTGC TGCCAAGGGC AAAAGTACAC TACAGTAGTC GAAGGGATCA TCATCCAATG 
GCAGACGGGC GGATAACTCG TGATGGGATC AAATGCAGTT GTTGCCAAGA AGTGTTTAGT 
CTTAGCAGGT TTGAAGCTCA TGCTGGCAGC TCTTATCACA GGTCAGCTGC CAATATTTTC 
TTGGAAGATG GAAGGTCTCT GTTAGAATGC CAAATGCAAA TAATACGTGA TATTACTGGG 
AAAGGCTTCA CAAAAGAATC GTTTAGTAGG AAGAAGAGCA ATGAACGTCA CCATGAGAAT 
GACCACATTT GTTCTGTTTG TCACTATGGT GGTGATTTAG TCCTATGTGA CCATTGTCCA 
TCCTCATTCC ATAAGAGTTG CCTTGGTTTG AAGACACTTC CTGAGGGTGA CTGGTTTTGC 
CCATCCTGTT GTTGTGGAAT TTGTGGTGAA AACAAATTTG ATGGAGGCAG TGAACAGGAT 
AATGTTGTTT TCAGTTGTTA TCAATGCGAA CGTCAATATC ATGTAGGTTG CCTAAGGAAA 
TGGGGGCATG TTAAGTTGGC AAGTTATCCT AATGGAACTT GGTTTTGCAG TAAACAGTGT 
AAAAAGATAT TTTTGGGCCT TCAGAAGCTT TTAGGGAAAT CATTTCCAGT AGGTGTGGAT 
AATTTAACCT GGACCTTGCT GAAACCCATT CGAAGTAAAG GTCTTGAGAT TGATTTACCT 
GATATTGAGG CCTTGACAGA AGTTTACAGC AAGCTCAATA TTGCTCTTGG TGTCATGCAT 
GAATGTTTTG AGCCCGTTAA AGAACCTCAT ACAAGGAGAG ATGTTGTTGA AGATGTTATT 
TTCTGTAGAG GGTCAGATCT CAACCGTTTG AACTTCCAAG GATTCTATAC AGTGCTCTTG 
GAGAGAAATG ATGAGCTGAT TAGTGTGGCT ACTGTAAGGG TATATGGAGA AAAGGTGGCA 
GAAGTGCCAC TTATTGGTAC TCGATTTCAA TATCGTCGAC TAGGAATGTG TCACATTTTG 
ATGAATGAAC TTGAAAAGAA ACTCATGGAA TTAGGAGTGG AGAGGTTGGT GTTGCCAGCT 
GTTCCTAGTG TGCTAAACAC ATGGACTACT TCATTTGGTT TTTCAAAGAT GACGGATTCT 
GAAAGACTAA GGTTTTTGGA TTACAGTTTC CTGGATTTCC AGGACACGGT AATGTGCCAG 
AAACTCTTGA TGAAGATCCC TTTAGCAAAA TCAAACCAAT CGACTGGAGC TTGGTCAAAG 
CATATTATTG ATTTCAATAA GCGTGGTGCC ATCTCTGAAG CTCTTAAATC AGAACAAGTT 
GAAGCTGAAA TTGTTGCCCC AGGACCATCG GATACTTCAA GCAAAGGCGG TGATGGTAGC 
AATAGCCTGC CTGCAACCCA ACAGACTGAT CCTGAACATA AACTGGGCCT CAATGAAAAT 
AATTTAGAGT GCTTGCTCAA AGATGACAAT CATAAGGGCA GAGACATTGG CAATGGATAT 
TTCAAGTGCT ACAAGCGAAG GAGAATACTA TCAGCCAGTG GGAGCTGA

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

LOC100243375 ( XM_019220692.1 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_019076237.1 Vitis vinifera uncharacterized LOC100243375 (LOC100243375), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OVa45596
Clone ID Related Accession (Same CDS sequence)	XM_019220692.1
Accession Version	XM_019220692.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4011bp) 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	1479916800000
Organism	Vitis vinifera(wine grape)
Product	uncharacterized protein LOC100243375 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. 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##

