LOC100267075 cDNA ORF clone, Vitis vinifera(wine grape)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC100267075
Entrez Gene ID	100267075
Full Name	putative disease resistance RPP13-like protein 1
Gene Type	protein-coding
Organism	Vitis vinifera(wine grape)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019224165.1	XP_019079710.1	putative disease resistance RPP13-like protein 1

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

De novo transcriptome characterization of Vitis vinifera cv. Corvina unveils varietal diversity.
Venturini L, Ferrarini A, Zenoni S, Tornielli GB, Fasoli M, Dal Santo S, Minio A, Buson G, Tononi P, Zago ED, Zamperin G, Bellin D, Pezzotti M, Delledonne M
BMC genomics1441(2013 Jan)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following LOC100267075 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100267075 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
OVa41629	XM_019224165.1 Latest version!	Vitis vinifera putative disease resistance RPP13-like protein 1 (LOC100267075), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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** 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)

LOC100267075 ( XM_019224165.1 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_019079710.1 Vitis vinifera putative disease resistance RPP13-like protein 1 (LOC100267075), mRNA.

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CloneID	OVa41629
Clone ID Related Accession (Same CDS sequence)	XM_019224165.1
Accession Version	XM_019224165.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4317bp) 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	putative disease resistance RPP13-like protein 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_012019.3) and transcript sequence (KA142313.1) 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## ##RefSeq-Attributes-START## assembly gap :: added 113 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGAAGCTG TTGGAGAGGC TCTTCTTTCC TCTTTCGTTC AACTCTTGGT TAGCAAACTG 
AAGTACCCCT CTGATTTGTT GAAGTATGCC CGCCAAGAGC AAGTCCACAG GGAGCTCAAG 
AAATGGGAGG AAACACTGTC GGAGATGCTT CAACTGCTCA ATGTCGCTGA GGACAAGCAG 
ATCAACGATC CCTCCGTGAA AGCATGGCTC GAACGTCTCC GGGATTTGGC TTATGACATG 
