LOC100247853 cDNA ORF clone, Vitis vinifera(wine grape)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC100247853
Entrez Gene ID	100247853
Full Name	DNA repair endonuclease UVH1
Gene Type	protein-coding
Organism	Vitis vinifera(wine grape)

mRNA and Protein(s)

mRNA	Protein	Name
XM_010648928.2	XP_010647230.1	DNA repair endonuclease UVH1 isoform X2
XM_010648929.2	XP_010647231.1	DNA repair endonuclease UVH1 isoform X1
XM_010648930.2	XP_010647232.1	DNA repair endonuclease UVH1 isoform X3

Pathways from BioSystems
Gene Ontology

The following LOC100247853 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100247853 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)
OVa25791	XM_010648928.2 Latest version!	Vitis vinifera DNA repair endonuclease UVH1 (LOC100247853), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OVa25791	XM_010648929.2 Latest version!	Vitis vinifera DNA repair endonuclease UVH1 (LOC100247853), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OVa25792	XM_010648930.2 Latest version!	Vitis vinifera DNA repair endonuclease UVH1 (LOC100247853), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

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)

LOC100247853 ( XM_010648928.2 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_010647230.1 Vitis vinifera DNA repair endonuclease UVH1 (LOC100247853), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OVa25791
Clone ID Related Accession (Same CDS sequence)	XM_010648928.2 , XM_010648929.2
Accession Version	XM_010648928.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2961bp) 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	1479657600000
Organism	Vitis vinifera(wine grape)
Product	DNA repair endonuclease UVH1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003724464.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 22, 2016 this sequence version replaced XM_010648928.1. ##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##

ATGGTGCAGT TCCACGAACA CATCATCACA GAGCTTCTCG AAGACTCCAA TGGCGGACTG 
GTGGTGCTCT CCTCAGGCCT CTGCCTCCCC AAGCTAATCT CCTCTCTCCT CCTCCTCCAC 
CATCCTTCCC AAGGTTCGCT TCTCCTCCTC TCCTCTTCCC CTTCTCAAAA GCAACTCATC 
CTTTACCACC TCGACGCTAA CCCTAACCCT AACCCTAATC TTCCCTCCGA GATTACTGCC 
GATCTTCCGG CGCACCACCG CCACTCTCTC TACACGTCTG GCTCTGTTTT TTTCATCACT 
TCTCGGATTC TTATCGTTGA TCTTCTAACT TCTAGGGTTC CGACTTCGGG CATTGCCGGC 
CTCATTATTC TCAATGCTCA CTCTCTATCC GAGACATGTA CAGAGGCCTT TATTGTGCGA 
ATTATCCGAT CTCTCAATCC GGCAGCGTAC GTTCGGGCGT TTTCGGATAA GCCGCACGCG 
ATGGTGTCGG GGTTCGCGAA GGCGGAGAGG ATAATGAAGT GTTTGTTCTT GAGGAGGTTG 
CATCTGTGGC CGAGGTTTCA GGTGCATGTG TCGCAGGAGT TGGAGAGGTG TCCGCCGGTG 
GTGGTCGACA TTAGGGTTCC GATGACGGCG CACATGCAGG GGATTCAGAA GGCAATTGTT 
GAGGTTATGG ATGCGTGTCT GAAGGAGATG AGGAAGACAA ATAAGGTGGA TGTGGATGAT 
CTGACGGTGG AGAATGGGCT GTTTAAGTCG TTTGATGAGA TTGTGAGGCG GCAATTGGAT 
CCCATTTGGC ATACGCTTGG GAAGAAGACC AAGCAGCTGG TTTCGGATTT GAAAACTCTG 
AGGAAATTGT TGGATTATCT TGTTAGGTAC GATGCAGTTT CTTATTTGAA GTATTTGGAT 
TCACTAAGAG CATCAGAGAA TATTAGGTCT GTTTGGATAT TTGCAGAGTC GAGCTATAAG 
ATTTTTGAGT ATGCAAAAAA ACGGGTCTAT CATTTTGTGA GGTCAGATGG TGGGAAATTG 
GGTGGGCAGA ATAAGAGTGT GACAAACAAA AAGAGAAAGT TGAACAACAA TAAGAATGAA 
GCAAATGGTG ATTCGGTGCT GGTAGGCACA AACGGTGGAG TAGTTCTGGA GGAAGTGCTA 
GAGGAATCAC CAAAGTGGAA GGTGTTACGT GAGGTTCTTA AAGAGATAGA AGAGGAAAGA 
GAACAGCAAG CTTCTTCAAG AGAAGATGCT TCAGCCGAAG GTGATGAGGA TGATAGTGGC 
ATTGTTTTAG TGGCTTGCAA AGATGAACGC TCATGCATGC AACTTGAAGA TTTCATCAAG 
AGTGATCCAC AGAAGGTCAT GCGTGAAGAG TGGGAAAAGT ATTTGCTAAG CAAAGTGGAG 
TTGCAGGGGT TACAAACACG TAAGAAAAAT AAAGCAAAAG AACCTAAAGG GTTTGGGATA 
CTTAATGGAG AGGTTCCTTC TACATCTGGA CAGAATACAG AACCTACCAG CATAAGCAAG 
CTGGAACATG ATGCGCTGAT GGCTGCAGCA TCAGTAATAA GTTTAGCCAA AAAGGATACT 
GCTGTTAGTG ATAATTCACA ACCTCATATT GGCAGTGGGG GGCGGGGAAA AGGAAGGGGT 
AAAGGAAGAA ATATAAAAAT CACAGGAAAA GCTCAGGTTT CTGGGCACAA AGTTAACAAT 
AGTAATAGTG AGCAAGGAAG AAATGACAAA TCTGAAGTAT TTGGTTCAGA AAATGATAGC 
CAGGGAAAAG AAATTGATCC AGTGAGTTCT GGTGATTTCA ATGAAAACAA AGATAAAGGT 
GCATCTGTGG ATAAAGGAGT TCTTCAGAAG CATTGTCAAG AGACTGATGC TCCATCATTC 
AGCAATGCTA AGCAACTACC ACTGGTGCAC TTTTATGCCC TAGAAAGTGA AAAGAGCAAT 
ATACTTGATG TTTTGAAGCC TTCTATAGTT ATTGTTTACC ATCCAGACAT GACTTTTGTC 
AGGGAAATTG AAATATATAA AACTGAAAAT CCCTCAAAAA AATTGAAAGT TTATTTTCTG 
TTTTATGAAG ATTCCACTGA GGTGCAAAAG TTTGAGGCAA GCATACGCAG GGAAAATGGA 
GCATTTGAAT CTTTGATTAG GCAGAAATCA TTGATGATGA TCCCTGTTGA TCAGGATGTG 
CGTGGCCTGG GATTGAATTC TTCCATTGAA CCACAAGCTA TAACTTCCCA AAACTCAATA 
ACCAGAAAGG CTGGTGGAAG AAAGGAAGTG GAGAAAGAAA TCCAGGTCAT AGTTGATATG 
AGGGAGTTCA TGAGCAGCCT TCCAAATGTT CTTCACCAGA AGGGCATGCG CATTATACCA 
GTTACCTTGG AAGTTGGGGA TTATATCCTC TCTCCTCTAA TTTGCGTAGA GAGGAAGAGT 
ATCCAAGATC TTTTTGGAAG CTTTGCATCA GGCCGCCTAT ACCATCAAGT TGAAACCATG 
GTACGGTATT ATAGAATACC AGTGCTTCTG ATTGAATTTT CACAAGACAA AAGCTTTTCG 
TTTCAGTCTG CAAGTGAAAT TGGTGATGAC GTCACACCAA ATAGTATTAT TTCCAAGCTG 
TCATTGCTTG TTCTACATTT CCCCCGCCTG CGCATTGTCT GGTCTCGCAG TTTGCATGCA 
ACCGCAGAGA TATTTGCTTC ACTCAAGGCC AATCAGGATG AGCCTGATGA AGCAAAGGCA 
ATCAGGGTGG GTGTCCCCTC CGAAGAGGGT ATCGTGGAGA ATGATGTGAG AGCTGAAAAT 
TACAACACTA GTGCGGTGGA GTTGTTGAGA CGGCTGCCGG GTGTAACAGA CTCTAACTAT 
AGGGCTATAA TGGATGGGTG TAAAAGCTTG GCAGAACTTG CCCTTCTTCC TGTAGAGAAG 
CTAGCTGAAT TAATGGGAGG TCATAAAGCT GCAAGGACCC TGAGGGAGTT TCTGGATGCC 
AAGTATCCAA CCTTGCTATA G

