LOC100260654 cDNA ORF clone, Vitis vinifera(wine grape)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC100260654
Entrez Gene ID	100260654
Full Name	uncharacterized LOC100260654
Gene Type	protein-coding
Organism	Vitis vinifera(wine grape)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019217011.1	XP_019072556.1	uncharacterized protein LOC100260654

Pathways from BioSystems
Gene Ontology

The following LOC100260654 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100260654 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
OVa43780	XM_019217011.1 Latest version!	Vitis vinifera uncharacterized LOC100260654 (LOC100260654), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	29-31	$1091.30 $1559.00

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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)

LOC100260654 ( XM_019217011.1 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_019072556.1 Vitis vinifera uncharacterized LOC100260654 (LOC100260654), mRNA.

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CloneID	OVa43780
Clone ID Related Accession (Same CDS sequence)	XM_019217011.1
Accession Version	XM_019217011.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 6003bp) 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	1479744000000
Organism	Vitis vinifera(wine grape)
Product	uncharacterized protein LOC100260654
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_012025.3) 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## ##RefSeq-Attributes-START## ab initio :: 16% of CDS bases ##RefSeq-Attributes-END##

ATGGAGACCC ATCTTTTCTT TGCCTTCTTT TGTGCCTGGA TTTGTCTCTC AGTTCCGTTG 
GAGTCCTGTA TTCCAGCTGA TTCCATAAGG ATTGACCAAC CCATAGGCGA TGGTGAGACT 
TTAGTTTCCT CAGGCCAAAG CTTTGAACTA GGCTTCTTCT CTCCTGGCAG CTCCAAAAAC 
AGGTACTTAG GAATATGGTA CAAGAATACA CCCCGGATAG TTGTATGGGT TGCAAACAGA 
AACAACCCGA TCGCAGATTT GTATGGAGTT TTAACCATCT TCAACAATGG CGCACTTGTT 
CTTCTCAACC AGTCAAAGAG TGTAATCTGG TCTCCCAATT TGTCAAAGGT ACCAGAAAAT 
CCAGTTGCAC AGCTCCTGGA GACTGGAAAT CTTGTTCTCA GGGACAGTAG TAATGAAAGT 