GAGGACATCT TGGACGAGTT TGGCTACGAG GCTTTGCGAA GAAAGGTGAT GGCGGAAGCT 
GATGGTGAAG CCAGCACAAG CAAGGTACGC AAGCTCATCC CTACTTGTTG TACTACTTTC 
ACTCCCGTCA GGGCTATGCG TAATGTTAAG ATGGGGTCCA AGATAACGGA GATCACTCGC 
CGTTTAGAAG ATATTTCAGC TCAAAAGGCA GGGCTTGGTT TGAAGTGTTT GGACAAGGTG 
GAAATAATAA CCCAATCCAG TTGGGAAAGG CGGCCAGTCA CTACCTGTGA GGTATACGTA 
CCTTGGGTTA AGGGCAGGGA TGCAGATAAA CAGATCATAA TTGAGATGCT GCTTAAGGAT 
GAACCCGCTG CAACCAATGT TTCTGTAGTT TCCATCGTGG CCATGGGTGG GATGGGCAAG 
ACTACTCTGG CAAAACTGGT GTACGATGAT ACTGCAGAGC CCATAGCCAA TCATTTTGCT 
CTGAAAGCCT GGGTTTCTGT ATCAATTGAT TTTGATAAAG TGGGAGCAAC AAAGAAACTT 
CTCAACTCTC TTCCTTCTCA AAGCAGTAAT TCAGAGGACT TTCATGAAAT TCAACGCCAG 
TTGAAGGAGG CATTGAGGGG GAAAAGATTT TTGATAGTTT TGGACGATTT GTGGAGAGAC 
ATGCGTGATA AATGGGACGA CCTACGCTCC CCTTTCTTGG AGGCAGCATC AGGAAGCAAA 
ATCTTAGTCA CCACTCGCGA TCGAGATGTT GCAGAATGGG TGGGGGGACC CAAGAACTTA 
CATGTCCTCA AACCCTTATC TGATGATGAC TGTTGGTCGG TATTTCAAAC ACATGCTTTC 
CAACTTATAA ATATCCACGA GCACCCAAAT TTGGAATCAA TTGGCAGGAG AATTGTAGAG 
AAGTGTGGAG GTTTGCCCTT GGCGGCAAAA GCACTTGGTG GCCTTCTGCG TGCTGAACGA 
AGAGAACGTG AATGGGAAAG AGTATTAGAT AGCAAAATAT GGGATTTACC TGACAACCCC 
ATCATCCCTG CATTGAGATT GAGTTACATT CATCTCCCTT CACATTTAAA GAGGTGTTTT 
GCTTATTGCG CAATATTTCC CCAAGACTAT GAGTTTATGA AGGAAGAGCT AATCCCCTTA 
TGGATGGCGG AGGGGCTAAT TCAACAATCA AAAGATAATA GGAGAAAAGA AGATCTTGGT 
GATAAGTATT TTTGTGAGCT ATTGTCAAGG TCATTTTTCC AATCGTCGAG TAGCAAAGAA 
TCACTATTTG TGATGCATGA CCTTGTTAAC GATCTAGCTA AATTTGTTGC TGGAGATACA 
TGCTTGCATT TGGATGATGA GTTTAAGAAT AATTTGCAAT GTCTCATTCC TGAAAGTACT 
CGTCATTCAT CATTTGTTCG TCATAGTTAT GATATCTTCA AAAAGTTTGA AAGATTTTAT 
AAGAAGGAGC GCTTGCGCAC ATTCATAGCT ATTTCAACAC AAAGATATTT TCCGACTCGC 
TGCATAAGTT ATAAGGTGCT TAAGGAATTG ATACCAAGAT TAGGATACCT AAGGGTGCTC 
TCCTTGAGTG GTTATCAGAT AAATGAGATA CCAAATGAAT TTGGCAATTT GAAACTTCTA 
AGGTACCTTA ATTTGTCTAA CACCCATATT GAATATTTAC CTGATTCAAT TGGCGGTCTT 
TATAATCTAC AGACATTGAT ATTATCATAC TGCCATAGGC TTACCAAGTT GCCTATTAAC 
ATTGGACACC TAATTAACCT TCGACATCTT GATGTTAGTG GCGACGACAA ATTACAAGAA 
ATGCCTTCAC AAATTGGCAA ATTAAAAGAT TTGCAGGTAT TGTCTAATTT CGTGGTGGGC 
AAAAACAATG GTTTGAATAT CAAAGAGTTG AGAGAAATGT CAAATCTTAG AGGTGAACTC 
CATATTTCAA AATTGGAAAA TGTGGTGAAT GTTCAAGATG TAAGGGTTGC CCGTCTAAAA 
TTAAAAGATA ACCTTGAAAG ATTGACACTA GCGTGGAGTT TTGACTCGGA TGGTTCAAGG 