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

RefSeq	XP_010647230.1
CDS	54..3014
Translation	MVQFHEHIITELLEDSNGGLVVLSSGLCLPKLISSLLLLHHPSQGSLLLLSSSPSQKQLILYHLDANPNPNPNLPSEITADLPAHHRHSLYTSGSVFFITSRILIVDLLTSRVPTSGIAGLIILNAHSLSETCTEAFIVRIIRSLNPAAYVRAFSDKPHAMVSGFAKAERIMKCLFLRRLHLWPRFQVHVSQELERCPPVVVDIRVPMTAHMQGIQKAIVEVMDACLKEMRKTNKVDVDDLTVENGLFKSFDEIVRRQLDPIWHTLGKKTKQLVSDLKTLRKLLDYLVRYDAVSYLKYLDSLRASENIRSVWIFAESSYKIFEYAKKRVYHFVRSDGGKLGGQNKSVTNKKRKLNNNKNEANGDSVLVGTNGGVVLEEVLEESPKWKVLREVLKEIEEEREQQASSREDASAEGDEDDSGIVLVACKDERSCMQLEDFIKSDPQKVMREEWEKYLLSKVELQGLQTRKKNKAKEPKGFGILNGEVPSTSGQNTEPTSISKLEHDALMAAASVISLAKKDTAVSDNSQPHIGSGGRGKGRGKGRNIKITGKAQVSGHKVNNSNSEQGRNDKSEVFGSENDSQGKEIDPVSSGDFNENKDKGASVDKGVLQKHCQETDAPSFSNAKQLPLVHFYALESEKSNILDVLKPSIVIVYHPDMTFVREIEIYKTENPSKKLKVYFLFYEDSTEVQKFEASIRRENGAFESLIRQKSLMMIPVDQDVRGLGLNSSIEPQAITSQNSITRKAGGRKEVEKEIQVIVDMREFMSSLPNVLHQKGMRIIPVTLEVGDYILSPLICVERKSIQDLFGSFASGRLYHQVETMVRYYRIPVLLIEFSQDKSFSFQSASEIGDDVTPNSIISKLSLLVLHFPRLRIVWSRSLHATAEIFASLKANQDEPDEAKAIRVGVPSEEGIVENDVRAENYNTSAVELLRRLPGVTDSNYRAIMDGCKSLAELALLPVEKLAELMGGHKAARTLREFLDAKYPTLL

Target ORF information:

RefSeq Version	XM_010648928.2
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera DNA repair endonuclease UVH1 (LOC100247853), transcript variant X2, mRNA.

Target ORF information:

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

XM_010648928.2

ORF Insert Sequence:

ATGGTGCAGT TCCACGAACA CATCATCACA GAGCTTCTCG AAGACTCCAA TGGCGGACTG 
GTGGTGCTCT CCTCAGGCCT CTGCCTCCCC AAGCTAATCT CCTCTCTCCT CCTCCTCCAC 
CATCCTTCCC AAGGTTCGCT TCTCCTCCTC TCCTCTTCCC CTTCTCAAAA GCAACTCATC 
CTTTACCACC TCGACGCTAA CCCTAACCCT AACCCTAATC TTCCCTCCGA GATTACTGCC 
GATCTTCCGG CGCACCACCG CCACTCTCTC TACACGTCTG GCTCTGTTTT TTTCATCACT 
TCTCGGATTC TTATCGTTGA TCTTCTAACT TCTAGGGTTC CGACTTCGGG CATTGCCGGC 
CTCATTATTC TCAATGCTCA CTCTCTATCC GAGACATGTA CAGAGGCCTT TATTGTGCGA 
ATTATCCGAT CTCTCAATCC GGCAGCGTAC GTTCGGGCGT TTTCGGATAA GCCGCACGCG 
ATGGTGTCGG GGTTCGCGAA GGCGGAGAGG ATAATGAAGT GTTTGTTCTT GAGGAGGTTG 
CATCTGTGGC CGAGGTTTCA GGTGCATGTG TCGCAGGAGT TGGAGAGGTG TCCGCCGGTG 
GTGGTCGACA TTAGGGTTCC GATGACGGCG CACATGCAGG GGATTCAGAA GGCAATTGTT 
GAGGTTATGG ATGCGTGTCT GAAGGAGATG AGGAAGACAA ATAAGGTGGA TGTGGATGAT 
CTGACGGTGG AGAATGGGCT GTTTAAGTCG TTTGATGAGA TTGTGAGGCG GCAATTGGAT 
CCCATTTGGC ATACGCTTGG GAAGAAGACC AAGCAGCTGG TTTCGGATTT GAAAACTCTG 
AGGAAATTGT TGGATTATCT TGTTAGGTAC GATGCAGTTT CTTATTTGAA GTATTTGGAT 
TCACTAAGAG CATCAGAGAA TATTAGGTCT GTTTGGATAT TTGCAGAGTC GAGCTATAAG 
ATTTTTGAGT ATGCAAAAAA ACGGGTCTAT CATTTTGTGA GGTCAGATGG TGGGAAATTG 
GGTGGGCAGA ATAAGAGTGT GACAAACAAA AAGAGAAAGT TGAACAACAA TAAGAATGAA 
GCAAATGGTG ATTCGGTGCT GGTAGGCACA AACGGTGGAG TAGTTCTGGA GGAAGTGCTA 
GAGGAATCAC CAAAGTGGAA GGTGTTACGT GAGGTTCTTA AAGAGATAGA AGAGGAAAGA 
GAACAGCAAG CTTCTTCAAG AGAAGATGCT TCAGCCGAAG GTGATGAGGA TGATAGTGGC 
ATTGTTTTAG TGGCTTGCAA AGATGAACGC TCATGCATGC AACTTGAAGA TTTCATCAAG 
AGTGATCCAC AGAAGGTCAT GCGTGAAGAG TGGGAAAAGT ATTTGCTAAG CAAAGTGGAG 
TTGCAGGGGT TACAAACACG TAAGAAAAAT AAAGCAAAAG AACCTAAAGG GTTTGGGATA 
CTTAATGGAG AGGTTCCTTC TACATCTGGA CAGAATACAG AACCTACCAG CATAAGCAAG 
CTGGAACATG ATGCGCTGAT GGCTGCAGCA TCAGTAATAA GTTTAGCCAA AAAGGATACT 
GCTGTTAGTG ATAATTCACA ACCTCATATT GGCAGTGGGG GGCGGGGAAA AGGAAGGGGT 
AAAGGAAGAA ATATAAAAAT CACAGGAAAA GCTCAGGTTT CTGGGCACAA AGTTAACAAT 
AGTAATAGTG AGCAAGGAAG AAATGACAAA TCTGAAGTAT TTGGTTCAGA AAATGATAGC 
CAGGGAAAAG AAATTGATCC AGTGAGTTCT GGTGATTTCA ATGAAAACAA AGATAAAGGT 
GCATCTGTGG ATAAAGGAGT TCTTCAGAAG CATTGTCAAG AGACTGATGC TCCATCATTC 
AGCAATGCTA AGCAACTACC ACTGGTGCAC TTTTATGCCC TAGAAAGTGA AAAGAGCAAT 
ATACTTGATG TTTTGAAGCC TTCTATAGTT ATTGTTTACC ATCCAGACAT GACTTTTGTC 
AGGGAAATTG AAATATATAA AACTGAAAAT CCCTCAAAAA AATTGAAAGT TTATTTTCTG 
TTTTATGAAG ATTCCACTGA GGTGCAAAAG TTTGAGGCAA GCATACGCAG GGAAAATGGA 
GCATTTGAAT CTTTGATTAG GCAGAAATCA TTGATGATGA TCCCTGTTGA TCAGGATGTG 
CGTGGCCTGG GATTGAATTC TTCCATTGAA CCACAAGCTA TAACTTCCCA AAACTCAATA 
ACCAGAAAGG CTGGTGGAAG AAAGGAAGTG GAGAAAGAAA TCCAGGTCAT AGTTGATATG 
AGGGAGTTCA TGAGCAGCCT TCCAAATGTT CTTCACCAGA AGGGCATGCG CATTATACCA 
GTTACCTTGG AAGTTGGGGA TTATATCCTC TCTCCTCTAA TTTGCGTAGA GAGGAAGAGT 
ATCCAAGATC TTTTTGGAAG CTTTGCATCA GGCCGCCTAT ACCATCAAGT TGAAACCATG 
GTACGGTATT ATAGAATACC AGTGCTTCTG ATTGAATTTT CACAAGACAA AAGCTTTTCG 
TTTCAGTCTG CAAGTGAAAT TGGTGATGAC GTCACACCAA ATAGTATTAT TTCCAAGCTG 
TCATTGCTTG TTCTACATTT CCCCCGCCTG CGCATTGTCT GGTCTCGCAG TTTGCATGCA 
ACCGCAGAGA TATTTGCTTC ACTCAAGGCC AATCAGGATG AGCCTGATGA AGCAAAGGCA 
ATCAGGGTGG GTGTCCCCTC CGAAGAGGGT ATCGTGGAGA ATGATGTGAG AGCTGAAAAT 
TACAACACTA GTGCGGTGGA GTTGTTGAGA CGGCTGCCGG GTGTAACAGA CTCTAACTAT 
AGGGCTATAA TGGATGGGTG TAAAAGCTTG GCAGAACTTG CCCTTCTTCC TGTAGAGAAG 
CTAGCTGAAT TAATGGGAGG TCATAAAGCT GCAAGGACCC TGAGGGAGTT TCTGGATGCC 
AAGTATCCAA CCTTGCTATA G

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

LOC100247853 ( XM_010648929.2 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_010647231.1 Vitis vinifera DNA repair endonuclease UVH1 (LOC100247853), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OVa25791
Clone ID Related Accession (Same CDS sequence)	XM_010648928.2 , XM_010648929.2
Accession Version	XM_010648929.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2961bp) 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	1479657600000
Organism	Vitis vinifera(wine grape)
Product	DNA repair endonuclease UVH1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003724464.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 22, 2016 this sequence version replaced XM_010648929.1. ##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##