ATGGCGGTTA AAGTTGAAAA ATCGGATTGG GAGAGGAAGA AGAAGCGGAA GAGTTTACAC 
AACGAACGAA AGCTTTTTAA TGATGAGAAA GGCAAGGTAA TGCGGGGTGG TATTGGGTCT 
TCAACGGTGG TGAACCTTGA AGAACCGGAT TGTGGGAGGG AGAGGACGGG CAACAAGAGA 
AAGCTTCTTG TTGGCGAAGA AGTTGAGGTA AGGAGTGTGG AAGAAGGGCT TCTGGGCTCG 
TGGCATTCAG GAACTATCAT TGGTTGTGAT TATTTAGTTC GGAACGTGAA ATATAGTGAG 
ATATTGGATG ATCGGATGGG AGAAAGATTC TTAGAGTCTG TGAGTGTTTC TGGTGCTATT 
GAGGGAACAA GTGTTGTTGA TACCGACCAG TGTAATCATC GTGGTAGGAT AAGGCCATTG 
CCACCACAAT GTGACTTTGG GAAATGGAAC CTTCATTATG GACTATGTGT GGATGTGTTT 
TTTAGGGAGG CTTGGTGGGA AGGTGTGATT TTTGACCATG AAGATGGTTT GGAGAACAGG 
AAAGTTTTTT TCCCAGATTT GGGTGATGAA TTGACAGTTG GAGTTGATAA CATTAGGATT 
ACTCAGGACT GGAACGAGGG TACAGCAACT TGGGAGCGAC GACGGAATTG GTTGTTTCTT 
GAGTTGATTG AGGAATATGA ACAGGATTGG CCCCTTAATG TCTCACTGAA GCAGATTTGG 
TATGATGTGA GGGAAAAAAA GGGGTTTGAG AAAGTTAAGG AGTGGACTTG TCCATCAAAT 
GCTCTATGGA GAGAGTTGGT TCGGGAGGCC ATTGCTGACA ATTTCAGGAT AACTCTAAAT 
AAAATCTGTT CTATGTTGAA GCCTGAAGTG TTGGCTAACT GTCATGCGGT GGAACCAATA 
CGGGGTATTA GCCCATTGGA TGGTAGTATG ATGATGACTA ACAATGATGC TAATGCAACA 
AATTCAGGGG ATTATAGTAT TGGACTCGTT GATAAATTGG TTGAAAATGG TGGCTTGGCT 
ACTAGGTTCC AGTATACTGA TCCAAAATGT AGTAGCAATC AACATGTCCA GGAGAAGCAT 
GAGGTGGATG GTGTGATTCC TTTTGTGGAG AATAGTGGGT TGGATATGCC CTATCGTGAT 
AAAGAGATGT CTGTTCAACC TCAGCCTTTG TTGGTTATAC CTTCTAAACC AAATAAATTG 
GAGAATTTCA CTTTTGATTG CAAAAGTGAA GGATATTCTA ATAACCCTTC AGCTAATAGG 
AAGAATGATT GGAGACGTGT TGATACTGAC ATACTTCACG GAGCCGAGTC CTGCTTTGAT 
GCAATTATTG AATACGCACT TATTTCTTCT GGGAAGAGGA AACCTCCAAA TTCATTAACA 
GAAAATGTCA GGAAGCACCT TTCATATCTG GGCTGGAAAA TTGAGTTTAT GAACAAAGAT 
TTTCCTAGAT TTCGTTACAC CTCCCCTGAA GGGAAGACTT ACCTATCTCT TCGACAGGTC 
TGTCAAGATT TGCGGCGACC TGATGCGGGA ATTGATTCTC CAATTTCCCA AGATGACCAG 
AGAAGTTTGC TTAGTCCATA TGATGACCTG GCATTTCCAC TCGTTAAATT GCAAGTGAAT 
GATCTGTCAA GTCAGCTTAT TGAAAAATCA CAAGTGAGTA AGGGAAAATG GACAGTGCCT 
AGTCATGATG ACAGAGTTGA TATTGATCAT GAATATTGCC CTCAAGCTGT AGTCAACTAC 
TATTTTCTTG GGTTAGACAA GAAAGAACAC CATAGCAGGA AGGATGACAT TCGGAGTTTG 
AATTTAAAAT CTAAAGCAAA GAAGCACCTC TCATTCATGG GTTGGACATT TTGGTATGCA 
TATAGGAGAG GGAAGCGTGA AATGCGCTAC TTCTCACCAA AAGGAAAGTG TTATTATTCT 
CTTCGTACAG CCTGCAAGGG CTGTATGGAT GAAGGTGGAG CTTCTGAAGG TACTTCTACC 