AATGGAATGG ATCAAATGAA TGTCCTTCAC CATTTAGAAC CTCAATCGAA TCTGAATGAA 
CTCAACATTT ATTCATATGG TGGTCCAGAA TTCCCAGATT GGATAAGGAA TGGCTCATTC 
TCTAAAATGG CGGTTCTAAG TCTCAAAGAT TGCAAAAAGT GCACATCTTT ACCATGCTTG 
GGGCAGTTAC CATCGCTTAA ACGGTTGTGG ATTCAAGGAA TGGATGGAGT AAAAAATGTG 
GGTTCAGAGT TTTATGGAGA GACGTGTCTT TCTGCAGATA AGCTTTTCCC ATCACTAGAG 
TCTCTATGGT TTGTAAATAT GTCAGAATGG GAGTATTGGG AGGACTGGTC TTCCTCGATA 
GATTCCTCAT TCCCTTGCCT CCGTACGCTT ACAATTTATA ATTGCCCTAA ATTGATTAAG 
AAAATACCCA CTTACGTACC TTTGCTGACA CGGCTCTATG TTCACAACTG TCCAAAACTG 
GAGTCTGCAC TTTTAAGGCT ACCATCTCTC AAGGAATTAG AAGTCACGAA ATGTAATGAG 
GCGGTCTTGA GAAATGGAAC TGAGCTCACC TCAGTGACCT CACTCACCGA GTTAACAGTT 
TCTGGGATCT TAGGGCTTAT CAAATTGCAA CAAGGATTCG TGCGGTCATT GTCAGGGCTT 
CAGGCTTTGG AATTTTCAGA ATGCGAAGAG CTCACATGTT TGTGGGAGGA TGGGTTTGAA 
TCCGAAAGCC TTCACTGCCA TCAACTTGTA TCCTTGGGAT GCAATCTTCT GTCTTTAACA 
ATAAATGAAT GTGATAAACT AGAGAGGCTT CCAAATGGAT GGCAGAGTCT AACATGCCTT 
GAAGAGTTGA AAATCATGGA CTGTCCAAAG CTGGTGTCAT TTCCTGACGT AGGTTTCCCA 
CCAAAGCTGA GAAGTCTTGG TTTTGCAAAT TGTGAAGGTC TCAAGTGTCT ACCTGATGGG 
ATGATGCGAA ATAGTAACGC CAACAGTAAC TCATGTGTCC TTGAATCCTT GGAGATAAAG 
CAGTGTTCAT CTCTCATTAG CTTTCCAAAA GGGCAATTAC CCACCACCCT AAAGAAACTA 
AGCATACGGG AGTGTGAAAA TCTAAAGTCT CTTCCAGAAG GAATGATGCA CTGCAATTCC 
ATTGCCACCA CCAACACCAT GGACACGTGT GCCCTTGAAT TCTTATTTAT AGAGGGGTGT 
CCGTCTCTGA TTGGTTTTCC GAAAGGTGGG TTACCTACCA CTCTCAAGGA ACTCGAAATA 
ATTAAGTGTG AAAGGCTAGA GTTTCTACCA GATGGAATAA TGCACCACAA TTCCACCAAT 
GCTGCTGCTC TTCAAATCCT GGAAATCTCT TCATATTCAT CTCTCACATC CTTCCCAAGA 
GGGAAGTTTC CTTCCACCCT TGAGCAACTT TGGATTCAGG ATTGTGAACA ACTAGAGTCA 
ATTTCAGAGG AGATGTTTCA CCCTACCAAT AATTCACTTC AATCTTTACA CATCGGGGGG 
TATCCTAATC TCAAAGCCCT GCCAGATTGC CTCAACACCC TTACGGATCT AAGTATTGAA 
GATTTTAAAA ATCTGGAATT GTTGCTTCCT CGAATAAAAA ACCTCACTTG TCTTACAGAG 
CTTTCCATCC ATAATTGTGA GAATATCAAG ACCCCCCTAT CCCAATGGGG CCTTTCCGGA 
CTCACCTCTC TTAAAGACCT TTCCATAGGA GGCATGTTTC CAGATGCAAC TTCCTTTTCG 
AATGACCCCC GCTTGATTCT TCTTCCTACA ACTCTCACCT CCCTTTCCAT TTCACAATTC 
CAGAATCTGG AATCCCTATC CTCCCTGTCT CTCCAAACCC TCACCTCTCT TGAACAGCTA 
TGGACCGACA ATTGCCCGAA GCTCCGGTCA ATTTTGCCAA GGGAAGGACT GTTGCCTGAC 
ACCCTTTCAC AACTGCGTAT GAAGCAGTGC CCACATCTAA AACAAAGGTA CTCGAAGGAG 
GAAGGAGATG ATTGGCCCAA GATTGGCCAC ATCCCTTGGG TGTGGATATA TGACTAA