ATGGTGCAGT TCCACGAACA CATCATCACA GAGCTTCTCG AAGACTCCAA TGGCGGACTG 
GTGGTGCTCT CCTCAGGCCT CTGCCTCCCC AAGCTAATCT CCTCTCTCCT CCTCCTCCAC 
CATCCTTCCC AAGGTTCGCT TCTCCTCCTC TCCTCTTCCC CTTCTCAAAA GCAACTCATC 
CTTTACCACC TCGACGCTAA CCCTAACCCT AACCCTAATC TTCCCTCCGA GATTACTGCC 
GATCTTCCGG CGCACCACCG CCACTCTCTC TACACGTCTG GCTCTGTTTT TTTCATCACT 
TCTCGGATTC TTATCGTTGA TCTTCTAACT TCTAGGGTTC CGACTTCGGG CATTGCCGGC 
CTCATTATTC TCAATGCTCA CTCTCTATCC GAGACATGTA CAGAGGCCTT TATTGTGCGA 
ATTATCCGAT CTCTCAATCC GGCAGCGTAC GTTCGGGCGT TTTCGGATAA GCCGCACGCG 
ATGGTGTCGG GGTTCGCGAA GGCGGAGAGG ATAATGAAGT GTTTGTTCTT GAGGAGGTTG 
CATCTGTGGC CGAGGTTTCA GGTGCATGTG TCGCAGGAGT TGGAGAGGTG TCCGCCGGTG 
GTGGTCGACA TTAGGGTTCC GATGACGGCG CACATGCAGG GGATTCAGAA GGCAATTGTT 
GAGGTTATGG ATGCGTGTCT GAAGGAGATG AGGAAGACAA ATAAGGTGGA TGTGGATGAT 
CTGACGGTGG AGAATGGGCT GTTTAAGTCG TTTGATGAGA TTGTGAGGCG GCAATTGGAT 
CCCATTTGGC ATACGCTTGG GAAGAAGACC AAGCAGCTGG TTTCGGATTT GAAAACTCTG 
AGGAAATTGT TGGATTATCT TGTTAGGTAC GATGCAGTTT CTTATTTGAA GTATTTGGAT 
TCACTAAGAG CATCAGAGAA TATTAGGTCT GTTTGGATAT TTGCAGAGTC GAGCTATAAG 
ATTTTTGAGT ATGCAAAAAA ACGGGTCTAT CATTTTGTGA GGTCAGATGG TGGGAAATTG 
GGTGGGCAGA ATAAGAGTGT GACAAACAAA AAGAGAAAGT TGAACAACAA TAAGAATGAA 
GCAAATGGTG ATTCGGTGCT GGTAGGCACA AACGGTGGAG TAGTTCTGGA GGAAGTGCTA 
GAGGAATCAC CAAAGTGGAA GGTGTTACGT GAGGTTCTTA AAGAGATAGA AGAGGAAAGA 
GAACAGCAAG CTTCTTCAAG AGAAGATGCT TCAGCCGAAG GTGATGAGGA TGATAGTGGC 
ATTGTTTTAG TGGCTTGCAA AGATGAACGC TCATGCATGC AACTTGAAGA TTTCATCAAG 
AGTGATCCAC AGAAGGTCAT GCGTGAAGAG TGGGAAAAGT ATTTGCTAAG CAAAGTGGAG 
TTGCAGGGGT TACAAACACG TAAGAAAAAT AAAGCAAAAG AACCTAAAGG GTTTGGGATA 
CTTAATGGAG AGGTTCCTTC TACATCTGGA CAGAATACAG AACCTACCAG CATAAGCAAG 
CTGGAACATG ATGCGCTGAT GGCTGCAGCA TCAGTAATAA GTTTAGCCAA AAAGGATACT 
GCTGTTAGTG ATAATTCACA ACCTCATATT GGCAGTGGGG GGCGGGGAAA AGGAAGGGGT 
AAAGGAAGAA ATATAAAAAT CACAGGAAAA GCTCAGGTTT CTGGGCACAA AGTTAACAAT 
AGTAATAGTG AGCAAGGAAG AAATGACAAA TCTGAAGTAT TTGGTTCAGA AAATGATAGC 
CAGGGAAAAG AAATTGATCC AGTGAGTTCT GGTGATTTCA ATGAAAACAA AGATAAAGGT 
GCATCTGTGG ATAAAGGAGT TCTTCAGAAG CATTGTCAAG AGACTGATGC TCCATCATTC 
AGCAATGCTA AGCAACTACC ACTGGTGCAC TTTTATGCCC TAGAAAGTGA AAAGAGCAAT 
ATACTTGATG TTTTGAAGCC TTCTATAGTT ATTGTTTACC ATCCAGACAT GACTTTTGTC 
AGGGAAATTG AAATATATAA AACTGAAAAT CCCTCAAAAA AATTGAAAGT TTATTTTCTG 
TTTTATGAAG ATTCCACTGA GGTGCAAAAG TTTGAGGCAA GCATACGCAG GGAAAATGGA 
GCATTTGAAT CTTTGATTAG GCAGAAATCA TTGATGATGA TCCCTGTTGA TCAGGATGTG 
CGTGGCCTGG GATTGAATTC TTCCATTGAA CCACAAGCTA TAACTTCCCA AAACTCAATA 
ACCAGAAAGG CTGGTGGAAG AAAGGAAGTG GAGAAAGAAA TCCAGGTCAT AGTTGATATG 
AGGGAGTTCA TGAGCAGCCT TCCAAATGTT CTTCACCAGA AGGGCATGCG CATTATACCA 
GTTACCTTGG AAGTTGGGGA TTATATCCTC TCTCCTCTAA TTTGCGTAGA GAGGAAGAGT 
ATCCAAGATC TTTTTGGAAG CTTTGCATCA GGCCGCCTAT ACCATCAAGT TGAAACCATG 
GTACGGTATT ATAGAATACC AGTGCTTCTG ATTGAATTTT CACAAGACAA AAGCTTTTCG 
TTTCAGTCTG CAAGTGAAAT TGGTGATGAC GTCACACCAA ATAGTATTAT TTCCAAGCTG 
TCATTGCTTG TTCTACATTT CCCCCGCCTG CGCATTGTCT GGTCTCGCAG TTTGCATGCA 
ACCGCAGAGA TATTTGCTTC ACTCAAGGCC AATCAGGATG AGCCTGATGA AGCAAAGGCA 
ATCAGGGTGG GTGTCCCCTC CGAAGAGGGT ATCGTGGAGA ATGATGTGAG AGCTGAAAAT 
TACAACACTA GTGCGGTGGA GTTGTTGAGA CGGCTGCCGG GTGTAACAGA CTCTAACTAT 
AGGGCTATAA TGGATGGGTG TAAAAGCTTG GCAGAACTTG CCCTTCTTCC TGTAGAGAAG 
CTAGCTGAAT TAATGGGAGG TCATAAAGCT GCAAGGACCC TGAGGGAGTT TCTGGATGCC 
AAGTATCCAA CCTTGCTATA G