TCTGAAAGCT ATATATGGCA GAGCTTTGAT GATCCATCAG ACACAATGTT GCCAGGCATG 
AAGGTGGGAT GGAACTTAAA GACTGGTCTA CAACGAAAAT TGACATCATG GAAAAGTGCT 
GATGACCCAT CCCTTGGAGA CTTCTCCTAC GGATTTGATA TTAATGTGCT GCCTTATGTG 
GTTCTCGGTG TGGGATCAAG GAAAATAGTC CGTTCCGGGC CATGGAATGG ACTTGAATTC 
AATGGTGTTT ATGTGTTGGA CAACTCGGTT TACAAAGCAG TTTTTGCTGC CAACAACGAT 
GAGGTATATG CCCTCTATGA GTGTCACAAC AATAAGATCC TTTCAAGACT AACATTGAAC 
CATTCAGGTT TCATCCAGCG TCTGGTATTA AAAAAAGGGA GCTCTGAATG GGATGAATTG 
TACTCAATTC CCGGTGAACT TTGTGAAAAT TATGGCCATT GTGGTGCTAA TGGTATCTGC 
AGAATTGGCA AGCTGCAGAC TTGTGAGTGT TTGACGGGTT TCACACCAAA ATCACAAGAA 
GAATGGGACA TGTTTAATAC ATCAAGTGGA TGCACACGAA GAATGCCTTT GGATTGCCAA 
ATTGAAAAGG GATTTGTAAA GGTTACAGGA GTGAAATTGC CCGACTTGAT AGACTTTCAT 
GTGATTATGG ATGTGAGCCT TAGGGAATGC AGGGTATCGT GCTTGAACAA TTGTTCTTGT 
ACAGCATATT CCTACTCAAA AGCATATGCC TACTCAAATC CTAATGGAAA CGGTGGCTGT 
TTGATGTGGT CTGGGGACCT GATTGATATC AGAGAGTTAA CTTCAGAAAA ACATGCAGAG 
GACATCTATA TCCGCATGCA CACTTCAGAG CTAGGGTTAA ACACTAATCA GAAGAAGAAA 
AAACTAGTGA TCATCCTTGT TATATCTACC TTTTCTGGAA TCCTCACCTT GGGCTTGTCA 
TTCTGGTTTC GATTTTGGAA GAAGAGAACA ATGGGAACAG ACCAGGAAAG CAAGAAGGAG 
AACTTAGAGT TACCTTTGTT TGACTTGCCC ACCATTGCAA CTGCTACTAA CAACTTCTCT 
AACACCAACA AGATTGGAGC AGGTGGCTTT GGGTCTGTGT ACAAGGGCAA TCTACCAGAA 
GGAGTAGCAG TTGCAGTGAA GAGATTGTCC AAGAATTCAG CACAGGGTGT TCAAGAGTTC 
AAGAATGAAG CTGTTTTGAT TGCAAAACTT CAGCACAAGA ATCTTGTCAG GCTTTTGGGC 
TGCTGCATTC AAGGAGAAGA AAGAATATTA CTCTACGAAT ATATGCCCAA CAAGAGCTTG 
GATTATTTTA TTTTCGATCA AAACAGAAGA GCATTATTGG CATGGGATAA GCGTTGCGAG 
ATTGTTATGG GGATAGCACG AGGGCTTCTC TACCTCCATC AAGACTCTAG ATTTCAAATT 
ATTCACAGGG ATCTCAAGAC AAGCAATATT TTACTGGATG ACAATCTCAA CCCTAAAATT 
TCAGACTTTG GCTTGGCAAG AATTTTTGGA GAGAATGAAA TGGAAACGAG AACAAAGAGA 
ATTGTTGGGA CTTATGGCTA TATGTCCCCG GAGTATGTGA TTGATGGGCA CTTTTCTATC 
AAATTGGATG TCTTTAGCTT TGGTGTTCTT TTACTAGAGA TTGTCAGTGG TGAAAAGAAC 
AGAGGGTTCT CTCATCCAGA TCACCACCAT AACCTTCTGG GACATGCATG GCTGCTGTGG 
GAACAAAACA GGGCCTTGGA ATTAATGGAT GCATGTTTGG AAGATTCATG TGTTGCATCG 
CAAGTATTAC GATGCATACA AGTAGGTTTA CTATGTGTTC AAAACCTTCC AGCAGACAGA 