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

RefSeq	XP_019079710.1
CDS	19..4335
Translation	MEAVGEALLSSFVQLLVSKLKYPSDLLKYARQEQVHRELKKWEETLSEMLQLLNVAEDKQINDPSVKAWLERLRDLAYDMEDILDEFGYEALRRKVMAEADGEASTSKVRKLIPTCCTTFTPVRAMRNVKMGSKITEITRRLEDISAQKAGLGLKCLDKVEIITQSSWERRPVTTCEVYVPWVKGRDADKQIIIEMLLKDEPAATNVSVVSIVAMGGMGKTTLAKLVYDDTAEPIANHFALKAWVSVSIDFDKVGATKKLLNSLPSQSSNSEDFHEIQRQLKEALRGKRFLIVLDDLWRDMRDKWDDLRSPFLEAASGSKILVTTRDRDVAEWVGGPKNLHVLKPLSDDDCWSVFQTHAFQLINIHEHPNLESIGRRIVEKCGGLPLAAKALGGLLRAERREREWERVLDSKIWDLPDNPIIPALRLSYIHLPSHLKRCFAYCAIFPQDYEFMKEELIPLWMAEGLIQQSKDNRRKEDLGDKYFCELLSRSFFQSSSSKESLFVMHDLVNDLAKFVAGDTCLHLDDEFKNNLQCLIPESTRHSSFVRHSYDIFKKFERFYKKERLRTFIAISTQRYFPTRCISYKVLKELIPRLGYLRVLSLSGYQINEIPNEFGNLKLLRYLNLSNTHIEYLPDSIGGLYNLQTLILSYCHRLTKLPINIGHLINLRHLDVSGDDKLQEMPSQIGKLKDLQVLSNFVVGKNNGLNIKELREMSNLRGELHISKLENVVNVQDVRVARLKLKDNLERLTLAWSFDSDGSRNGMDQMNVLHHLEPQSNLNELNIYSYGGPEFPDWIRNGSFSKMAVLSLKDCKKCTSLPCLGQLPSLKRLWIQGMDGVKNVGSEFYGETCLSADKLFPSLESLWFVNMSEWEYWEDWSSSIDSSFPCLRTLTIYNCPKLIKKIPTYVPLLTRLYVHNCPKLESALLRLPSLKELEVTKCNEAVLRNGTELTSVTSLTELTVSGILGLIKLQQGFVRSLSGLQALEFSECEELTCLWEDGFESESLHCHQLVSLGCNLLSLTINECDKLERLPNGWQSLTCLEELKIMDCPKLVSFPDVGFPPKLRSLGFANCEGLKCLPDGMMRNSNANSNSCVLESLEIKQCSSLISFPKGQLPTTLKKLSIRECENLKSLPEGMMHCNSIATTNTMDTCALEFLFIEGCPSLIGFPKGGLPTTLKELEIIKCERLEFLPDGIMHHNSTNAAALQILEISSYSSLTSFPRGKFPSTLEQLWIQDCEQLESISEEMFHPTNNSLQSLHIGGYPNLKALPDCLNTLTDLSIEDFKNLELLLPRIKNLTCLTELSIHNCENIKTPLSQWGLSGLTSLKDLSIGGMFPDATSFSNDPRLILLPTTLTSLSISQFQNLESLSSLSLQTLTSLEQLWTDNCPKLRSILPREGLLPDTLSQLRMKQCPHLKQRYSKEEGDDWPKIGHIPWVWIYD

Target ORF information:

RefSeq Version	XM_019224165.1
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera putative disease resistance RPP13-like protein 1 (LOC100267075), mRNA.

Target ORF information:

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

XM_019224165.1

ORF Insert Sequence:

ATGGAAGCTG TTGGAGAGGC TCTTCTTTCC TCTTTCGTTC AACTCTTGGT TAGCAAACTG 
AAGTACCCCT CTGATTTGTT GAAGTATGCC CGCCAAGAGC AAGTCCACAG GGAGCTCAAG 
AAATGGGAGG AAACACTGTC GGAGATGCTT CAACTGCTCA ATGTCGCTGA GGACAAGCAG 
ATCAACGATC CCTCCGTGAA AGCATGGCTC GAACGTCTCC GGGATTTGGC TTATGACATG 
GAGGACATCT TGGACGAGTT TGGCTACGAG GCTTTGCGAA GAAAGGTGAT GGCGGAAGCT 
GATGGTGAAG CCAGCACAAG CAAGGTACGC AAGCTCATCC CTACTTGTTG TACTACTTTC 
ACTCCCGTCA GGGCTATGCG TAATGTTAAG ATGGGGTCCA AGATAACGGA GATCACTCGC 
CGTTTAGAAG ATATTTCAGC TCAAAAGGCA GGGCTTGGTT TGAAGTGTTT GGACAAGGTG 
GAAATAATAA CCCAATCCAG TTGGGAAAGG CGGCCAGTCA CTACCTGTGA GGTATACGTA 
CCTTGGGTTA AGGGCAGGGA TGCAGATAAA CAGATCATAA TTGAGATGCT GCTTAAGGAT 
GAACCCGCTG CAACCAATGT TTCTGTAGTT TCCATCGTGG CCATGGGTGG GATGGGCAAG 
ACTACTCTGG CAAAACTGGT GTACGATGAT ACTGCAGAGC CCATAGCCAA TCATTTTGCT 
CTGAAAGCCT GGGTTTCTGT ATCAATTGAT TTTGATAAAG TGGGAGCAAC AAAGAAACTT 
CTCAACTCTC TTCCTTCTCA AAGCAGTAAT TCAGAGGACT TTCATGAAAT TCAACGCCAG 
TTGAAGGAGG CATTGAGGGG GAAAAGATTT TTGATAGTTT TGGACGATTT GTGGAGAGAC 
ATGCGTGATA AATGGGACGA CCTACGCTCC CCTTTCTTGG AGGCAGCATC AGGAAGCAAA 
ATCTTAGTCA CCACTCGCGA TCGAGATGTT GCAGAATGGG TGGGGGGACC CAAGAACTTA 
CATGTCCTCA AACCCTTATC TGATGATGAC TGTTGGTCGG TATTTCAAAC ACATGCTTTC 
CAACTTATAA ATATCCACGA GCACCCAAAT TTGGAATCAA TTGGCAGGAG AATTGTAGAG 
AAGTGTGGAG GTTTGCCCTT GGCGGCAAAA GCACTTGGTG GCCTTCTGCG TGCTGAACGA 
AGAGAACGTG AATGGGAAAG AGTATTAGAT AGCAAAATAT GGGATTTACC TGACAACCCC 
ATCATCCCTG CATTGAGATT GAGTTACATT CATCTCCCTT CACATTTAAA GAGGTGTTTT 
GCTTATTGCG CAATATTTCC CCAAGACTAT GAGTTTATGA AGGAAGAGCT AATCCCCTTA 
TGGATGGCGG AGGGGCTAAT TCAACAATCA AAAGATAATA GGAGAAAAGA AGATCTTGGT 
GATAAGTATT TTTGTGAGCT ATTGTCAAGG TCATTTTTCC AATCGTCGAG TAGCAAAGAA 
TCACTATTTG TGATGCATGA CCTTGTTAAC GATCTAGCTA AATTTGTTGC TGGAGATACA 
TGCTTGCATT TGGATGATGA GTTTAAGAAT AATTTGCAAT GTCTCATTCC TGAAAGTACT 
CGTCATTCAT CATTTGTTCG TCATAGTTAT GATATCTTCA AAAAGTTTGA AAGATTTTAT 
AAGAAGGAGC GCTTGCGCAC ATTCATAGCT ATTTCAACAC AAAGATATTT TCCGACTCGC 
TGCATAAGTT ATAAGGTGCT TAAGGAATTG ATACCAAGAT TAGGATACCT AAGGGTGCTC 
TCCTTGAGTG GTTATCAGAT AAATGAGATA CCAAATGAAT TTGGCAATTT GAAACTTCTA 
AGGTACCTTA ATTTGTCTAA CACCCATATT GAATATTTAC CTGATTCAAT TGGCGGTCTT 
TATAATCTAC AGACATTGAT ATTATCATAC TGCCATAGGC TTACCAAGTT GCCTATTAAC 
ATTGGACACC TAATTAACCT TCGACATCTT GATGTTAGTG GCGACGACAA ATTACAAGAA 
ATGCCTTCAC AAATTGGCAA ATTAAAAGAT TTGCAGGTAT TGTCTAATTT CGTGGTGGGC 
AAAAACAATG GTTTGAATAT CAAAGAGTTG AGAGAAATGT CAAATCTTAG AGGTGAACTC 
CATATTTCAA AATTGGAAAA TGTGGTGAAT GTTCAAGATG TAAGGGTTGC CCGTCTAAAA 
TTAAAAGATA ACCTTGAAAG ATTGACACTA GCGTGGAGTT TTGACTCGGA TGGTTCAAGG 
AATGGAATGG ATCAAATGAA TGTCCTTCAC CATTTAGAAC CTCAATCGAA TCTGAATGAA 
CTCAACATTT ATTCATATGG TGGTCCAGAA TTCCCAGATT GGATAAGGAA TGGCTCATTC 