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

RefSeq	XP_010647231.1
CDS	54..3014
Translation	MVQFHEHIITELLEDSNGGLVVLSSGLCLPKLISSLLLLHHPSQGSLLLLSSSPSQKQLILYHLDANPNPNPNLPSEITADLPAHHRHSLYTSGSVFFITSRILIVDLLTSRVPTSGIAGLIILNAHSLSETCTEAFIVRIIRSLNPAAYVRAFSDKPHAMVSGFAKAERIMKCLFLRRLHLWPRFQVHVSQELERCPPVVVDIRVPMTAHMQGIQKAIVEVMDACLKEMRKTNKVDVDDLTVENGLFKSFDEIVRRQLDPIWHTLGKKTKQLVSDLKTLRKLLDYLVRYDAVSYLKYLDSLRASENIRSVWIFAESSYKIFEYAKKRVYHFVRSDGGKLGGQNKSVTNKKRKLNNNKNEANGDSVLVGTNGGVVLEEVLEESPKWKVLREVLKEIEEEREQQASSREDASAEGDEDDSGIVLVACKDERSCMQLEDFIKSDPQKVMREEWEKYLLSKVELQGLQTRKKNKAKEPKGFGILNGEVPSTSGQNTEPTSISKLEHDALMAAASVISLAKKDTAVSDNSQPHIGSGGRGKGRGKGRNIKITGKAQVSGHKVNNSNSEQGRNDKSEVFGSENDSQGKEIDPVSSGDFNENKDKGASVDKGVLQKHCQETDAPSFSNAKQLPLVHFYALESEKSNILDVLKPSIVIVYHPDMTFVREIEIYKTENPSKKLKVYFLFYEDSTEVQKFEASIRRENGAFESLIRQKSLMMIPVDQDVRGLGLNSSIEPQAITSQNSITRKAGGRKEVEKEIQVIVDMREFMSSLPNVLHQKGMRIIPVTLEVGDYILSPLICVERKSIQDLFGSFASGRLYHQVETMVRYYRIPVLLIEFSQDKSFSFQSASEIGDDVTPNSIISKLSLLVLHFPRLRIVWSRSLHATAEIFASLKANQDEPDEAKAIRVGVPSEEGIVENDVRAENYNTSAVELLRRLPGVTDSNYRAIMDGCKSLAELALLPVEKLAELMGGHKAARTLREFLDAKYPTLL

Target ORF information:

RefSeq Version	XM_010648929.2
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera DNA repair endonuclease UVH1 (LOC100247853), transcript variant X1, mRNA.

Target ORF information:

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

XM_010648929.2

ORF Insert Sequence:

ATGGTGCAGT TCCACGAACA CATCATCACA GAGCTTCTCG AAGACTCCAA TGGCGGACTG 
GTGGTGCTCT CCTCAGGCCT CTGCCTCCCC AAGCTAATCT CCTCTCTCCT CCTCCTCCAC 
CATCCTTCCC AAGGTTCGCT TCTCCTCCTC TCCTCTTCCC CTTCTCAAAA GCAACTCATC 
CTTTACCACC TCGACGCTAA CCCTAACCCT AACCCTAATC TTCCCTCCGA GATTACTGCC 
GATCTTCCGG CGCACCACCG CCACTCTCTC TACACGTCTG GCTCTGTTTT TTTCATCACT 
TCTCGGATTC TTATCGTTGA TCTTCTAACT TCTAGGGTTC CGACTTCGGG CATTGCCGGC 
CTCATTATTC TCAATGCTCA CTCTCTATCC GAGACATGTA CAGAGGCCTT TATTGTGCGA 
ATTATCCGAT CTCTCAATCC GGCAGCGTAC GTTCGGGCGT TTTCGGATAA GCCGCACGCG 
ATGGTGTCGG GGTTCGCGAA GGCGGAGAGG ATAATGAAGT GTTTGTTCTT GAGGAGGTTG 
CATCTGTGGC CGAGGTTTCA GGTGCATGTG TCGCAGGAGT TGGAGAGGTG TCCGCCGGTG 
GTGGTCGACA TTAGGGTTCC GATGACGGCG CACATGCAGG GGATTCAGAA GGCAATTGTT 
GAGGTTATGG ATGCGTGTCT GAAGGAGATG AGGAAGACAA ATAAGGTGGA TGTGGATGAT 
CTGACGGTGG AGAATGGGCT GTTTAAGTCG TTTGATGAGA TTGTGAGGCG GCAATTGGAT 
CCCATTTGGC ATACGCTTGG GAAGAAGACC AAGCAGCTGG TTTCGGATTT GAAAACTCTG 
AGGAAATTGT TGGATTATCT TGTTAGGTAC GATGCAGTTT CTTATTTGAA GTATTTGGAT 
TCACTAAGAG CATCAGAGAA TATTAGGTCT GTTTGGATAT TTGCAGAGTC GAGCTATAAG 
ATTTTTGAGT ATGCAAAAAA ACGGGTCTAT CATTTTGTGA GGTCAGATGG TGGGAAATTG 
GGTGGGCAGA ATAAGAGTGT GACAAACAAA AAGAGAAAGT TGAACAACAA TAAGAATGAA 
GCAAATGGTG ATTCGGTGCT GGTAGGCACA AACGGTGGAG TAGTTCTGGA GGAAGTGCTA 
GAGGAATCAC CAAAGTGGAA GGTGTTACGT GAGGTTCTTA AAGAGATAGA AGAGGAAAGA 
GAACAGCAAG CTTCTTCAAG AGAAGATGCT TCAGCCGAAG GTGATGAGGA TGATAGTGGC 
ATTGTTTTAG TGGCTTGCAA AGATGAACGC TCATGCATGC AACTTGAAGA TTTCATCAAG 
AGTGATCCAC AGAAGGTCAT GCGTGAAGAG TGGGAAAAGT ATTTGCTAAG CAAAGTGGAG 
TTGCAGGGGT TACAAACACG TAAGAAAAAT AAAGCAAAAG AACCTAAAGG GTTTGGGATA 
CTTAATGGAG AGGTTCCTTC TACATCTGGA CAGAATACAG AACCTACCAG CATAAGCAAG 
CTGGAACATG ATGCGCTGAT GGCTGCAGCA TCAGTAATAA GTTTAGCCAA AAAGGATACT 
GCTGTTAGTG ATAATTCACA ACCTCATATT GGCAGTGGGG GGCGGGGAAA AGGAAGGGGT 
AAAGGAAGAA ATATAAAAAT CACAGGAAAA GCTCAGGTTT CTGGGCACAA AGTTAACAAT 
AGTAATAGTG AGCAAGGAAG AAATGACAAA TCTGAAGTAT TTGGTTCAGA AAATGATAGC 
CAGGGAAAAG AAATTGATCC AGTGAGTTCT GGTGATTTCA ATGAAAACAA AGATAAAGGT 
GCATCTGTGG ATAAAGGAGT TCTTCAGAAG CATTGTCAAG AGACTGATGC TCCATCATTC 
AGCAATGCTA AGCAACTACC ACTGGTGCAC TTTTATGCCC TAGAAAGTGA AAAGAGCAAT 
ATACTTGATG TTTTGAAGCC TTCTATAGTT ATTGTTTACC ATCCAGACAT GACTTTTGTC 
AGGGAAATTG AAATATATAA AACTGAAAAT CCCTCAAAAA AATTGAAAGT TTATTTTCTG 
TTTTATGAAG ATTCCACTGA GGTGCAAAAG TTTGAGGCAA GCATACGCAG GGAAAATGGA 
GCATTTGAAT CTTTGATTAG GCAGAAATCA TTGATGATGA TCCCTGTTGA TCAGGATGTG 
CGTGGCCTGG GATTGAATTC TTCCATTGAA CCACAAGCTA TAACTTCCCA AAACTCAATA 
ACCAGAAAGG CTGGTGGAAG AAAGGAAGTG GAGAAAGAAA TCCAGGTCAT AGTTGATATG 
AGGGAGTTCA TGAGCAGCCT TCCAAATGTT CTTCACCAGA AGGGCATGCG CATTATACCA 
GTTACCTTGG AAGTTGGGGA TTATATCCTC TCTCCTCTAA TTTGCGTAGA GAGGAAGAGT 
ATCCAAGATC TTTTTGGAAG CTTTGCATCA GGCCGCCTAT ACCATCAAGT TGAAACCATG 
GTACGGTATT ATAGAATACC AGTGCTTCTG ATTGAATTTT CACAAGACAA AAGCTTTTCG 
TTTCAGTCTG CAAGTGAAAT TGGTGATGAC GTCACACCAA ATAGTATTAT TTCCAAGCTG 
TCATTGCTTG TTCTACATTT CCCCCGCCTG CGCATTGTCT GGTCTCGCAG TTTGCATGCA 
ACCGCAGAGA TATTTGCTTC ACTCAAGGCC AATCAGGATG AGCCTGATGA AGCAAAGGCA 
ATCAGGGTGG GTGTCCCCTC CGAAGAGGGT ATCGTGGAGA ATGATGTGAG AGCTGAAAAT 
TACAACACTA GTGCGGTGGA GTTGTTGAGA CGGCTGCCGG GTGTAACAGA CTCTAACTAT 
AGGGCTATAA TGGATGGGTG TAAAAGCTTG GCAGAACTTG CCCTTCTTCC TGTAGAGAAG 
CTAGCTGAAT TAATGGGAGG TCATAAAGCT GCAAGGACCC TGAGGGAGTT TCTGGATGCC 
AAGTATCCAA CCTTGCTATA G

