LOC100243179 cDNA ORF clone, Vitis vinifera(wine grape)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC100243179
Entrez Gene ID	100243179
Full Name	TMV resistance protein N
Gene Type	protein-coding
Organism	Vitis vinifera(wine grape)
Genome	Chromosome: 18 Map Location: 18\|18

mRNA and Protein(s)

mRNA	Protein	Name
XM_019216682.1	XP_019072227.1	TMV resistance protein N isoform X2
XM_010667018.2	XP_010665320.1	TMV resistance protein N isoform X1

Pathways from BioSystems
Gene Ontology

The following LOC100243179 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100243179 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
OVa23977	XM_010667018.2 Latest version!	Vitis vinifera TMV resistance protein N (LOC100243179), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OVa43574	XM_019216682.1 Latest version!	Vitis vinifera TMV resistance protein N (LOC100243179), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
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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)

LOC100243179 ( XM_010667018.2 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_010665320.1 Vitis vinifera TMV resistance protein N (LOC100243179), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OVa23977
Clone ID Related Accession (Same CDS sequence)	XM_010667018.2
Accession Version	XM_010667018.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4083bp) 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	TMV resistance protein N isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_012024.3) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Nov 22, 2016 this sequence version replaced XM_010667018.1. ##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##

ATGAAAAAAG AGGGGAAAAA AACAAACATG ACTTCTGCAA ACACCCAAAT CGTCTCTTAT 
TCTCCTTCTT CTTCTTCGAA ATCCACCCAT CAATTCACTT ATGAAGTCTT CTTGAGTTTC 
AGGGGAGAAG ACACCCGCTA TGGTTTCACC GATCATCTTT ATGAGGCTTT CATTTCCCAT 
GGAATTCGCA CCTTTAGGGA TGACGAAGAA CTTGAGAGAG GAGGAATGAT CGCGTCTGAC 
ATCCTGAATG CTATCGAAGA ATCAAAGATT TTTGTTATCA TTTTTTCGGA AAACTATGCT 
ACCTCCAGGT GGTGTCTAGA TGAACTCGTA AGGATCTTCG AGTGTACTGC AACAGAGAAG 
CGACTAATTC TACCAGTTTT CTACCATGTG GATCCATCAG AAGTGGGGGA ACAGTCAGGA 
AGCTATGAAA AAGCATTTGT TGATCACGAA AAAGAAGCAG ATGAGGAGAA AAAGGAGGAG 
ATACAAAAGT GGAGGATTGC CTTGAGAAAA GCAGCCAATC TAGCTGGATA TGATCTACAA 
AAATATGGAT ATGAGACAAG ACTTATTAAG GAAATTATTG ATGTCATCCT CAGAGAATTG 
AATTCCAAAC TCTTACTACA TGTTAGCAAG AACATAGTTG GAATGAATTT TCATTTGAAA 
GAATTGAAAT CATTGATAAA AATTGAGTCA AATGATGTTC GCATGATTGG GATTTATGGG 
CTTGGTGGAA TTGGTAAGAC CACAATCGCC AAAGTTGTTT ATAATAATAT CTCACATCAA 
TTTGAGAGTA GAATCTTCCT TGAAAATGTT AGAGAAAGAT CTAAGGACCA CTCAAGTTTA 
CTTCAATTAC AGAAAGAACT TCTTAATGGT GTCGCGAAGG GAAAATATCT AAAAATAAGT 
AATATTCACG AGGGGGTTAA TGTGATAAGA AACAGATTTC TCTCAAAAAG GGTTCTTCTT 
ATTCTTGATG ATGTAGACAA ATCGGAGCAA TTACAATTCT TAGTTGGAGA GCATGGTTGG 
TTTGGTCCTA GAAGTAGAAT CATCATAACA TCTAGAGATC AACATTTGCT GGAAGAGTAT 
GAAATGGATG CATCATATGA AGTTAAGGTG TTGGATTATG AGGAATCGAT GCAACTTTTT 
TGTCTACATG CCTTTAAACA AAACATTCTT AGAAAAGATT ATGTAGACCT CTCAAATGAT 
GTGGTAAATT ATGTTAATGG CCTGCCCTTA GCTCTTGAAA TTTTGGGTTC TTTCCTTTTC 