TCTAAAATGG CGGTTCTAAG TCTCAAAGAT TGCAAAAAGT GCACATCTTT ACCATGCTTG 
GGGCAGTTAC CATCGCTTAA ACGGTTGTGG ATTCAAGGAA TGGATGGAGT AAAAAATGTG 
GGTTCAGAGT TTTATGGAGA GACGTGTCTT TCTGCAGATA AGCTTTTCCC ATCACTAGAG 
TCTCTATGGT TTGTAAATAT GTCAGAATGG GAGTATTGGG AGGACTGGTC TTCCTCGATA 
GATTCCTCAT TCCCTTGCCT CCGTACGCTT ACAATTTATA ATTGCCCTAA ATTGATTAAG 
AAAATACCCA CTTACGTACC TTTGCTGACA CGGCTCTATG TTCACAACTG TCCAAAACTG 
GAGTCTGCAC TTTTAAGGCT ACCATCTCTC AAGGAATTAG AAGTCACGAA ATGTAATGAG 
GCGGTCTTGA GAAATGGAAC TGAGCTCACC TCAGTGACCT CACTCACCGA GTTAACAGTT 
TCTGGGATCT TAGGGCTTAT CAAATTGCAA CAAGGATTCG TGCGGTCATT GTCAGGGCTT 
CAGGCTTTGG AATTTTCAGA ATGCGAAGAG CTCACATGTT TGTGGGAGGA TGGGTTTGAA 
TCCGAAAGCC TTCACTGCCA TCAACTTGTA TCCTTGGGAT GCAATCTTCT GTCTTTAACA 
ATAAATGAAT GTGATAAACT AGAGAGGCTT CCAAATGGAT GGCAGAGTCT AACATGCCTT 
GAAGAGTTGA AAATCATGGA CTGTCCAAAG CTGGTGTCAT TTCCTGACGT AGGTTTCCCA 
CCAAAGCTGA GAAGTCTTGG TTTTGCAAAT TGTGAAGGTC TCAAGTGTCT ACCTGATGGG 
ATGATGCGAA ATAGTAACGC CAACAGTAAC TCATGTGTCC TTGAATCCTT GGAGATAAAG 
CAGTGTTCAT CTCTCATTAG CTTTCCAAAA GGGCAATTAC CCACCACCCT AAAGAAACTA 
AGCATACGGG AGTGTGAAAA TCTAAAGTCT CTTCCAGAAG GAATGATGCA CTGCAATTCC 
ATTGCCACCA CCAACACCAT GGACACGTGT GCCCTTGAAT TCTTATTTAT AGAGGGGTGT 
CCGTCTCTGA TTGGTTTTCC GAAAGGTGGG TTACCTACCA CTCTCAAGGA ACTCGAAATA 
ATTAAGTGTG AAAGGCTAGA GTTTCTACCA GATGGAATAA TGCACCACAA TTCCACCAAT 
GCTGCTGCTC TTCAAATCCT GGAAATCTCT TCATATTCAT CTCTCACATC CTTCCCAAGA 
GGGAAGTTTC CTTCCACCCT TGAGCAACTT TGGATTCAGG ATTGTGAACA ACTAGAGTCA 
ATTTCAGAGG AGATGTTTCA CCCTACCAAT AATTCACTTC AATCTTTACA CATCGGGGGG 
TATCCTAATC TCAAAGCCCT GCCAGATTGC CTCAACACCC TTACGGATCT AAGTATTGAA 
GATTTTAAAA ATCTGGAATT GTTGCTTCCT CGAATAAAAA ACCTCACTTG TCTTACAGAG 
CTTTCCATCC ATAATTGTGA GAATATCAAG ACCCCCCTAT CCCAATGGGG CCTTTCCGGA 
CTCACCTCTC TTAAAGACCT TTCCATAGGA GGCATGTTTC CAGATGCAAC TTCCTTTTCG 
AATGACCCCC GCTTGATTCT TCTTCCTACA ACTCTCACCT CCCTTTCCAT TTCACAATTC 
CAGAATCTGG AATCCCTATC CTCCCTGTCT CTCCAAACCC TCACCTCTCT TGAACAGCTA 
TGGACCGACA ATTGCCCGAA GCTCCGGTCA ATTTTGCCAA GGGAAGGACT GTTGCCTGAC 
ACCCTTTCAC AACTGCGTAT GAAGCAGTGC CCACATCTAA AACAAAGGTA CTCGAAGGAG 
GAAGGAGATG ATTGGCCCAA GATTGGCCAC ATCCCTTGGG TGTGGATATA TGACTAA

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

PubMed

De novo transcriptome characterization of Vitis vinifera cv. Corvina unveils varietal diversity.
BMC genomics1441(2013 Jan)
Venturini L,Ferrarini A,Zenoni S,Tornielli GB,Fasoli M,Dal Santo S,Minio A,Buson G,Tononi P,Zago ED,Zamperin G,Bellin D,Pezzotti M,Delledonne M

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LOC100267075 cDNA ORF clone, Vitis vinifera(wine grape)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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