CCAGCAATGT CATCAGTGAT TTTCATGTTG GGTAACGAGG GAGCAACATT GCCTCAACCT 
AAACATCCTG GTTTCTTCAC AGAAAGATCT TCCGTGGATA CAGATACAAT GTCAGGAAAG 
ATAGAGTTAC ATTCAGAAAA TGCAGTAACC ATCTCAATGC TAAAAGGTAG ACATTTGGTT 
GGTCACTGCC ATCTGCGGCA AAACACTCAC AGTAGAGAAG CTAGACTCAG CTATAAGTTT 
TCACGGGAAC CAAACACCAA GATCATCGAG AAGATGGACT TCCACCCTTT GCAGGTTTCA 
CCACTGCCAA GGAAAGATCA AGATCTCCAA GAATACATCA ACGTAGTACC AGAAGAATAT 
GTGGCCATTG AAGACCACTT GGAGAATCCC AATTTTCAAC TTCACGTCCG TGAAATCATA 
AAGAGAAAGG TGGAAGATGC GGAAGAAAAT CTCAAACCAT TTGCTATCTG CTTTCTGAAA 
ATTGCTTCAA GGATGGGGAA CGACACCTTC TTGGTGCATG GATTCTTGAT GGAAGCCAAA 
CTCGGAACTT GCATAAGAAA GATACTTCAA ACGGAGCTTC AGATTCCCAG AGGACTGAAA 
TGGCCAGTTC AAGATGTTTC AAGCGATGTG GGGTTGACCA TGTTGAGACC ATCCAAAATA 
CCAGCATCAC TACTTCTTGA TGCCCACCCC AAGATGTCGC CCCTGCTGCA ACCCTCTCAA 
TCCACTGGAG CAATTCCTTC TTCTGGATCC ATTCTCCAGC AACCAAATGG GACATGTCAG 
GACGGTGGAC TTCAATGCCT GGAGGAACTA GGGGCACAAT ACACAGGGGA GGAGGTGATG 
AGCTCAGAGG CTCCAAAGCC AGACTCTCCA CAACCTAGTG GTCCACCGAG ACTCACCCCA 
CCGAGGGTAG GTAGGATGAG GAATGAACCA TATCCTCAAC CATATTCACC TAGACCAAAC 
AGAAAGGCAC CACCAAGCTC AGGCGGGGCA GCGGGTGAAG GAACATCAGG CTCAGGGACA 
CAGGGAGAGG GTACAGGACC AACAGACTCA GGGACACAGG AAGGGGGTGA AGGACCACCA 
GGCTCAGGCC CACCGGGTTC AACGGGCGAG GCGGTAGGCC CAAGCAATGA CCCAGAAACT 
CCAAAAGGGA AATCATCAAG GACTGAGGTT TCTTCACAAG GCAGAATGGC TCACAGCGAT 
GCTAACATGT TAAGTGAGAA AATTTCTCCT TTTATTTTCT TGCTGATTTT CTCTTTCTTC 
TGCTTGCAGT TCTCCATTTC TGTTGATGCT GCCCCTGATA CGATTTTTAG CGGACAAATG 
CTCAGACAGA CAGATACCAT CATATCTGCA GGTGGGAACT TTGAATTAGG CTTTTTCTCA 
CCTGGAAACT CCCCAAGTTA TTTTGTGGGG ATATGGTATA AGAAAATTTC AGAGCAAACG 
GTGGTATGGG TTGCCAACAG AGATTACACA ATAACTGGTT CCTCTCCTAG TCTTACCATC 
AATGACGATG GCAACCTTGT GATTTTGGAT GGCAGAGTCA CATACATGGT GGCTAACATT 
TCATTGGGCC AGAATGTCAG TGCCACACTG TTGGATTCCG GCAATCTTAT ATTGAGAAAT 
GGAAACTCAA ATATCTTGTG GCAGAGCTTT GATTATCCCT CTAATCATTT CCTTCCAGGT 
ATGAAGATTG GATACAACAG AAAGACCGGA GAAGTTTGGT CATTTACATC CTGGAAAAAT 
GCAGAGGACC CAGGCCTAGG GCCTGTTTCC CTGAAAATGG ATCCTGAAAC ACACCAATTT 
GTCATCATGT GGAATTCTCA AATGGTTTGG AGTAGTGGGG TTTGGAATGG GCATGCTTTC 