ACTTGGAACC CTGTGAAAAC CATGAATGTT AGTGAGGTAG CTTTGGGCCA AGAATTATCT 
TCTGCCTTGA TTGATATGAG AATGCAGAAC AGTTTGATAG AACAAAATGT ACCATCTGCA 
AAGTGGCCAA TAAAGTCTTC CAGCATATCA CAGTTGAAAA GCAAAGAGAT TAGTGCAGTT 
ACAAAGAAGA GACATGATGG ACTACATGGT GTTACCTCTA ATTCGCTTCA ATCTTGGACA 
CAATCCACTG GAAAAGATGG ATTTGGAATT GGATTAGTAG GTGACAGAGA GTTGAGGCAC 
CCAAAGGACA AAAATGTCTG CTTCTCAAAG TTGAAGAATG GAAAGGGATC TAAAGCTTTG 
ATGAGACTAA ATGGTCTAGA TGGTACCCGT GTTCTGCGAT CTAGAAAAAG AGCACGTCAG 
GTACTGATTC CTGGTTCATC AAACAACCCA AGGACTATAC TTTCTTGGTT GATAGACAAC 
AATGTGGTGC TGCCAAGGGC AAAAGTACAC TACAGTAGTC GAAGGGATCA TCATCCAATG 
GCAGACGGGC GGATAACTCG TGATGGGATC AAATGCAGTT GTTGCCAAGA AGTGTTTAGT 
CTTAGCAGGT TTGAAGCTCA TGCTGGCAGC TCTTATCACA GGTCAGCTGC CAATATTTTC 
TTGGAAGATG GAAGGTCTCT GTTAGAATGC CAAATGCAAA TAATACGTGA TATTACTGGG 
AAAGGCTTCA CAAAAGAATC GTTTAGTAGG AAGAAGAGCA ATGAACGTCA CCATGAGAAT 
GACCACATTT GTTCTGTTTG TCACTATGGT GGTGATTTAG TCCTATGTGA CCATTGTCCA 
TCCTCATTCC ATAAGAGTTG CCTTGGTTTG AAGACACTTC CTGAGGGTGA CTGGTTTTGC 
CCATCCTGTT GTTGTGGAAT TTGTGGTGAA AACAAATTTG ATGGAGGCAG TGAACAGGAT 
AATGTTGTTT TCAGTTGTTA TCAATGCGAA CGTCAATATC ATGTAGGTTG CCTAAGGAAA 
TGGGGGCATG TTAAGTTGGC AAGTTATCCT AATGGAACTT GGTTTTGCAG TAAACAGTGT 
AAAAAGATAT TTTTGGGCCT TCAGAAGCTT TTAGGGAAAT CATTTCCAGT AGGTGTGGAT 
AATTTAACCT GGACCTTGCT GAAACCCATT CGAAGTAAAG GTCTTGAGAT TGATTTACCT 
GATATTGAGG CCTTGACAGA AGTTTACAGC AAGCTCAATA TTGCTCTTGG TGTCATGCAT 
GAATGTTTTG AGCCCGTTAA AGAACCTCAT ACAAGGAGAG ATGTTGTTGA AGATGTTATT 
TTCTGTAGAG GGTCAGATCT CAACCGTTTG AACTTCCAAG GATTCTATAC AGTGCTCTTG 
GAGAGAAATG ATGAGCTGAT TAGTGTGGCT ACTGTAAGGG TATATGGAGA AAAGGTGGCA 
GAAGTGCCAC TTATTGGTAC TCGATTTCAA TATCGTCGAC TAGGAATGTG TCACATTTTG 
ATGAATGAAC TTGAAAAGAA ACTCATGGAA TTAGGAGTGG AGAGGTTGGT GTTGCCAGCT 
GTTCCTAGTG TGCTAAACAC ATGGACTACT TCATTTGGTT TTTCAAAGAT GACGGATTCT 
GAAAGACTAA GGTTTTTGGA TTACAGTTTC CTGGATTTCC AGGACACGGT AATGTGCCAG 
AAACTCTTGA TGAAGATCCC TTTAGCAAAA TCAAACCAAT CGACTGGAGC TTGGTCAAAG 
CATATTATTG ATTTCAATAA GCGTGGTGCC ATCTCTGAAG CTCTTAAATC AGAACAAGTT 
GAAGCTGAAA TTGTTGCCCC AGGACCATCG GACAGTACTT CAAGCAAAGG CGGTGATGGT 
AGCAATAGCC TGCCTGCAAC CCAACAGACT GATCCTGAAC ATAAACTGGG CCTCAATGAA 
AATAATTTAG AGTGCTTGCT CAAAGATGAC AATCATAAGG GCAGAGACAT TGGCAATGGA 
TATTTCAAGT GCTACAAGCG AAGGAGAATA CTATCAGCCA GTGGGAGCTG A