AATAAAAGCA AGCTTGAGTG GGAAAGTACA TTACAAAAAC TAAAAAGAAA ACCTAACATG 
AATGTCCAAA ATGTGCTTAA GATAAGTTTT GATGGATTAG ATGAGATAGA GAAAGAGATA 
TTTCTTGATG TGGCATGCTT CTTCAAAGGA TGGAATGAAA CTGATGTTAC AAGGCTGCTT 
GACCATGCAA ATATTGTAAT AAGAGTTCTT AGTGACAAGT GTCTAATAAC ACTTTCACAT 
AATATCATAT GGATGCATGA TTTGGTACAA GAAATGGGTA GAGAAATTGT TCGACAGAAT 
CATCCTAAAG AGCCTGGGAA ATGGAGTAGA TTGTGGGACC CTGAAGACAT TTGCCTTGTA 
TTGAGAAGAA AAATGGGGAC GGAAGCAATT GAAGGGATAT TTCTAGACAT GTCTAGATCA 
AGAGAGATCT CATTTACTAC TGAAGCTTTC AGAAGGATGG AGAGACTTAG ATTATTCAAA 
GTTTATTGGA GTCATGGTTT TGTTAATTAT ATGGGAAAGG AGTATCAAAA GTTCCTCCTT 
CCTGAAGACT TTGAAATTCC GTCACATGAT TTAAGATATC TTCATTGGGA AGGATACTCT 
TTGAAATCCT TGCCCTCAAA TTTTCATGGA GAGAACCTCA TTGAACTCAA CTTGAAGCAT 
AGCAATATAG AGCAGCTTTG GCAAGGGAAA AAGTATCTTG AAGAGTTAAA GATGTTGACT 
TTATCAGAAT CTCAGCTGCT GAACGAAATA CCACATTTCT CAAATATGCC AAATTTGGAG 
CAACTAAATA TTGAACTTTG TGAAAAGTTG GATAAGGTTG ACTCTTCGAT TGGTATCCTG 
AAGAAGCTTA CTTTATTGAA TTTAAGAGGG TGCCAAAAGA TTAGTAGTTT GCCAAGTACC 
ATTCAATACT TGGTTTCTCT TAAAAGGCTT TATTTACATT CTATTGCTAT TGACGAATTG 
CCCTCCTCAA TACATCATCT CACCCAACTT CAAACACTAT CTATTAGAGG ATGCGAAAAT 
TTGAGGAGTC TTCCAAGCAG CATTTGTAGG TTGAAATCCC TTGAAGAACT TGATCTCTAT 
GGTTGTTCAA ACTTAGGGAC TTTTCCAGAA ATCATGGAGA ATATGGAATG GTTAACGGAG 
CTTAATTTAA GTGGCACGCA TGTAAAAGGG CTTCCATCAT CAATTGAATA TCTAAATCAT 
CTCACCCGTT TGGAGTTAAG ATGTTGCAAA AATTTGAGGA GTCTTCCAAG CAGCATTTGG 
AGGTTGAAAT CCCTTGAAGA ACTTGATCTC TTTGGTTGTT CAAACTTGGA GACTTTTCCT 
GAAATCATGG AGGATATGGA ATGCTTAATG GAGCTTAATT TAAGTAGAAC GTGTATAAAA 
GAGCTTCCAC CATCAATTGG ATATCTAAAT CATCTCACCT TTTTGGGGTT ACAATGTTGC 
CAAAATTTGA GGAGTCTTCC AAGCAGCATT TGTAGGTTGA AATCCCTTGA AGAACTTGAT 
CTCTATTATT GTTCAAACTT GGAGATTTTT CCAGAAATCA TGGAGAATAT GGAATGCTTA 
ATTAAGCTTG ATTTAAGTGG AACGCATATA AAAGAGCTTC CATCATCAAT TGAATATCTA 
AATCATTTGA CTTCAATGAG GTTGGTGGAG TCTAAAAACT TAAGGAGTCT TCCAAGCAGT 
ATTTGTAGGT TGAAATTCCT TGAAAAACTT AATCTCTATG GTTGTTCACA CTTGGAGACT 
TTCCCGGAAA TCATGGAGGA TATGGAATGC TTAAAGAAGC TTGATTTAAG TGGAACAAGT 
ATAAAAAAGC TTCCATCATC AATTGGATAT TTAAACCATC TTACTTCTTT TCGTTTGAGT 
TACTGCACAA ACTTAAGGAG TCTTCCAAGC AGCATTGGTG GGTTGAAATC CCTTACAAAA 
CTCTCTCTTA GTGGCCGTCC AAACAGGGTC ACAGAGCAGT TGTTTCTAAG CAAAAACAAT 
ATTCATCACA TACCTTCTGT TATTTCTCAA CTTTGTAATC TGGAATGCCT TGATATTAGT 
CACTGCAAGA TGCTTGAAGA AATTCCAGAC CTTCCATCAA GTCTAAGAGA AATAGATGCA 
CATGGTTGCA CAGGCTTGGG AACTTTATCA AGTCCATCAA GTCTTCTATG GTCTTCTCTC 
CTCAAATGGT TCAAGAAAGT TGAGACTCCT TTTGAATGGG GAAGAATTAA TCTAGGAAGT 
AATGGAATTC CCAGGTGGGT ACTGCATCAG GAAGTGGGAA GCCAAATAAG AATAGAGCTT 
CCTATGAATT GTTATCATGA TGACCACTTC CTTGGATTTG GATTTTTTTG TCTTTATGAA 
CCAGTAGTGG ATTTAAATTT ATCTTTGAGA TTTGATGAAG ATTTAGATGA AAAAGCATAT 
GCTTACAAGG GTGCTTCCTG GTGTGAATGC CACGACATTA ATAGTAGTGA ATCAGATGAA 
GTGTGGGTGG TGTACTGTCC TAAGATTGCT ATTGGGGACA AGTTGCAGTC CAATCAATAT 
AAGCATCTTC ATGCCTCATT TGATGCTTGT ATTATTGATT GTTCGAAGAA TATTAAAAGT 
TGCGGGATCC ATCTTGTATA CTCTCAAGAC TATCAGCAGA ATCATATCTC ATTGTTGGAT 
TTTCGTGGCA CCCAAGATGA TGAAGACAAC CATGTGCCCA TGTTGAATTT TCCTAAGAAT 
TCTGCTGACA ACAGATCAAC AGCAAAAGAC ATTAAGCGAA GCCATGATGA TGCAGTACAT 
GACCAAGCAG AGGAACCATA CCATAAAAGA TTGAGAGAAT CCAACACCTA TCTCAACTTT 
TAA