AGTTCTGTTC CTGAAATGAG ATTAGACTAT ATTTTCAATT ACAGCTACTT TGAAGACATG 
AGTGAGGCAT ACTTCACTTA TTCTTTGTAT GATAATTCTA TTATATCTAG ATTGCTTATA 
GATGTGTCTG GAAACATCAA GCAGCTGACG TGGCTTGATA GATCGGGCTG GAATCTGTTC 
TGGTCTCAAC CACAAAATTT TGAATGCGAT TACTACTCTT ATTGTGGTTC TTTTAGCAGC 
TGCAATAATC AGACCACTCC TATCTGTCAA TGCTTGTATG GTTTTAGACC CAACTCTGCA 
GGAGATTGGA TGATGAATCA ATTTAGAGAT GGATGTGTGA GGAAAACCTC CTTGCAGTGT 
GATGATCTCA CTTCTGTTAA TAGTGAGAAA GACAAGTTCC TCAAAATGGC TAATGTGAAG 
TTTCCTCAGA GCCCTCAGAT TTTGGAAACA CAGTCTATAG AAACATGCAA AATGACTTGC 
TTGAACAAGT GCTCTTGCAA TGCTTACGCT CATAATGGCA GCTGTTTAAT GTGGGATCAA 
ATTCTATTGA ACTTGCAACA ACTTTCAAAA AAGGATCCTG ATGGAAGAAC ACTATATCTT 
AAACTTGCTG CATCTGAGCT CCAAAATTCC AGAGAAAGCA AAATGCCACG GTGGGTTATT 
GGGATGGTGG TTGTTGCTGT ACTGGTGCTT CTTTTGGCCT CCTACATCTG TTACCGACAA 
ATGAAAAGAG TCCAAGACAG AGAGGAAATG ACAACAAGCC AGGATATATT ACTATATGAA 
TTTGGTATGG GTTCAAAAGC TACTGAGAAT GAGCTCAATG AGGGAAATAG GGTTGGAAAA 
GACAAGAACA AGGATGCTTG GTTGCCATTG TTCAGCTTTG CAAGTGTATC TGCAGCAACA 
GAGCACTTCT CAACTGAAAA TAAGCTAGGA CAAGGTGGCT TTGGACCTGT TTACAAGGGT 
GAACTATTTA ATGGACAAGA AATAGCAGTA AAGAGGCTTT CAAGGAGCTC AGGGCAAGGG 
CTAGAAGAAC TAAAAAATGA AACAGTGCTT TTGGCTGAAC TTCAACACAG GAACCTTGTT 
AGACTCTTAG GCTGCTGCAT AGAGCAAGGT GAAAAGATAT TAATCTATGA GTACATGCCC 
AACAAAAGCT TGGACTCGTT CCTTTTCGAT CCAAACAAAA GAGGCCAGTT AGATTGGGCA 
AAGCGCGTCA GTATTATTGA AGGAATTGCT CAAGGGCTTC TCTATCTCCA TGAGTATTCC 
AGATTAAGGA TAATTCACAG AGATTTGAAG GCTAGTAATA TCCTACTGGA TAATGACATG 
AACCCCAAAA TATCTGATTT TGGCATGGCG AGAATGTTTG GAGGAAACGA GTCATATGCA 
AACACAAATC GAATTGTTGG GACCTATGGT TATATGTCCC CTGAGTATGC TTTGGAAGGC 
CTTTTCTCCA CAAAGTCTGA CGTCTTTAGC TTCGGAGTCT TGATGCTGGA GATCCTGAGT 
GGCAAAAAGA ATACAGGCTT TTATAATAGT GACACTCTTA ATCTTATTGG ATATGCATGG 
GAACTGTGGA AAAGCGATAT GGCTATAAAT TTGATGGATC CCATGTTGGA AGGCCAGTCC 
TCTCAGTATA TGCTGTTAAG GTACATCAAT GTGGGACTCC TTTGTGTTGA AGAAATTGCA 
GCTGATAGAC CAACCCTGTC GGAAGTAGTC TCAATGCTTA CCAATGAACT TGCCGTTCTA 
CCTTCTCCCA AGCACCCTGC TTTCTCAACT GTAAGGAGCA TGGAAAATCC ACGCTCATCC 
ATGAGCAGGC CTGAAATTTA TTCAGCAAAT GGTTTGAGTA TTTCAGTTAT GGAAGCTCGA 
TAG