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

LOC100247853 ( XM_010648930.2 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_010647232.1 Vitis vinifera DNA repair endonuclease UVH1 (LOC100247853), transcript variant X3, mRNA.

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CloneID	OVa25792
Clone ID Related Accession (Same CDS sequence)	XM_010648930.2
Accession Version	XM_010648930.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2961bp) 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	1479657600000
Organism	Vitis vinifera(wine grape)
Product	DNA repair endonuclease UVH1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003724464.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Nov 22, 2016 this sequence version replaced XM_010648930.1. ##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##

ATGGTGCAGT TCCACGAACA CATCATCACA GAGCTTCTCG AAGACTCCAA TGGCGGACTG 
GTGGTGCTCT CCTCAGGCCT CTGCCTCCCC AAGCTAATCT CCTCTCTCCT CCTCCTCCAC 
CATCCTTCCC AAGGTTCGCT TCTCCTCCTC TCCTCTTCCC CTTCTCAAAA GCAACTCATC 
CTTTACCACC TCGACGCTAA CCCTAACCCT AACCCTAATC TTCCCTCCGA GATTACTGCC 
GATCTTCCGG CGCACCACCG CCACTCTCTC TACACGTCTG GCTCTGTTTT TTTCATCACT 
TCTCGGATTC TTATCGTTGA TCTTCTAACT TCTAGGGTTC CGACTTCGGG CATTGCCGGC 
CTCATTATTC TCAATGCTCA CTCTCTATCC GAGACATGTA CAGAGGCCTT TATTGTGCGA 
ATTATCCGAT CTCTCAATCC GGCAGCGTAC GTTCGGGCGT TTTCGGATAA GCCGCACGCG 
ATGGTGTCGG GGTTCGCGAA GGCGGAGAGG ATAATGAAGT GTTTGTTCTT GAGGAGGTTG 
CATCTGTGGC CGAGGTTTCA GGTGCATGTG TCGCAGGAGT TGGAGAGGTG TCCGCCGGTG 
GTGGTCGACA TTAGGGTTCC GATGACGGCG CACATGCAGG GGATTCAGAA GGCAATTGTT 
GAGGTTTTGG ATGCGTGTCT GAAGGAGATG AGGAAGACGA ATAAGGTGGA TGTGGATGAT 
CTGACGGTGG AGAATGGGCT GTTTAAGTCG TTTGATGAGA TTGTGAGGCG GCAATTGGAT 
CCCATTTGGC ATACGCTTGG GAAGAAGACC AAGCAGCTGG TTTCGGATTT GAAAACTCTG 
AGGAAATTGT TGGATTATCT TGTTAGGTAC GATGCAGTTT CTTATTTGAA GTATTTGGAT 
TCACTAAGAG CATCAGAGAA TATTAGGTCT GTTTGGATAT TTGCAGAGTC GAGCTATAAG 
ATTTTTGAGT ATGCAAAAAA ACGGGTCTAT CATTTTGTGA GGTCAGATGG TGGGAAATTG 
GGTGGGCAGA ATAAGAGTGT GACAAACAAA AAGAGAAAGT TGAACAACAA TAAGAATGAA 
GCAAATGGTG ATTCGGTGCT GGTAGGCACA AACGGTGGAG TAGTTCTGGA GGAAGTGCTA 
GAGGAATCAC CAAAGTGGAA GGTGTTACGT GAGGTTCTTA AAGAGATAGA AGAGGAAAGA 
GAACAGCAAG CTTCTTCAAG AGAAGATGCT TCAGCCGAAG GTGATGAGGA TGATAGTGGC 
ATTGTTTTAG TGGCTTGCAA AGATGAACGC TCATGCATGC AACTTGAAGA TTTCATCAAG 
AGTGATCCAC AGAAGGTCAT GCGTGAAGAG TGGGAAAAGT ATTTGCTAAG CAAAGTGGAG 
TTGCAGGGGT TACAAACACG TAAGAAAAAT AAAGCAAAAG AACCTAAAGG GTTTGGGATA 
CTTAATGGAG AGGTTCCTTC TACATCTGGA CAGAATACAG AACCTACCAG CATAAGCAAG 
CTGGAACATG ATGCGCTGAT GGCTGCAGCA TCAGTAATAA GTTTAGCCAA AAAGGATACT 
GCTGTTAGTG ATAATTCACA ACCTCATATT GGCAGTGGGG GGCGGGGAAA AGGAAGGGGT 
AAAGGAAGAA ATATAAAAAT CACAGGAAAA GCTCAGGTTT CTGGGCACAA AGTTAACAAT 
AGTAATAGTG AGCAAGGAAG AAATGACAAA TCTGAAGTAT TTGGTTCAGA AAATGATAGC 
CAGGGAAAAG AAATTGATCC AGTGAGTTCT GGTGATTTCA ATGAAAACAA AGATAAAGGT 
GCATCTGTGG ATAAAGGAGT TCTTCAGAAG CATTGTCAAG AGACTGATGC TCCATCATTC 
AGCAATGCTA AGCAACTACC ACTGGTGCAC TTTTATGCCC TAGAAAGTGA AAAGAGCAAT 
ATACTTGATG TTTTGAAGCC TTCTATAGTT ATTGTTTACC ATCCAGACAT GACTTTTGTC 
AGGGAAATTG AAATATATAA AACTGAAAAT CCCTCAAAAA AATTGAAAGT TTATTTTCTG 
TTTTATGAAG ATTCCACTGA GGTGCAAAAG TTTGAGGCAA GCATACGCAG GGAAAATGGA 
GCATTTGAAT CTTTGATTAG GCAGAAATCA TTGATGATGA TCCCTGTTGA TCAGGATGTG 
CGTGGCCTGG GATTGAATTC TTCCATTGAA CCACAAGCTA TAACTTCCCA AAACTCAATA 
ACCAGAAAGG CTGGTGGAAG AAAGGAAGTG GAGAAAGAAA TCCAGGTCAT AGTTGATATG 
AGGGAGTTCA TGAGCAGCCT TCCAAATGTT CTTCACCAGA AGGGCATGCG CATTATACCA 
GTTACCTTGG AAGTTGGGGA TTATATCCTC TCTCCTCTAA TTTGCGTAGA GAGGAAGAGT 
ATCCAAGATC TTTTTGGAAG CTTTGCATCA GGCCGCCTAT ACCATCAAGT TGAAACCATG 
GTACGGTATT ATAGAATACC AGTGCTTCTG ATTGAATTTT CACAAGACAA AAGCTTTTCG 
TTTCAGTCTG CAAGTGAAAT TGGTGATGAC GTCACACCAA ATAGTATTAT TTCCAAGCTG 
TCATTGCTTG TTCTACATTT CCCCCGCCTG CGCATTGTCT GGTCTCGCAG TTTGCATGCA 
ACCGCAGAGA TATTTGCTTC ACTCAAGGCC AATCAGGATG AGCCTGATGA AGCAAAGGCA 
ATCAGGGTGG GTGTCCCCTC CGAAGAGGGT ATCGTGGAGA ATGATGTGAG AGCTGAAAAT 
TACAACACTA GTGCGGTGGA GTTGTTGAGA CGGCTGCCGG GTGTAACAGA CTCTAACTAT 
AGGGCTATAA TGGATGGGTG TAAAAGCTTG GCAGAACTTG CCCTTCTTCC TGTAGAGAAG 
CTAGCTGAAT TAATGGGAGG TCATAAAGCT GCAAGGACCC TGAGGGAGTT TCTGGATGCC 
AAGTATCCAA CCTTGCTATA G