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

RefSeq	XP_019076237.1
CDS	263..4273
Translation	MAVKVEKSDWERKKKRKSLHNERKLFNDEKGKVMRGGIGSSTVVNLEEPDCGRERTGNKRKLLVGEEVEVRSVEEGLLGSWHSGTIIGCDYLVRNVKYSEILDDRMGERFLESVSVSGAIEGTSVVDTDQCNHRGRIRPLPPQCDFGKWNLHYGLCVDVFFREAWWEGVIFDHEDGLENRKVFFPDLGDELTVGVDNIRITQDWNEGTATWERRRNWLFLELIEEYEQDWPLNVSLKQIWYDVREKKGFEKVKEWTCPSNALWRELVREAIADNFRITLNKICSMLKPEVLANCHAVEPIRGISPLDGSMMMTNNDANATNSGDYSIGLVDKLVENGGLATRFQYTDPKCSSNQHVQEKHEVDGVIPFVENSGLDMPYRDKEMSVQPQPLLVIPSKPNKLENFTFDCKSEGYSNNPSANRKNDWRRVDTDILHGAESCFDAIIEYALISSGKRKPPNSLTENVRKHLSYLGWKIEFMNKDFPRFRYTSPEGKTYLSLRQVCQDLRRPDAGIDSPISQDDQRSLLSPYDDLAFPLVKLQVNDLSSQLIEKSQVSKGKWTVPSHDDRVDIDHEYCPQAVVNYYFLGLDKKEHHSRKDDIRSLNLKSKAKKHLSFMGWTFWYAYRRGKREMRYFSPKGKCYYSLRTACKGCMDEGGASEGTSTTWNPVKTMNVSEVALGQELSSALIDMRMQNSLIEQNVPSAKWPIKSSSISQLKSKEISAVTKKRHDGLHGVTSNSLQSWTQSTGKDGFGIGLVGDRELRHPKDKNVCFSKLKNGKGSKALMRLNGLDGTRVLRSRKRARQVLIPGSSNNPRTILSWLIDNNVVLPRAKVHYSSRRDHHPMADGRITRDGIKCSCCQEVFSLSRFEAHAGSSYHRSAANIFLEDGRSLLECQMQIIRDITGKGFTKESFSRKKSNERHHENDHICSVCHYGGDLVLCDHCPSSFHKSCLGLKTLPEGDWFCPSCCCGICGENKFDGGSEQDNVVFSCYQCERQYHVGCLRKWGHVKLASYPNGTWFCSKQCKKIFLGLQKLLGKSFPVGVDNLTWTLLKPIRSKGLEIDLPDIEALTEVYSKLNIALGVMHECFEPVKEPHTRRDVVEDVIFCRGSDLNRLNFQGFYTVLLERNDELISVATVRVYGEKVAEVPLIGTRFQYRRLGMCHILMNELEKKLMELGVERLVLPAVPSVLNTWTTSFGFSKMTDSERLRFLDYSFLDFQDTVMCQKLLMKIPLAKSNQSTGAWSKHIIDFNKRGAISEALKSEQVEAEIVAPGPSDSTSSKGGDGSNSLPATQQTDPEHKLGLNENNLECLLKDDNHKGRDIGNGYFKCYKRRRILSASGS

Target ORF information:

RefSeq Version	XM_019220692.1
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera uncharacterized LOC100243375 (LOC100243375), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_019220692.1

ORF Insert Sequence:

ATGGCGGTTA AAGTTGAAAA ATCGGATTGG GAGAGGAAGA AGAAGCGGAA GAGTTTACAC 
AACGAACGAA AGCTTTTTAA TGATGAGAAA GGCAAGGTAA TGCGGGGTGG TATTGGGTCT 
TCAACGGTGG TGAACCTTGA AGAACCGGAT TGTGGGAGGG AGAGGACGGG CAACAAGAGA 
AAGCTTCTTG TTGGCGAAGA AGTTGAGGTA AGGAGTGTGG AAGAAGGGCT TCTGGGCTCG 
TGGCATTCAG GAACTATCAT TGGTTGTGAT TATTTAGTTC GGAACGTGAA ATATAGTGAG 
ATATTGGATG ATCGGATGGG AGAAAGATTC TTAGAGTCTG TGAGTGTTTC TGGTGCTATT 
GAGGGAACAA GTGTTGTTGA TACCGACCAG TGTAATCATC GTGGTAGGAT AAGGCCATTG 
CCACCACAAT GTGACTTTGG GAAATGGAAC CTTCATTATG GACTATGTGT GGATGTGTTT 
TTTAGGGAGG CTTGGTGGGA AGGTGTGATT TTTGACCATG AAGATGGTTT GGAGAACAGG 
AAAGTTTTTT TCCCAGATTT GGGTGATGAA TTGACAGTTG GAGTTGATAA CATTAGGATT 
ACTCAGGACT GGAACGAGGG TACAGCAACT TGGGAGCGAC GACGGAATTG GTTGTTTCTT 
GAGTTGATTG AGGAATATGA ACAGGATTGG CCCCTTAATG TCTCACTGAA GCAGATTTGG 
TATGATGTGA GGGAAAAAAA GGGGTTTGAG AAAGTTAAGG AGTGGACTTG TCCATCAAAT 
GCTCTATGGA GAGAGTTGGT TCGGGAGGCC ATTGCTGACA ATTTCAGGAT AACTCTAAAT 
AAAATCTGTT CTATGTTGAA GCCTGAAGTG TTGGCTAACT GTCATGCGGT GGAACCAATA 
CGGGGTATTA GCCCATTGGA TGGTAGTATG ATGATGACTA ACAATGATGC TAATGCAACA 
AATTCAGGGG ATTATAGTAT TGGACTCGTT GATAAATTGG TTGAAAATGG TGGCTTGGCT 
ACTAGGTTCC AGTATACTGA TCCAAAATGT AGTAGCAATC AACATGTCCA GGAGAAGCAT 
GAGGTGGATG GTGTGATTCC TTTTGTGGAG AATAGTGGGT TGGATATGCC CTATCGTGAT 
AAAGAGATGT CTGTTCAACC TCAGCCTTTG TTGGTTATAC CTTCTAAACC AAATAAATTG 
GAGAATTTCA CTTTTGATTG CAAAAGTGAA GGATATTCTA ATAACCCTTC AGCTAATAGG 
AAGAATGATT GGAGACGTGT TGATACTGAC ATACTTCACG GAGCCGAGTC CTGCTTTGAT 
GCAATTATTG AATACGCACT TATTTCTTCT GGGAAGAGGA AACCTCCAAA TTCATTAACA 
GAAAATGTCA GGAAGCACCT TTCATATCTG GGCTGGAAAA TTGAGTTTAT GAACAAAGAT 
TTTCCTAGAT TTCGTTACAC CTCCCCTGAA GGGAAGACTT ACCTATCTCT TCGACAGGTC 
TGTCAAGATT TGCGGCGACC TGATGCGGGA ATTGATTCTC CAATTTCCCA AGATGACCAG 
AGAAGTTTGC TTAGTCCATA TGATGACCTG GCATTTCCAC TCGTTAAATT GCAAGTGAAT 
GATCTGTCAA GTCAGCTTAT TGAAAAATCA CAAGTGAGTA AGGGAAAATG GACAGTGCCT 
AGTCATGATG ACAGAGTTGA TATTGATCAT GAATATTGCC CTCAAGCTGT AGTCAACTAC 
TATTTTCTTG GGTTAGACAA GAAAGAACAC CATAGCAGGA AGGATGACAT TCGGAGTTTG 
AATTTAAAAT CTAAAGCAAA GAAGCACCTC TCATTCATGG GTTGGACATT TTGGTATGCA 
TATAGGAGAG GGAAGCGTGA AATGCGCTAC TTCTCACCAA AAGGAAAGTG TTATTATTCT 
CTTCGTACAG CCTGCAAGGG CTGTATGGAT GAAGGTGGAG CTTCTGAAGG TACTTCTACC 
ACTTGGAACC CTGTGAAAAC CATGAATGTT AGTGAGGTAG CTTTGGGCCA AGAATTATCT 
TCTGCCTTGA TTGATATGAG AATGCAGAAC AGTTTGATAG AACAAAATGT ACCATCTGCA 