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

RefSeq	XP_019072556.1
CDS	148..6150
Translation	METHLFFAFFCAWICLSVPLESCIPADSIRIDQPIGDGETLVSSGQSFELGFFSPGSSKNRYLGIWYKNTPRIVVWVANRNNPIADLYGVLTIFNNGALVLLNQSKSVIWSPNLSKVPENPVAQLLETGNLVLRDSSNESSESYIWQSFDDPSDTMLPGMKVGWNLKTGLQRKLTSWKSADDPSLGDFSYGFDINVLPYVVLGVGSRKIVRSGPWNGLEFNGVYVLDNSVYKAVFAANNDEVYALYECHNNKILSRLTLNHSGFIQRLVLKKGSSEWDELYSIPGELCENYGHCGANGICRIGKLQTCECLTGFTPKSQEEWDMFNTSSGCTRRMPLDCQIEKGFVKVTGVKLPDLIDFHVIMDVSLRECRVSCLNNCSCTAYSYSKAYAYSNPNGNGGCLMWSGDLIDIRELTSEKHAEDIYIRMHTSELGLNTNQKKKKLVIILVISTFSGILTLGLSFWFRFWKKRTMGTDQESKKENLELPLFDLPTIATATNNFSNTNKIGAGGFGSVYKGNLPEGVAVAVKRLSKNSAQGVQEFKNEAVLIAKLQHKNLVRLLGCCIQGEERILLYEYMPNKSLDYFIFDQNRRALLAWDKRCEIVMGIARGLLYLHQDSRFQIIHRDLKTSNILLDDNLNPKISDFGLARIFGENEMETRTKRIVGTYGYMSPEYVIDGHFSIKLDVFSFGVLLLEIVSGEKNRGFSHPDHHHNLLGHAWLLWEQNRALELMDACLEDSCVASQVLRCIQVGLLCVQNLPADRPAMSSVIFMLGNEGATLPQPKHPGFFTERSSVDTDTMSGKIELHSENAVTISMLKGRHLVGHCHLRQNTHSREARLSYKFSREPNTKIIEKMDFHPLQVSPLPRKDQDLQEYINVVPEEYVAIEDHLENPNFQLHVREIIKRKVEDAEENLKPFAICFLKIASRMGNDTFLVHGFLMEAKLGTCIRKILQTELQIPRGLKWPVQDVSSDVGLTMLRPSKIPASLLLDAHPKMSPLLQPSQSTGAIPSSGSILQQPNGTCQDGGLQCLEELGAQYTGEEVMSSEAPKPDSPQPSGPPRLTPPRVGRMRNEPYPQPYSPRPNRKAPPSSGGAAGEGTSGSGTQGEGTGPTDSGTQEGGEGPPGSGPPGSTGEAVGPSNDPETPKGKSSRTEVSSQGRMAHSDANMLSEKISPFIFLLIFSFFCLQFSISVDAAPDTIFSGQMLRQTDTIISAGGNFELGFFSPGNSPSYFVGIWYKKISEQTVVWVANRDYTITGSSPSLTINDDGNLVILDGRVTYMVANISLGQNVSATLLDSGNLILRNGNSNILWQSFDYPSNHFLPGMKIGYNRKTGEVWSFTSWKNAEDPGLGPVSLKMDPETHQFVIMWNSQMVWSSGVWNGHAFSSVPEMRLDYIFNYSYFEDMSEAYFTYSLYDNSIISRLLIDVSGNIKQLTWLDRSGWNLFWSQPQNFECDYYSYCGSFSSCNNQTTPICQCLYGFRPNSAGDWMMNQFRDGCVRKTSLQCDDLTSVNSEKDKFLKMANVKFPQSPQILETQSIETCKMTCLNKCSCNAYAHNGSCLMWDQILLNLQQLSKKDPDGRTLYLKLAASELQNSRESKMPRWVIGMVVVAVLVLLLASYICYRQMKRVQDREEMTTSQDILLYEFGMGSKATENELNEGNRVGKDKNKDAWLPLFSFASVSAATEHFSTENKLGQGGFGPVYKGELFNGQEIAVKRLSRSSGQGLEELKNETVLLAELQHRNLVRLLGCCIEQGEKILIYEYMPNKSLDSFLFDPNKRGQLDWAKRVSIIEGIAQGLLYLHEYSRLRIIHRDLKASNILLDNDMNPKISDFGMARMFGGNESYANTNRIVGTYGYMSPEYALEGLFSTKSDVFSFGVLMLEILSGKKNTGFYNSDTLNLIGYAWELWKSDMAINLMDPMLEGQSSQYMLLRYINVGLLCVEEIAADRPTLSEVVSMLTNELAVLPSPKHPAFSTVRSMENPRSSMSRPEIYSANGLSISVMEAR

Target ORF information:

RefSeq Version	XM_019217011.1
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera uncharacterized LOC100260654 (LOC100260654), mRNA.

Target ORF information:

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

XM_019217011.1

ORF Insert Sequence:

ATGGAGACCC ATCTTTTCTT TGCCTTCTTT TGTGCCTGGA TTTGTCTCTC AGTTCCGTTG 
GAGTCCTGTA TTCCAGCTGA TTCCATAAGG ATTGACCAAC CCATAGGCGA TGGTGAGACT 
TTAGTTTCCT CAGGCCAAAG CTTTGAACTA GGCTTCTTCT CTCCTGGCAG CTCCAAAAAC 
AGGTACTTAG GAATATGGTA CAAGAATACA CCCCGGATAG TTGTATGGGT TGCAAACAGA 
AACAACCCGA TCGCAGATTT GTATGGAGTT TTAACCATCT TCAACAATGG CGCACTTGTT 
CTTCTCAACC AGTCAAAGAG TGTAATCTGG TCTCCCAATT TGTCAAAGGT ACCAGAAAAT 
CCAGTTGCAC AGCTCCTGGA GACTGGAAAT CTTGTTCTCA GGGACAGTAG TAATGAAAGT 
TCTGAAAGCT ATATATGGCA GAGCTTTGAT GATCCATCAG ACACAATGTT GCCAGGCATG 
AAGGTGGGAT GGAACTTAAA GACTGGTCTA CAACGAAAAT TGACATCATG GAAAAGTGCT 
GATGACCCAT CCCTTGGAGA CTTCTCCTAC GGATTTGATA TTAATGTGCT GCCTTATGTG 
GTTCTCGGTG TGGGATCAAG GAAAATAGTC CGTTCCGGGC CATGGAATGG ACTTGAATTC 
AATGGTGTTT ATGTGTTGGA CAACTCGGTT TACAAAGCAG TTTTTGCTGC CAACAACGAT 
GAGGTATATG CCCTCTATGA GTGTCACAAC AATAAGATCC TTTCAAGACT AACATTGAAC 
CATTCAGGTT TCATCCAGCG TCTGGTATTA AAAAAAGGGA GCTCTGAATG GGATGAATTG 
TACTCAATTC CCGGTGAACT TTGTGAAAAT TATGGCCATT GTGGTGCTAA TGGTATCTGC 
AGAATTGGCA AGCTGCAGAC TTGTGAGTGT TTGACGGGTT TCACACCAAA ATCACAAGAA 
GAATGGGACA TGTTTAATAC ATCAAGTGGA TGCACACGAA GAATGCCTTT GGATTGCCAA 
ATTGAAAAGG GATTTGTAAA GGTTACAGGA GTGAAATTGC CCGACTTGAT AGACTTTCAT 
GTGATTATGG ATGTGAGCCT TAGGGAATGC AGGGTATCGT GCTTGAACAA TTGTTCTTGT 
ACAGCATATT CCTACTCAAA AGCATATGCC TACTCAAATC CTAATGGAAA CGGTGGCTGT 
TTGATGTGGT CTGGGGACCT GATTGATATC AGAGAGTTAA CTTCAGAAAA ACATGCAGAG 
GACATCTATA TCCGCATGCA CACTTCAGAG CTAGGGTTAA ACACTAATCA GAAGAAGAAA 
AAACTAGTGA TCATCCTTGT TATATCTACC TTTTCTGGAA TCCTCACCTT GGGCTTGTCA 
TTCTGGTTTC GATTTTGGAA GAAGAGAACA ATGGGAACAG ACCAGGAAAG CAAGAAGGAG 
AACTTAGAGT TACCTTTGTT TGACTTGCCC ACCATTGCAA CTGCTACTAA CAACTTCTCT 
AACACCAACA AGATTGGAGC AGGTGGCTTT GGGTCTGTGT ACAAGGGCAA TCTACCAGAA 
GGAGTAGCAG TTGCAGTGAA GAGATTGTCC AAGAATTCAG CACAGGGTGT TCAAGAGTTC 
AAGAATGAAG CTGTTTTGAT TGCAAAACTT CAGCACAAGA ATCTTGTCAG GCTTTTGGGC 
TGCTGCATTC AAGGAGAAGA AAGAATATTA CTCTACGAAT ATATGCCCAA CAAGAGCTTG 
GATTATTTTA TTTTCGATCA AAACAGAAGA GCATTATTGG CATGGGATAA GCGTTGCGAG 
ATTGTTATGG GGATAGCACG AGGGCTTCTC TACCTCCATC AAGACTCTAG ATTTCAAATT 
ATTCACAGGG ATCTCAAGAC AAGCAATATT TTACTGGATG ACAATCTCAA CCCTAAAATT 
TCAGACTTTG GCTTGGCAAG AATTTTTGGA GAGAATGAAA TGGAAACGAG AACAAAGAGA 
ATTGTTGGGA CTTATGGCTA TATGTCCCCG GAGTATGTGA TTGATGGGCA CTTTTCTATC 
AAATTGGATG TCTTTAGCTT TGGTGTTCTT TTACTAGAGA TTGTCAGTGG TGAAAAGAAC 