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

RefSeq	XP_010647232.1
CDS	55..3015
Translation	MVQFHEHIITELLEDSNGGLVVLSSGLCLPKLISSLLLLHHPSQGSLLLLSSSPSQKQLILYHLDANPNPNPNLPSEITADLPAHHRHSLYTSGSVFFITSRILIVDLLTSRVPTSGIAGLIILNAHSLSETCTEAFIVRIIRSLNPAAYVRAFSDKPHAMVSGFAKAERIMKCLFLRRLHLWPRFQVHVSQELERCPPVVVDIRVPMTAHMQGIQKAIVEVLDACLKEMRKTNKVDVDDLTVENGLFKSFDEIVRRQLDPIWHTLGKKTKQLVSDLKTLRKLLDYLVRYDAVSYLKYLDSLRASENIRSVWIFAESSYKIFEYAKKRVYHFVRSDGGKLGGQNKSVTNKKRKLNNNKNEANGDSVLVGTNGGVVLEEVLEESPKWKVLREVLKEIEEEREQQASSREDASAEGDEDDSGIVLVACKDERSCMQLEDFIKSDPQKVMREEWEKYLLSKVELQGLQTRKKNKAKEPKGFGILNGEVPSTSGQNTEPTSISKLEHDALMAAASVISLAKKDTAVSDNSQPHIGSGGRGKGRGKGRNIKITGKAQVSGHKVNNSNSEQGRNDKSEVFGSENDSQGKEIDPVSSGDFNENKDKGASVDKGVLQKHCQETDAPSFSNAKQLPLVHFYALESEKSNILDVLKPSIVIVYHPDMTFVREIEIYKTENPSKKLKVYFLFYEDSTEVQKFEASIRRENGAFESLIRQKSLMMIPVDQDVRGLGLNSSIEPQAITSQNSITRKAGGRKEVEKEIQVIVDMREFMSSLPNVLHQKGMRIIPVTLEVGDYILSPLICVERKSIQDLFGSFASGRLYHQVETMVRYYRIPVLLIEFSQDKSFSFQSASEIGDDVTPNSIISKLSLLVLHFPRLRIVWSRSLHATAEIFASLKANQDEPDEAKAIRVGVPSEEGIVENDVRAENYNTSAVELLRRLPGVTDSNYRAIMDGCKSLAELALLPVEKLAELMGGHKAARTLREFLDAKYPTLL

Target ORF information:

RefSeq Version	XM_010648930.2
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera DNA repair endonuclease UVH1 (LOC100247853), transcript variant X3, mRNA.