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

RefSeq	XP_010665320.1
CDS	320..4402
Translation	MKKEGKKTNMTSANTQIVSYSPSSSSKSTHQFTYEVFLSFRGEDTRYGFTDHLYEAFISHGIRTFRDDEELERGGMIASDILNAIEESKIFVIIFSENYATSRWCLDELVRIFECTATEKRLILPVFYHVDPSEVGEQSGSYEKAFVDHEKEADEEKKEEIQKWRIALRKAANLAGYDLQKYGYETRLIKEIIDVILRELNSKLLLHVSKNIVGMNFHLKELKSLIKIESNDVRMIGIYGLGGIGKTTIAKVVYNNISHQFESRIFLENVRERSKDHSSLLQLQKELLNGVAKGKYLKISNIHEGVNVIRNRFLSKRVLLILDDVDKSEQLQFLVGEHGWFGPRSRIIITSRDQHLLEEYEMDASYEVKVLDYEESMQLFCLHAFKQNILRKDYVDLSNDVVNYVNGLPLALEILGSFLFNKSKLEWESTLQKLKRKPNMNVQNVLKISFDGLDEIEKEIFLDVACFFKGWNETDVTRLLDHANIVIRVLSDKCLITLSHNIIWMHDLVQEMGREIVRQNHPKEPGKWSRLWDPEDICLVLRRKMGTEAIEGIFLDMSRSREISFTTEAFRRMERLRLFKVYWSHGFVNYMGKEYQKFLLPEDFEIPSHDLRYLHWEGYSLKSLPSNFHGENLIELNLKHSNIEQLWQGKKYLEELKMLTLSESQLLNEIPHFSNMPNLEQLNIELCEKLDKVDSSIGILKKLTLLNLRGCQKISSLPSTIQYLVSLKRLYLHSIAIDELPSSIHHLTQLQTLSIRGCENLRSLPSSICRLKSLEELDLYGCSNLGTFPEIMENMEWLTELNLSGTHVKGLPSSIEYLNHLTRLELRCCKNLRSLPSSIWRLKSLEELDLFGCSNLETFPEIMEDMECLMELNLSRTCIKELPPSIGYLNHLTFLGLQCCQNLRSLPSSICRLKSLEELDLYYCSNLEIFPEIMENMECLIKLDLSGTHIKELPSSIEYLNHLTSMRLVESKNLRSLPSSICRLKFLEKLNLYGCSHLETFPEIMEDMECLKKLDLSGTSIKKLPSSIGYLNHLTSFRLSYCTNLRSLPSSIGGLKSLTKLSLSGRPNRVTEQLFLSKNNIHHIPSVISQLCNLECLDISHCKMLEEIPDLPSSLREIDAHGCTGLGTLSSPSSLLWSSLLKWFKKVETPFEWGRINLGSNGIPRWVLHQEVGSQIRIELPMNCYHDDHFLGFGFFCLYEPVVDLNLSLRFDEDLDEKAYAYKGASWCECHDINSSESDEVWVVYCPKIAIGDKLQSNQYKHLHASFDACIIDCSKNIKSCGIHLVYSQDYQQNHISLLDFRGTQDDEDNHVPMLNFPKNSADNRSTAKDIKRSHDDAVHDQAEEPYHKRLRESNTYLNF

Target ORF information:

RefSeq Version	XM_010667018.2
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera TMV resistance protein N (LOC100243179), transcript variant X1, mRNA.

Target ORF information:

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

XM_010667018.2

ORF Insert Sequence:

ATGAAAAAAG AGGGGAAAAA AACAAACATG ACTTCTGCAA ACACCCAAAT CGTCTCTTAT 
TCTCCTTCTT CTTCTTCGAA ATCCACCCAT CAATTCACTT ATGAAGTCTT CTTGAGTTTC 
AGGGGAGAAG ACACCCGCTA TGGTTTCACC GATCATCTTT ATGAGGCTTT CATTTCCCAT 
GGAATTCGCA CCTTTAGGGA TGACGAAGAA CTTGAGAGAG GAGGAATGAT CGCGTCTGAC 
ATCCTGAATG CTATCGAAGA ATCAAAGATT TTTGTTATCA TTTTTTCGGA AAACTATGCT 
ACCTCCAGGT GGTGTCTAGA TGAACTCGTA AGGATCTTCG AGTGTACTGC AACAGAGAAG 
CGACTAATTC TACCAGTTTT CTACCATGTG GATCCATCAG AAGTGGGGGA ACAGTCAGGA 
AGCTATGAAA AAGCATTTGT TGATCACGAA AAAGAAGCAG ATGAGGAGAA AAAGGAGGAG 
ATACAAAAGT GGAGGATTGC CTTGAGAAAA GCAGCCAATC TAGCTGGATA TGATCTACAA 
AAATATGGAT ATGAGACAAG ACTTATTAAG GAAATTATTG ATGTCATCCT CAGAGAATTG 
AATTCCAAAC TCTTACTACA TGTTAGCAAG AACATAGTTG GAATGAATTT TCATTTGAAA 
GAATTGAAAT CATTGATAAA AATTGAGTCA AATGATGTTC GCATGATTGG GATTTATGGG 
CTTGGTGGAA TTGGTAAGAC CACAATCGCC AAAGTTGTTT ATAATAATAT CTCACATCAA 
TTTGAGAGTA GAATCTTCCT TGAAAATGTT AGAGAAAGAT CTAAGGACCA CTCAAGTTTA 
CTTCAATTAC AGAAAGAACT TCTTAATGGT GTCGCGAAGG GAAAATATCT AAAAATAAGT 
AATATTCACG AGGGGGTTAA TGTGATAAGA AACAGATTTC TCTCAAAAAG GGTTCTTCTT 
ATTCTTGATG ATGTAGACAA ATCGGAGCAA TTACAATTCT TAGTTGGAGA GCATGGTTGG 
TTTGGTCCTA GAAGTAGAAT CATCATAACA TCTAGAGATC AACATTTGCT GGAAGAGTAT 
GAAATGGATG CATCATATGA AGTTAAGGTG TTGGATTATG AGGAATCGAT GCAACTTTTT 
TGTCTACATG CCTTTAAACA AAACATTCTT AGAAAAGATT ATGTAGACCT CTCAAATGAT 
GTGGTAAATT ATGTTAATGG CCTGCCCTTA GCTCTTGAAA TTTTGGGTTC TTTCCTTTTC 
AATAAAAGCA AGCTTGAGTG GGAAAGTACA TTACAAAAAC TAAAAAGAAA ACCTAACATG 
AATGTCCAAA ATGTGCTTAA GATAAGTTTT GATGGATTAG ATGAGATAGA GAAAGAGATA 
TTTCTTGATG TGGCATGCTT CTTCAAAGGA TGGAATGAAA CTGATGTTAC AAGGCTGCTT 
GACCATGCAA ATATTGTAAT AAGAGTTCTT AGTGACAAGT GTCTAATAAC ACTTTCACAT 
AATATCATAT GGATGCATGA TTTGGTACAA GAAATGGGTA GAGAAATTGT TCGACAGAAT 
CATCCTAAAG AGCCTGGGAA ATGGAGTAGA TTGTGGGACC CTGAAGACAT TTGCCTTGTA 
TTGAGAAGAA AAATGGGGAC GGAAGCAATT GAAGGGATAT TTCTAGACAT GTCTAGATCA 
AGAGAGATCT CATTTACTAC TGAAGCTTTC AGAAGGATGG AGAGACTTAG ATTATTCAAA 
GTTTATTGGA GTCATGGTTT TGTTAATTAT ATGGGAAAGG AGTATCAAAA GTTCCTCCTT 
CCTGAAGACT TTGAAATTCC GTCACATGAT TTAAGATATC TTCATTGGGA AGGATACTCT 
TTGAAATCCT TGCCCTCAAA TTTTCATGGA GAGAACCTCA TTGAACTCAA CTTGAAGCAT 
AGCAATATAG AGCAGCTTTG GCAAGGGAAA AAGTATCTTG AAGAGTTAAA GATGTTGACT 
TTATCAGAAT CTCAGCTGCT GAACGAAATA CCACATTTCT CAAATATGCC AAATTTGGAG 