AGAGGGTTCT CTCATCCAGA TCACCACCAT AACCTTCTGG GACATGCATG GCTGCTGTGG 
GAACAAAACA GGGCCTTGGA ATTAATGGAT GCATGTTTGG AAGATTCATG TGTTGCATCG 
CAAGTATTAC GATGCATACA AGTAGGTTTA CTATGTGTTC AAAACCTTCC AGCAGACAGA 
CCAGCAATGT CATCAGTGAT TTTCATGTTG GGTAACGAGG GAGCAACATT GCCTCAACCT 
AAACATCCTG GTTTCTTCAC AGAAAGATCT TCCGTGGATA CAGATACAAT GTCAGGAAAG 
ATAGAGTTAC ATTCAGAAAA TGCAGTAACC ATCTCAATGC TAAAAGGTAG ACATTTGGTT 
GGTCACTGCC ATCTGCGGCA AAACACTCAC AGTAGAGAAG CTAGACTCAG CTATAAGTTT 
TCACGGGAAC CAAACACCAA GATCATCGAG AAGATGGACT TCCACCCTTT GCAGGTTTCA 
CCACTGCCAA GGAAAGATCA AGATCTCCAA GAATACATCA ACGTAGTACC AGAAGAATAT 
GTGGCCATTG AAGACCACTT GGAGAATCCC AATTTTCAAC TTCACGTCCG TGAAATCATA 
AAGAGAAAGG TGGAAGATGC GGAAGAAAAT CTCAAACCAT TTGCTATCTG CTTTCTGAAA 
ATTGCTTCAA GGATGGGGAA CGACACCTTC TTGGTGCATG GATTCTTGAT GGAAGCCAAA 
CTCGGAACTT GCATAAGAAA GATACTTCAA ACGGAGCTTC AGATTCCCAG AGGACTGAAA 
TGGCCAGTTC AAGATGTTTC AAGCGATGTG GGGTTGACCA TGTTGAGACC ATCCAAAATA 
CCAGCATCAC TACTTCTTGA TGCCCACCCC AAGATGTCGC CCCTGCTGCA ACCCTCTCAA 
TCCACTGGAG CAATTCCTTC TTCTGGATCC ATTCTCCAGC AACCAAATGG GACATGTCAG 
GACGGTGGAC TTCAATGCCT GGAGGAACTA GGGGCACAAT ACACAGGGGA GGAGGTGATG 
AGCTCAGAGG CTCCAAAGCC AGACTCTCCA CAACCTAGTG GTCCACCGAG ACTCACCCCA 
CCGAGGGTAG GTAGGATGAG GAATGAACCA TATCCTCAAC CATATTCACC TAGACCAAAC 
AGAAAGGCAC CACCAAGCTC AGGCGGGGCA GCGGGTGAAG GAACATCAGG CTCAGGGACA 
CAGGGAGAGG GTACAGGACC AACAGACTCA GGGACACAGG AAGGGGGTGA AGGACCACCA 
GGCTCAGGCC CACCGGGTTC AACGGGCGAG GCGGTAGGCC CAAGCAATGA CCCAGAAACT 
CCAAAAGGGA AATCATCAAG GACTGAGGTT TCTTCACAAG GCAGAATGGC TCACAGCGAT 
GCTAACATGT TAAGTGAGAA AATTTCTCCT TTTATTTTCT TGCTGATTTT CTCTTTCTTC 
TGCTTGCAGT TCTCCATTTC TGTTGATGCT GCCCCTGATA CGATTTTTAG CGGACAAATG 
CTCAGACAGA CAGATACCAT CATATCTGCA GGTGGGAACT TTGAATTAGG CTTTTTCTCA 
CCTGGAAACT CCCCAAGTTA TTTTGTGGGG ATATGGTATA AGAAAATTTC AGAGCAAACG 
GTGGTATGGG TTGCCAACAG AGATTACACA ATAACTGGTT CCTCTCCTAG TCTTACCATC 
AATGACGATG GCAACCTTGT GATTTTGGAT GGCAGAGTCA CATACATGGT GGCTAACATT 
TCATTGGGCC AGAATGTCAG TGCCACACTG TTGGATTCCG GCAATCTTAT ATTGAGAAAT 
GGAAACTCAA ATATCTTGTG GCAGAGCTTT GATTATCCCT CTAATCATTT CCTTCCAGGT 
ATGAAGATTG GATACAACAG AAAGACCGGA GAAGTTTGGT CATTTACATC CTGGAAAAAT 
GCAGAGGACC CAGGCCTAGG GCCTGTTTCC CTGAAAATGG ATCCTGAAAC ACACCAATTT 
GTCATCATGT GGAATTCTCA AATGGTTTGG AGTAGTGGGG TTTGGAATGG GCATGCTTTC 