Target ORF information:

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

XM_010648930.2

ORF Insert Sequence:

ATGGTGCAGT TCCACGAACA CATCATCACA GAGCTTCTCG AAGACTCCAA TGGCGGACTG 
GTGGTGCTCT CCTCAGGCCT CTGCCTCCCC AAGCTAATCT CCTCTCTCCT CCTCCTCCAC 
CATCCTTCCC AAGGTTCGCT TCTCCTCCTC TCCTCTTCCC CTTCTCAAAA GCAACTCATC 
CTTTACCACC TCGACGCTAA CCCTAACCCT AACCCTAATC TTCCCTCCGA GATTACTGCC 
GATCTTCCGG CGCACCACCG CCACTCTCTC TACACGTCTG GCTCTGTTTT TTTCATCACT 
TCTCGGATTC TTATCGTTGA TCTTCTAACT TCTAGGGTTC CGACTTCGGG CATTGCCGGC 
CTCATTATTC TCAATGCTCA CTCTCTATCC GAGACATGTA CAGAGGCCTT TATTGTGCGA 
ATTATCCGAT CTCTCAATCC GGCAGCGTAC GTTCGGGCGT TTTCGGATAA GCCGCACGCG 
ATGGTGTCGG GGTTCGCGAA GGCGGAGAGG ATAATGAAGT GTTTGTTCTT GAGGAGGTTG 
CATCTGTGGC CGAGGTTTCA GGTGCATGTG TCGCAGGAGT TGGAGAGGTG TCCGCCGGTG 
GTGGTCGACA TTAGGGTTCC GATGACGGCG CACATGCAGG GGATTCAGAA GGCAATTGTT 
GAGGTTTTGG ATGCGTGTCT GAAGGAGATG AGGAAGACGA ATAAGGTGGA TGTGGATGAT 
CTGACGGTGG AGAATGGGCT GTTTAAGTCG TTTGATGAGA TTGTGAGGCG GCAATTGGAT 
CCCATTTGGC ATACGCTTGG GAAGAAGACC AAGCAGCTGG TTTCGGATTT GAAAACTCTG 
AGGAAATTGT TGGATTATCT TGTTAGGTAC GATGCAGTTT CTTATTTGAA GTATTTGGAT 
TCACTAAGAG CATCAGAGAA TATTAGGTCT GTTTGGATAT TTGCAGAGTC GAGCTATAAG 
ATTTTTGAGT ATGCAAAAAA ACGGGTCTAT CATTTTGTGA GGTCAGATGG TGGGAAATTG 
GGTGGGCAGA ATAAGAGTGT GACAAACAAA AAGAGAAAGT TGAACAACAA TAAGAATGAA 
GCAAATGGTG ATTCGGTGCT GGTAGGCACA AACGGTGGAG TAGTTCTGGA GGAAGTGCTA 
GAGGAATCAC CAAAGTGGAA GGTGTTACGT GAGGTTCTTA AAGAGATAGA AGAGGAAAGA 
GAACAGCAAG CTTCTTCAAG AGAAGATGCT TCAGCCGAAG GTGATGAGGA TGATAGTGGC 
ATTGTTTTAG TGGCTTGCAA AGATGAACGC TCATGCATGC AACTTGAAGA TTTCATCAAG 
AGTGATCCAC AGAAGGTCAT GCGTGAAGAG TGGGAAAAGT ATTTGCTAAG CAAAGTGGAG 
TTGCAGGGGT TACAAACACG TAAGAAAAAT AAAGCAAAAG AACCTAAAGG GTTTGGGATA 
CTTAATGGAG AGGTTCCTTC TACATCTGGA CAGAATACAG AACCTACCAG CATAAGCAAG 
CTGGAACATG ATGCGCTGAT GGCTGCAGCA TCAGTAATAA GTTTAGCCAA AAAGGATACT 
GCTGTTAGTG ATAATTCACA ACCTCATATT GGCAGTGGGG GGCGGGGAAA AGGAAGGGGT 
AAAGGAAGAA ATATAAAAAT CACAGGAAAA GCTCAGGTTT CTGGGCACAA AGTTAACAAT 
AGTAATAGTG AGCAAGGAAG AAATGACAAA TCTGAAGTAT TTGGTTCAGA AAATGATAGC 
CAGGGAAAAG AAATTGATCC AGTGAGTTCT GGTGATTTCA ATGAAAACAA AGATAAAGGT 
GCATCTGTGG ATAAAGGAGT TCTTCAGAAG CATTGTCAAG AGACTGATGC TCCATCATTC 
AGCAATGCTA AGCAACTACC ACTGGTGCAC TTTTATGCCC TAGAAAGTGA AAAGAGCAAT 
ATACTTGATG TTTTGAAGCC TTCTATAGTT ATTGTTTACC ATCCAGACAT GACTTTTGTC 
AGGGAAATTG AAATATATAA AACTGAAAAT CCCTCAAAAA AATTGAAAGT TTATTTTCTG 
TTTTATGAAG ATTCCACTGA GGTGCAAAAG TTTGAGGCAA GCATACGCAG GGAAAATGGA 
GCATTTGAAT CTTTGATTAG GCAGAAATCA TTGATGATGA TCCCTGTTGA TCAGGATGTG 
CGTGGCCTGG GATTGAATTC TTCCATTGAA CCACAAGCTA TAACTTCCCA AAACTCAATA 
ACCAGAAAGG CTGGTGGAAG AAAGGAAGTG GAGAAAGAAA TCCAGGTCAT AGTTGATATG 
AGGGAGTTCA TGAGCAGCCT TCCAAATGTT CTTCACCAGA AGGGCATGCG CATTATACCA 
GTTACCTTGG AAGTTGGGGA TTATATCCTC TCTCCTCTAA TTTGCGTAGA GAGGAAGAGT 
ATCCAAGATC TTTTTGGAAG CTTTGCATCA GGCCGCCTAT ACCATCAAGT TGAAACCATG 
GTACGGTATT ATAGAATACC AGTGCTTCTG ATTGAATTTT CACAAGACAA AAGCTTTTCG 
TTTCAGTCTG CAAGTGAAAT TGGTGATGAC GTCACACCAA ATAGTATTAT TTCCAAGCTG 
TCATTGCTTG TTCTACATTT CCCCCGCCTG CGCATTGTCT GGTCTCGCAG TTTGCATGCA 
ACCGCAGAGA TATTTGCTTC ACTCAAGGCC AATCAGGATG AGCCTGATGA AGCAAAGGCA 
ATCAGGGTGG GTGTCCCCTC CGAAGAGGGT ATCGTGGAGA ATGATGTGAG AGCTGAAAAT 
TACAACACTA GTGCGGTGGA GTTGTTGAGA CGGCTGCCGG GTGTAACAGA CTCTAACTAT 
AGGGCTATAA TGGATGGGTG TAAAAGCTTG GCAGAACTTG CCCTTCTTCC TGTAGAGAAG 
CTAGCTGAAT TAATGGGAGG TCATAAAGCT GCAAGGACCC TGAGGGAGTT TCTGGATGCC 
AAGTATCCAA CCTTGCTATA G

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

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LOC100247853 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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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