CAACTAAATA TTGAACTTTG TGAAAAGTTG GATAAGGTTG ACTCTTCGAT TGGTATCCTG 
AAGAAGCTTA CTTTATTGAA TTTAAGAGGG TGCCAAAAGA TTAGTAGTTT GCCAAGTACC 
ATTCAATACT TGGTTTCTCT TAAAAGGCTT TATTTACATT CTATTGCTAT TGACGAATTG 
CCCTCCTCAA TACATCATCT CACCCAACTT CAAACACTAT CTATTAGAGG ATGCGAAAAT 
TTGAGGAGTC TTCCAAGCAG CATTTGTAGG TTGAAATCCC TTGAAGAACT TGATCTCTAT 
GGTTGTTCAA ACTTAGGGAC TTTTCCAGAA ATCATGGAGA ATATGGAATG GTTAACGGAG 
CTTAATTTAA GTGGCACGCA TGTAAAAGGG CTTCCATCAT CAATTGAATA TCTAAATCAT 
CTCACCCGTT TGGAGTTAAG ATGTTGCAAA AATTTGAGGA GTCTTCCAAG CAGCATTTGG 
AGGTTGAAAT CCCTTGAAGA ACTTGATCTC TTTGGTTGTT CAAACTTGGA GACTTTTCCT 
GAAATCATGG AGGATATGGA ATGCTTAATG GAGCTTAATT TAAGTAGAAC GTGTATAAAA 
GAGCTTCCAC CATCAATTGG ATATCTAAAT CATCTCACCT TTTTGGGGTT ACAATGTTGC 
CAAAATTTGA GGAGTCTTCC AAGCAGCATT TGTAGGTTGA AATCCCTTGA AGAACTTGAT 
CTCTATTATT GTTCAAACTT GGAGATTTTT CCAGAAATCA TGGAGAATAT GGAATGCTTA 
ATTAAGCTTG ATTTAAGTGG AACGCATATA AAAGAGCTTC CATCATCAAT TGAATATCTA 
AATCATTTGA CTTCAATGAG GTTGGTGGAG TCTAAAAACT TAAGGAGTCT TCCAAGCAGT 
ATTTGTAGGT TGAAATTCCT TGAAAAACTT AATCTCTATG GTTGTTCACA CTTGGAGACT 
TTCCCGGAAA TCATGGAGGA TATGGAATGC TTAAAGAAGC TTGATTTAAG TGGAACAAGT 
ATAAAAAAGC TTCCATCATC AATTGGATAT TTAAACCATC TTACTTCTTT TCGTTTGAGT 
TACTGCACAA ACTTAAGGAG TCTTCCAAGC AGCATTGGTG GGTTGAAATC CCTTACAAAA 
CTCTCTCTTA GTGGCCGTCC AAACAGGGTC ACAGAGCAGT TGTTTCTAAG CAAAAACAAT 
ATTCATCACA TACCTTCTGT TATTTCTCAA CTTTGTAATC TGGAATGCCT TGATATTAGT 
CACTGCAAGA TGCTTGAAGA AATTCCAGAC CTTCCATCAA GTCTAAGAGA AATAGATGCA 
CATGGTTGCA CAGGCTTGGG AACTTTATCA AGTCCATCAA GTCTTCTATG GTCTTCTCTC 
CTCAAATGGT TCAAGAAAGT TGAGACTCCT TTTGAATGGG GAAGAATTAA TCTAGGAAGT 
AATGGAATTC CCAGGTGGGT ACTGCATCAG GAAGTGGGAA GCCAAATAAG AATAGAGCTT 
CCTATGAATT GTTATCATGA TGACCACTTC CTTGGATTTG GATTTTTTTG TCTTTATGAA 
CCAGTAGTGG ATTTAAATTT ATCTTTGAGA TTTGATGAAG ATTTAGATGA AAAAGCATAT 
GCTTACAAGG GTGCTTCCTG GTGTGAATGC CACGACATTA ATAGTAGTGA ATCAGATGAA 
GTGTGGGTGG TGTACTGTCC TAAGATTGCT ATTGGGGACA AGTTGCAGTC CAATCAATAT 
AAGCATCTTC ATGCCTCATT TGATGCTTGT ATTATTGATT GTTCGAAGAA TATTAAAAGT 
TGCGGGATCC ATCTTGTATA CTCTCAAGAC TATCAGCAGA ATCATATCTC ATTGTTGGAT 
TTTCGTGGCA CCCAAGATGA TGAAGACAAC CATGTGCCCA TGTTGAATTT TCCTAAGAAT 
TCTGCTGACA ACAGATCAAC AGCAAAAGAC ATTAAGCGAA GCCATGATGA TGCAGTACAT 
GACCAAGCAG AGGAACCATA CCATAAAAGA TTGAGAGAAT CCAACACCTA TCTCAACTTT 
TAA