AGTTCTGTTC CTGAAATGAG ATTAGACTAT ATTTTCAATT ACAGCTACTT TGAAGACATG 
AGTGAGGCAT ACTTCACTTA TTCTTTGTAT GATAATTCTA TTATATCTAG ATTGCTTATA 
GATGTGTCTG GAAACATCAA GCAGCTGACG TGGCTTGATA GATCGGGCTG GAATCTGTTC 
TGGTCTCAAC CACAAAATTT TGAATGCGAT TACTACTCTT ATTGTGGTTC TTTTAGCAGC 
TGCAATAATC AGACCACTCC TATCTGTCAA TGCTTGTATG GTTTTAGACC CAACTCTGCA 
GGAGATTGGA TGATGAATCA ATTTAGAGAT GGATGTGTGA GGAAAACCTC CTTGCAGTGT 
GATGATCTCA CTTCTGTTAA TAGTGAGAAA GACAAGTTCC TCAAAATGGC TAATGTGAAG 
TTTCCTCAGA GCCCTCAGAT TTTGGAAACA CAGTCTATAG AAACATGCAA AATGACTTGC 
TTGAACAAGT GCTCTTGCAA TGCTTACGCT CATAATGGCA GCTGTTTAAT GTGGGATCAA 
ATTCTATTGA ACTTGCAACA ACTTTCAAAA AAGGATCCTG ATGGAAGAAC ACTATATCTT 
AAACTTGCTG CATCTGAGCT CCAAAATTCC AGAGAAAGCA AAATGCCACG GTGGGTTATT 
GGGATGGTGG TTGTTGCTGT ACTGGTGCTT CTTTTGGCCT CCTACATCTG TTACCGACAA 
ATGAAAAGAG TCCAAGACAG AGAGGAAATG ACAACAAGCC AGGATATATT ACTATATGAA 
TTTGGTATGG GTTCAAAAGC TACTGAGAAT GAGCTCAATG AGGGAAATAG GGTTGGAAAA 
GACAAGAACA AGGATGCTTG GTTGCCATTG TTCAGCTTTG CAAGTGTATC TGCAGCAACA 
GAGCACTTCT CAACTGAAAA TAAGCTAGGA CAAGGTGGCT TTGGACCTGT TTACAAGGGT 
GAACTATTTA ATGGACAAGA AATAGCAGTA AAGAGGCTTT CAAGGAGCTC AGGGCAAGGG 
CTAGAAGAAC TAAAAAATGA AACAGTGCTT TTGGCTGAAC TTCAACACAG GAACCTTGTT 
AGACTCTTAG GCTGCTGCAT AGAGCAAGGT GAAAAGATAT TAATCTATGA GTACATGCCC 
AACAAAAGCT TGGACTCGTT CCTTTTCGAT CCAAACAAAA GAGGCCAGTT AGATTGGGCA 
AAGCGCGTCA GTATTATTGA AGGAATTGCT CAAGGGCTTC TCTATCTCCA TGAGTATTCC 
AGATTAAGGA TAATTCACAG AGATTTGAAG GCTAGTAATA TCCTACTGGA TAATGACATG 
AACCCCAAAA TATCTGATTT TGGCATGGCG AGAATGTTTG GAGGAAACGA GTCATATGCA 
AACACAAATC GAATTGTTGG GACCTATGGT TATATGTCCC CTGAGTATGC TTTGGAAGGC 
CTTTTCTCCA CAAAGTCTGA CGTCTTTAGC TTCGGAGTCT TGATGCTGGA GATCCTGAGT 
GGCAAAAAGA ATACAGGCTT TTATAATAGT GACACTCTTA ATCTTATTGG ATATGCATGG 
GAACTGTGGA AAAGCGATAT GGCTATAAAT TTGATGGATC CCATGTTGGA AGGCCAGTCC 
TCTCAGTATA TGCTGTTAAG GTACATCAAT GTGGGACTCC TTTGTGTTGA AGAAATTGCA 
GCTGATAGAC CAACCCTGTC GGAAGTAGTC TCAATGCTTA CCAATGAACT TGCCGTTCTA 
CCTTCTCCCA AGCACCCTGC TTTCTCAACT GTAAGGAGCA TGGAAAATCC ACGCTCATCC 
ATGAGCAGGC CTGAAATTTA TTCAGCAAAT GGTTTGAGTA TTTCAGTTAT GGAAGCTCGA 
TAG

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

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LOC100260654 cDNA ORF clone, Vitis vinifera(wine grape)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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