AAGTGGCCAA TAAAGTCTTC CAGCATATCA CAGTTGAAAA GCAAAGAGAT TAGTGCAGTT 
ACAAAGAAGA GACATGATGG ACTACATGGT GTTACCTCTA ATTCGCTTCA ATCTTGGACA 
CAATCCACTG GAAAAGATGG ATTTGGAATT GGATTAGTAG GTGACAGAGA GTTGAGGCAC 
CCAAAGGACA AAAATGTCTG CTTCTCAAAG TTGAAGAATG GAAAGGGATC TAAAGCTTTG 
ATGAGACTAA ATGGTCTAGA TGGTACCCGT GTTCTGCGAT CTAGAAAAAG AGCACGTCAG 
GTACTGATTC CTGGTTCATC AAACAACCCA AGGACTATAC TTTCTTGGTT GATAGACAAC 
AATGTGGTGC TGCCAAGGGC AAAAGTACAC TACAGTAGTC GAAGGGATCA TCATCCAATG 
GCAGACGGGC GGATAACTCG TGATGGGATC AAATGCAGTT GTTGCCAAGA AGTGTTTAGT 
CTTAGCAGGT TTGAAGCTCA TGCTGGCAGC TCTTATCACA GGTCAGCTGC CAATATTTTC 
TTGGAAGATG GAAGGTCTCT GTTAGAATGC CAAATGCAAA TAATACGTGA TATTACTGGG 
AAAGGCTTCA CAAAAGAATC GTTTAGTAGG AAGAAGAGCA ATGAACGTCA CCATGAGAAT 
GACCACATTT GTTCTGTTTG TCACTATGGT GGTGATTTAG TCCTATGTGA CCATTGTCCA 
TCCTCATTCC ATAAGAGTTG CCTTGGTTTG AAGACACTTC CTGAGGGTGA CTGGTTTTGC 
CCATCCTGTT GTTGTGGAAT TTGTGGTGAA AACAAATTTG ATGGAGGCAG TGAACAGGAT 
AATGTTGTTT TCAGTTGTTA TCAATGCGAA CGTCAATATC ATGTAGGTTG CCTAAGGAAA 
TGGGGGCATG TTAAGTTGGC AAGTTATCCT AATGGAACTT GGTTTTGCAG TAAACAGTGT 
AAAAAGATAT TTTTGGGCCT TCAGAAGCTT TTAGGGAAAT CATTTCCAGT AGGTGTGGAT 
AATTTAACCT GGACCTTGCT GAAACCCATT CGAAGTAAAG GTCTTGAGAT TGATTTACCT 
GATATTGAGG CCTTGACAGA AGTTTACAGC AAGCTCAATA TTGCTCTTGG TGTCATGCAT 
GAATGTTTTG AGCCCGTTAA AGAACCTCAT ACAAGGAGAG ATGTTGTTGA AGATGTTATT 
TTCTGTAGAG GGTCAGATCT CAACCGTTTG AACTTCCAAG GATTCTATAC AGTGCTCTTG 
GAGAGAAATG ATGAGCTGAT TAGTGTGGCT ACTGTAAGGG TATATGGAGA AAAGGTGGCA 
GAAGTGCCAC TTATTGGTAC TCGATTTCAA TATCGTCGAC TAGGAATGTG TCACATTTTG 
ATGAATGAAC TTGAAAAGAA ACTCATGGAA TTAGGAGTGG AGAGGTTGGT GTTGCCAGCT 
GTTCCTAGTG TGCTAAACAC ATGGACTACT TCATTTGGTT TTTCAAAGAT GACGGATTCT 
GAAAGACTAA GGTTTTTGGA TTACAGTTTC CTGGATTTCC AGGACACGGT AATGTGCCAG 
AAACTCTTGA TGAAGATCCC TTTAGCAAAA TCAAACCAAT CGACTGGAGC TTGGTCAAAG 
CATATTATTG ATTTCAATAA GCGTGGTGCC ATCTCTGAAG CTCTTAAATC AGAACAAGTT 
GAAGCTGAAA TTGTTGCCCC AGGACCATCG GACAGTACTT CAAGCAAAGG CGGTGATGGT 
AGCAATAGCC TGCCTGCAAC CCAACAGACT GATCCTGAAC ATAAACTGGG CCTCAATGAA 
AATAATTTAG AGTGCTTGCT CAAAGATGAC AATCATAAGG GCAGAGACAT TGGCAATGGA 
TATTTCAAGT GCTACAAGCG AAGGAGAATA CTATCAGCCA GTGGGAGCTG A

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

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LOC100243375 cDNA ORF clone, Vitis vinifera(wine grape)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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