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

LOC100243179 ( XM_019216682.1 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_019072227.1 Vitis vinifera TMV resistance protein N (LOC100243179), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OVa43574
Clone ID Related Accession (Same CDS sequence)	XM_019216682.1
Accession Version	XM_019216682.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3657bp) 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	TMV resistance protein N isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_012024.3) 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##

ATGAAAAAAG AGGGGAAAAA AACAAACATG ACTTCTGCAA ACACCCAAAT CGTCTCTTAT 
TCTCCTTCTT CTTCTTCGAA ATCCACCCAT CAATTCACTT ATGAAGTCTT CTTGAGTTTC 
AGGGGAGAAG ACACCCGCTA TGGTTTCACC GATCATCTTT ATGAGGCTTT CATTTCCCAT 
GGAATTCGCA CCTTTAGGGA TGACGAAGAA CTTGAGAGAG GAGGAATGAT CGCGTCTGAC 
ATCCTGAATG CTATCGAAGA ATCAAAGATT TTTGTTATCA TTTTTTCGGA AAACTATGCT 
ACCTCCAGGT GGTGTCTAGA TGAACTCGTA AGGATCTTCG AGTGTACTGC AACAGAGAAG 
CGACTAATTC TACCAGTTTT CTACCATGTG GATCCATCAG AAGTGGGGGA ACAGTCAGGA 
AGCTATGAAA AAGCATTTGT TGATCACGAA AAAGAAGCAG ATGAGGAGAA AAAGGAGGAG 
ATACAAAAGT GGAGGATTGC CTTGAGAAAA GCAGCCAATC TAGCTGGATA TGATCTACAA 
AAATATGGAT ATGAGACAAG ACTTATTAAG GAAATTATTG ATGTCATCCT CAGAGAATTG 
AATTCCAAAC TCTTACTACA TGTTAGCAAG AACATAGTTG GAATGAATTT TCATTTGAAA 
GAATTGAAAT CATTGATAAA AATTGAGTCA AATGATGTTC GCATGATTGG GATTTATGGG 
CTTGGTGGAA TTGGTAAGAC CACAATCGCC AAAGTTGTTT ATAATAATAT CTCACATCAA 
TTTGAGAGTA GAATCTTCCT TGAAAATGTT AGAGAAAGAT CTAAGGACCA CTCAAGTTTA 
CTTCAATTAC AGAAAGAACT TCTTAATGGT GTCGCGAAGG GAAAATATCT AAAAATAAGT 
AATATTCACG AGGGGGTTAA TGTGATAAGA AACAGATTTC TCTCAAAAAG GGTTCTTCTT 
ATTCTTGATG ATGTAGACAA ATCGGAGCAA TTACAATTCT TAGTTGGAGA GCATGGTTGG 
TTTGGTCCTA GAAGTAGAAT CATCATAACA TCTAGAGATC AACATTTGCT GGAAGAGTAT 
GAAATGGATG CATCATATGA AGTTAAGGTG TTGGATTATG AGGAATCGAT GCAACTTTTT 
TGTCTACATG CCTTTAAACA AAACATTCTT AGAAAAGATT ATGTAGACCT CTCAAATGAT 
GTGGTAAATT ATGTTAATGG CCTGCCCTTA GCTCTTGAAA TTTTGGGTTC TTTCCTTTTC 
AATAAAAGCA AGCTTGAGTG GGAAAGTACA TTACAAAAAC TAAAAAGAAA ACCTAACATG 
AATGTCCAAA ATGTGCTTAA GATAAGTTTT GATGGATTAG ATGAGATAGA GAAAGAGATA 
TTTCTTGATG TGGCATGCTT CTTCAAAGGA TGGAATGAAA CTGATGTTAC AAGGCTGCTT 
GACCATGCAA ATATTGTAAT AAGAGTTCTT AGTGACAAGT GTCTAATAAC ACTTTCACAT 
AATATCATAT GGATGCATGA TTTGGTACAA GAAATGGGTA GAGAAATTGT TCGACAGAAT 
CATCCTAAAG AGCCTGGGAA ATGGAGTAGA TTGTGGGACC CTGAAGACAT TTGCCTTGTA 
TTGAGAAGAA AAATGGGGAC GGAAGCAATT GAAGGGATAT TTCTAGACAT GTCTAGATCA 
AGAGAGATCT CATTTACTAC TGAAGCTTTC AGAAGGATGG AGAGACTTAG ATTATTCAAA 
GTTTATTGGA GTCATGGTTT TGTTAATTAT ATGGGAAAGG AGTATCAAAA GTTCCTCCTT 
CCTGAAGACT TTGAAATTCC GTCACATGAT TTAAGATATC TTCATTGGGA AGGATACTCT 
TTGAAATCCT TGCCCTCAAA TTTTCATGGA GAGAACCTCA TTGAACTCAA CTTGAAGCAT 
AGCAATATAG AGCAGCTTTG GCAAGGGAAA AAGTATCTTG AAGAGTTAAA GATGTTGACT 
TTATCAGAAT CTCAGCTGCT GAACGAAATA CCACATTTCT CAAATATGCC AAATTTGGAG 
CAACTAAATA TTGAACTTTG TGAAAAGTTG GATAAGGTTG ACTCTTCGAT TGGTATCCTG 
AAGAAGCTTA CTTTATTGAA TTTAAGAGGG TGCCAAAAGA TTAGTAGTTT GCCAAGTACC 
ATTCAATACT TGGTTTCTCT TAAAAGGCTT TATTTACATT CTATTGCTAT TGACGAATTG 
CCCTCCTCAA TACATCATCT CACCCAACTT CAAACACTAT CTATTAGAGG ATGCGAAAAT 
TTGAGGAGTC TTCCAAGCAG CATTTGTAGG TTGAAATCCC TTGAAGAACT TGATCTCTAT 
TATTGTTCAA ACTTGGAGAT TTTTCCAGAA ATCATGGAGA ATATGGAATG CTTAATTAAG 
CTTGATTTAA GTGGAACGCA TATAAAAGAG CTTCCATCAT CAATTGAATA TCTAAATCAT 
TTGACTTCAA TGAGGTTGGT GGAGTCTAAA AACTTAAGGA GTCTTCCAAG CAGTATTTGT 
AGGTTGAAAT TCCTTGAAAA ACTTAATCTC TATGGTTGTT CACACTTGGA GACTTTCCCG 
GAAATCATGG AGGATATGGA ATGCTTAAAG AAGCTTGATT TAAGTGGAAC AAGTATAAAA 
AAGCTTCCAT CATCAATTGG ATATTTAAAC CATCTTACTT CTTTTCGTTT GAGTTACTGC 
ACAAACTTAA GGAGTCTTCC AAGCAGCATT GGTGGGTTGA AATCCCTTAC AAAACTCTCT 
CTTAGTGGCC GTCCAAACAG GGTCACAGAG CAGTTGTTTC TAAGCAAAAA CAATATTCAT 
CACATACCTT CTGTTATTTC TCAACTTTGT AATCTGGAAT GCCTTGATAT TAGTCACTGC 
AAGATGCTTG AAGAAATTCC AGACCTTCCA TCAAGTCTAA GAGAAATAGA TGCACATGGT 
TGCACAGGCT TGGGAACTTT ATCAAGTCCA TCAAGTCTTC TATGGTCTTC TCTCCTCAAA 
TGGTTCAAGA AAGTTGAGAC TCCTTTTGAA TGGGGAAGAA TTAATCTAGG AAGTAATGGA 
ATTCCCAGGT GGGTACTGCA TCAGGAAGTG GGAAGCCAAA TAAGAATAGA GCTTCCTATG 
AATTGTTATC ATGATGACCA CTTCCTTGGA TTTGGATTTT TTTGTCTTTA TGAACCAGTA 
GTGGATTTAA ATTTATCTTT GAGATTTGAT GAAGATTTAG ATGAAAAAGC ATATGCTTAC 
AAGGGTGCTT CCTGGTGTGA ATGCCACGAC ATTAATAGTA GTGAATCAGA TGAAGTGTGG 
GTGGTGTACT GTCCTAAGAT TGCTATTGGG GACAAGTTGC AGTCCAATCA ATATAAGCAT 
CTTCATGCCT CATTTGATGC TTGTATTATT GATTGTTCGA AGAATATTAA AAGTTGCGGG 
ATCCATCTTG TATACTCTCA AGACTATCAG CAGAATCATA TCTCATTGTT GGATTTTCGT 
GGCACCCAAG ATGATGAAGA CAACCATGTG CCCATGTTGA ATTTTCCTAA GAATTCTGCT 
GACAACAGAT CAACAGCAAA AGACATTAAG CGAAGCCATG ATGATGCAGT ACATGACCAA 
GCAGAGGAAC CATACCATAA AAGATTGAGA GAATCCAACA CCTATCTCAA CTTTTAA

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

RefSeq	XP_019072227.1
CDS	320..3976
Translation	MKKEGKKTNMTSANTQIVSYSPSSSSKSTHQFTYEVFLSFRGEDTRYGFTDHLYEAFISHGIRTFRDDEELERGGMIASDILNAIEESKIFVIIFSENYATSRWCLDELVRIFECTATEKRLILPVFYHVDPSEVGEQSGSYEKAFVDHEKEADEEKKEEIQKWRIALRKAANLAGYDLQKYGYETRLIKEIIDVILRELNSKLLLHVSKNIVGMNFHLKELKSLIKIESNDVRMIGIYGLGGIGKTTIAKVVYNNISHQFESRIFLENVRERSKDHSSLLQLQKELLNGVAKGKYLKISNIHEGVNVIRNRFLSKRVLLILDDVDKSEQLQFLVGEHGWFGPRSRIIITSRDQHLLEEYEMDASYEVKVLDYEESMQLFCLHAFKQNILRKDYVDLSNDVVNYVNGLPLALEILGSFLFNKSKLEWESTLQKLKRKPNMNVQNVLKISFDGLDEIEKEIFLDVACFFKGWNETDVTRLLDHANIVIRVLSDKCLITLSHNIIWMHDLVQEMGREIVRQNHPKEPGKWSRLWDPEDICLVLRRKMGTEAIEGIFLDMSRSREISFTTEAFRRMERLRLFKVYWSHGFVNYMGKEYQKFLLPEDFEIPSHDLRYLHWEGYSLKSLPSNFHGENLIELNLKHSNIEQLWQGKKYLEELKMLTLSESQLLNEIPHFSNMPNLEQLNIELCEKLDKVDSSIGILKKLTLLNLRGCQKISSLPSTIQYLVSLKRLYLHSIAIDELPSSIHHLTQLQTLSIRGCENLRSLPSSICRLKSLEELDLYYCSNLEIFPEIMENMECLIKLDLSGTHIKELPSSIEYLNHLTSMRLVESKNLRSLPSSICRLKFLEKLNLYGCSHLETFPEIMEDMECLKKLDLSGTSIKKLPSSIGYLNHLTSFRLSYCTNLRSLPSSIGGLKSLTKLSLSGRPNRVTEQLFLSKNNIHHIPSVISQLCNLECLDISHCKMLEEIPDLPSSLREIDAHGCTGLGTLSSPSSLLWSSLLKWFKKVETPFEWGRINLGSNGIPRWVLHQEVGSQIRIELPMNCYHDDHFLGFGFFCLYEPVVDLNLSLRFDEDLDEKAYAYKGASWCECHDINSSESDEVWVVYCPKIAIGDKLQSNQYKHLHASFDACIIDCSKNIKSCGIHLVYSQDYQQNHISLLDFRGTQDDEDNHVPMLNFPKNSADNRSTAKDIKRSHDDAVHDQAEEPYHKRLRESNTYLNF

Target ORF information:

RefSeq Version	XM_019216682.1
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera TMV resistance protein N (LOC100243179), transcript variant X4, mRNA.

Target ORF information:

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

XM_019216682.1

ORF Insert Sequence:

ATGAAAAAAG AGGGGAAAAA AACAAACATG ACTTCTGCAA ACACCCAAAT CGTCTCTTAT 
TCTCCTTCTT CTTCTTCGAA ATCCACCCAT CAATTCACTT ATGAAGTCTT CTTGAGTTTC 
AGGGGAGAAG ACACCCGCTA TGGTTTCACC GATCATCTTT ATGAGGCTTT CATTTCCCAT 
GGAATTCGCA CCTTTAGGGA TGACGAAGAA CTTGAGAGAG GAGGAATGAT CGCGTCTGAC 
ATCCTGAATG CTATCGAAGA ATCAAAGATT TTTGTTATCA TTTTTTCGGA AAACTATGCT 
ACCTCCAGGT GGTGTCTAGA TGAACTCGTA AGGATCTTCG AGTGTACTGC AACAGAGAAG 
CGACTAATTC TACCAGTTTT CTACCATGTG GATCCATCAG AAGTGGGGGA ACAGTCAGGA 
AGCTATGAAA AAGCATTTGT TGATCACGAA AAAGAAGCAG ATGAGGAGAA AAAGGAGGAG 
ATACAAAAGT GGAGGATTGC CTTGAGAAAA GCAGCCAATC TAGCTGGATA TGATCTACAA 
AAATATGGAT ATGAGACAAG ACTTATTAAG GAAATTATTG ATGTCATCCT CAGAGAATTG 
AATTCCAAAC TCTTACTACA TGTTAGCAAG AACATAGTTG GAATGAATTT TCATTTGAAA 
GAATTGAAAT CATTGATAAA AATTGAGTCA AATGATGTTC GCATGATTGG GATTTATGGG 
CTTGGTGGAA TTGGTAAGAC CACAATCGCC AAAGTTGTTT ATAATAATAT CTCACATCAA 
TTTGAGAGTA GAATCTTCCT TGAAAATGTT AGAGAAAGAT CTAAGGACCA CTCAAGTTTA 
CTTCAATTAC AGAAAGAACT TCTTAATGGT GTCGCGAAGG GAAAATATCT AAAAATAAGT 
AATATTCACG AGGGGGTTAA TGTGATAAGA AACAGATTTC TCTCAAAAAG GGTTCTTCTT 
ATTCTTGATG ATGTAGACAA ATCGGAGCAA TTACAATTCT TAGTTGGAGA GCATGGTTGG 
TTTGGTCCTA GAAGTAGAAT CATCATAACA TCTAGAGATC AACATTTGCT GGAAGAGTAT 
GAAATGGATG CATCATATGA AGTTAAGGTG TTGGATTATG AGGAATCGAT GCAACTTTTT 
TGTCTACATG CCTTTAAACA AAACATTCTT AGAAAAGATT ATGTAGACCT CTCAAATGAT 
GTGGTAAATT ATGTTAATGG CCTGCCCTTA GCTCTTGAAA TTTTGGGTTC TTTCCTTTTC 
AATAAAAGCA AGCTTGAGTG GGAAAGTACA TTACAAAAAC TAAAAAGAAA ACCTAACATG 
AATGTCCAAA ATGTGCTTAA GATAAGTTTT GATGGATTAG ATGAGATAGA GAAAGAGATA 
TTTCTTGATG TGGCATGCTT CTTCAAAGGA TGGAATGAAA CTGATGTTAC AAGGCTGCTT 
GACCATGCAA ATATTGTAAT AAGAGTTCTT AGTGACAAGT GTCTAATAAC ACTTTCACAT 
AATATCATAT GGATGCATGA TTTGGTACAA GAAATGGGTA GAGAAATTGT TCGACAGAAT 
CATCCTAAAG AGCCTGGGAA ATGGAGTAGA TTGTGGGACC CTGAAGACAT TTGCCTTGTA 
TTGAGAAGAA AAATGGGGAC GGAAGCAATT GAAGGGATAT TTCTAGACAT GTCTAGATCA 
AGAGAGATCT CATTTACTAC TGAAGCTTTC AGAAGGATGG AGAGACTTAG ATTATTCAAA 
GTTTATTGGA GTCATGGTTT TGTTAATTAT ATGGGAAAGG AGTATCAAAA GTTCCTCCTT 
CCTGAAGACT TTGAAATTCC GTCACATGAT TTAAGATATC TTCATTGGGA AGGATACTCT 
TTGAAATCCT TGCCCTCAAA TTTTCATGGA GAGAACCTCA TTGAACTCAA CTTGAAGCAT 
AGCAATATAG AGCAGCTTTG GCAAGGGAAA AAGTATCTTG AAGAGTTAAA GATGTTGACT 
TTATCAGAAT CTCAGCTGCT GAACGAAATA CCACATTTCT CAAATATGCC AAATTTGGAG 
CAACTAAATA TTGAACTTTG TGAAAAGTTG GATAAGGTTG ACTCTTCGAT TGGTATCCTG 
AAGAAGCTTA CTTTATTGAA TTTAAGAGGG TGCCAAAAGA TTAGTAGTTT GCCAAGTACC 
ATTCAATACT TGGTTTCTCT TAAAAGGCTT TATTTACATT CTATTGCTAT TGACGAATTG 
CCCTCCTCAA TACATCATCT CACCCAACTT CAAACACTAT CTATTAGAGG ATGCGAAAAT 
TTGAGGAGTC TTCCAAGCAG CATTTGTAGG TTGAAATCCC TTGAAGAACT TGATCTCTAT 
TATTGTTCAA ACTTGGAGAT TTTTCCAGAA ATCATGGAGA ATATGGAATG CTTAATTAAG 
CTTGATTTAA GTGGAACGCA TATAAAAGAG CTTCCATCAT CAATTGAATA TCTAAATCAT 
TTGACTTCAA TGAGGTTGGT GGAGTCTAAA AACTTAAGGA GTCTTCCAAG CAGTATTTGT 
AGGTTGAAAT TCCTTGAAAA ACTTAATCTC TATGGTTGTT CACACTTGGA GACTTTCCCG 
GAAATCATGG AGGATATGGA ATGCTTAAAG AAGCTTGATT TAAGTGGAAC AAGTATAAAA 
AAGCTTCCAT CATCAATTGG ATATTTAAAC CATCTTACTT CTTTTCGTTT GAGTTACTGC 
ACAAACTTAA GGAGTCTTCC AAGCAGCATT GGTGGGTTGA AATCCCTTAC AAAACTCTCT 
CTTAGTGGCC GTCCAAACAG GGTCACAGAG CAGTTGTTTC TAAGCAAAAA CAATATTCAT 
CACATACCTT CTGTTATTTC TCAACTTTGT AATCTGGAAT GCCTTGATAT TAGTCACTGC 
AAGATGCTTG AAGAAATTCC AGACCTTCCA TCAAGTCTAA GAGAAATAGA TGCACATGGT 
TGCACAGGCT TGGGAACTTT ATCAAGTCCA TCAAGTCTTC TATGGTCTTC TCTCCTCAAA 
TGGTTCAAGA AAGTTGAGAC TCCTTTTGAA TGGGGAAGAA TTAATCTAGG AAGTAATGGA 
ATTCCCAGGT GGGTACTGCA TCAGGAAGTG GGAAGCCAAA TAAGAATAGA GCTTCCTATG 
AATTGTTATC ATGATGACCA CTTCCTTGGA TTTGGATTTT TTTGTCTTTA TGAACCAGTA 
GTGGATTTAA ATTTATCTTT GAGATTTGAT GAAGATTTAG ATGAAAAAGC ATATGCTTAC 
AAGGGTGCTT CCTGGTGTGA ATGCCACGAC ATTAATAGTA GTGAATCAGA TGAAGTGTGG 
GTGGTGTACT GTCCTAAGAT TGCTATTGGG GACAAGTTGC AGTCCAATCA ATATAAGCAT 
CTTCATGCCT CATTTGATGC TTGTATTATT GATTGTTCGA AGAATATTAA AAGTTGCGGG 
ATCCATCTTG TATACTCTCA AGACTATCAG CAGAATCATA TCTCATTGTT GGATTTTCGT 
GGCACCCAAG ATGATGAAGA CAACCATGTG CCCATGTTGA ATTTTCCTAA GAATTCTGCT 
GACAACAGAT CAACAGCAAA AGACATTAAG CGAAGCCATG ATGATGCAGT ACATGACCAA 
GCAGAGGAAC CATACCATAA AAGATTGAGA GAATCCAACA CCTATCTCAA CTTTTAA

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

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LOC100243179 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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