LOC100248747 cDNA ORF clone, Vitis vinifera(wine grape)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC100248747
Entrez Gene ID	100248747
Full Name	trafficking protein particle complex subunit 8
Gene Type	protein-coding
Organism	Vitis vinifera(wine grape)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002263605.4	XP_002263641.2	trafficking protein particle complex subunit 8

Pathways from BioSystems
Gene Ontology

The following LOC100248747 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100248747 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
OVa08317	XM_002263605.4 Latest version!	Vitis vinifera trafficking protein particle complex subunit 8 (LOC100248747), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

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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)

LOC100248747 ( XM_002263605.4 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_002263641.2 Vitis vinifera trafficking protein particle complex subunit 8 (LOC100248747), mRNA.

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CloneID	OVa08317
Clone ID Related Accession (Same CDS sequence)	XM_002263605.4
Accession Version	XM_002263605.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3870bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	1479916800000
Organism	Vitis vinifera(wine grape)
Product	trafficking protein particle complex subunit 8
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_012014.3) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Nov 25, 2016 this sequence version replaced XM_002263605.3. ##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##

ATGGCGACGA TGCTAGGGCA ATCCGATCCG GCGAATTCGC CACTTGGCCT AATGCTATTG 
GACGAGATCA CTCCGGTGGT GATGGTTCTC CGCACTCCTC TTGTCGAAGA AGCTTGCCTC 
AAGAACGGCC TCAACCTCGT CGAATTGCTT ACTCCTTTCT CTACCTTTAA CAATATCGAC 
GTTCCAGTAC GGACGGCGAG CGATCAACCT TATAGGCTTC AGAAATTCAA ATTACGATTG 
TTTTATGCAT CGGATATCCG ACAGCCGAAT CTGGAGGTTG CAAAAGAGCA GCTGAAAGAG 
GTTATTACCC ATGCTGGGGA GAAAGACTTT TCTGACTTGT GTTCAGACCC ACCTCAAATT 
GAAGATGTCC TATCTACCCC TGAATCTGAA ATTCTGCCAT CATGGTTTCA ATTTTTCAAT 
AAAGAGCTCG TACGTTCCCT GTCATTTTCA GATCATGAAG CTTTTGACCA TCCTGTGGCA 
TGCCTTTTGG TTGTTTCAAC GAAGGATGAA CGGCCACTTA ACAGATTTGT TGACCTTTTC 
AACACTAATC AACTGCCCTT TCTGCTTAAT GATGGTGTGA TGGACCCAAA GATTTTGAAG 
CATTATTTAT TAGTGCATGA TAACCAAGAT GGCTCCTCAG AGAAGGCAGA AAAAATTTTA 
ACAGAAATGA GGAGTACTTT TGGCTCTAAT GATTGTCAAT TACTGTGCAT TAACTCTTCT 
CAAGATGGAT TAGTAGAACA TGAAGATAAC CCATGGGCTC CTTATAAAAC TGATGCTTCA 
CTTAGTCAGC CTCTTGGCTG TTTTCTCAAC ATTGATGATT TTAATGAGAT AAAAGATCTC 
ATGCAAGATT TTTCTTCTAA ACATATCATT CCTCACATGG AGCAAAAAAT ACGCGTGCTC 
AATCAGCAGG TTTCTGTAAC ACGGAAAGGT TTTAGAAACC AAATTAAAAA TTTGTGGTGG 
AGAAAAGGGA AAGAAGATAC ACCAGATGCT TCCAATGGCC CTATGTATAC CTTTAGCTCC 
ATTGAATCTC AAATTAGAGT TTTGGGTGAT TATGCCTTTA TGTTACGGGA TTATGAACTT 
GCATTGTCAA ACTATCGACT GCTTTCCACT GATTACAAGC TTGACAAAGC CTGGAAGCGC 
TGTGCTGGTG TACAGGAAAT GATGGGGCTT ACATACTTCT TGTTGGATCA ATCAAGAAAG 
GAGGCAGAAT ATTGCATGGA AAATGCATTT AATACTTACT TGAAAATTGG GTCATCAGGT 
CAGCAAAATG CAACACGTTG TGGTCTTTGG TGGATAGAAA TGTTGAAAAC AAGGGATCAG 
TATAAAGAGG CTGCCAGTGT TTACTTCCGT ATATCCGGTG AGGAACCTTT ACATTCTGCT 
GTAATGCTTG AGCAAGCATC TTATTGCTAC TTGTTTTCTA AACCACCCAT GTTACACAAG 
TATGGATTTC ACCTTGTTCT TTCTGGCGAT CATTATAAAA AATGTGATCA GATAAAGCAT 
GCAATTCGGA CATATAGAAG GGCTCTTTCT GTGTACAAAG GAACTATGTG GAGCTATATC 
AAAGATCATG TTCATTTCCA TATTGGAAAG TGGTATGCTT TTCTTGGGAT GTTTGATGTG 
GCAGTCCCAC ATATGTTGGA AGTTCTGACA TGTGGTCATC AGTCTAAGAC AACACAGGAC 
TTATTCTTAA GGGAATTCCT TCAAATTGTT CAGAACACAG GGAAAAAATT TGAGGTATTG 
AAACTTCAGT TGCCTGCTAT CAACATTCCA TCAGTCAAAG TTATTTTTGA AGATAATCGA 
ACTTATGCAT CTCCTGCAGC TGCTAGTGTT AGAGAAAGTA TGTGGCAGTC TTTGGAGGAG 
GACATGATTC CATCTTTGCC TACCATCAGG ACTAATTGGT TGGAGTCACT ACCTAAGAAT 
ATTTCAAAAA AACATAAACA ATCAAACATT TGTGTGACAG GAGAAGCTAT AAAGGTGGAT 
GTCGAATTCA AAAATCCTCT TCAAATCACA ATTTCCATCT CCAGTGTTTC CTTAATATGT 
GAGCTTTCAG CTAGTTCTGA GGAAATGGAC TGTGATGCTA ATAGCTCAAC CTCTGAGCTT 
CAGAATGATG AGGAATCTGG AAAATTAACC ATTAGTAGGG AGCAGACCTC TAATAGTTCA 
TTTACATTGT CCGAGGCTGA TTTTTCACTT GGAGGAGGTG AAAGAATTAT GGTACAACTT 
ACAGTCACTC CCAGAATAGA AGGCATCCTA AAAGTAGTTG GTGTGAGGTG GAACTTGTCA 
GACTCTGTGG TTGGTTTTCA TAACTTTGAG TCTAATCTTG TAAAGAAGAA AATTGCGAAG 
GGAAGAAGGA AAGCCAAGCA TTCTCCTAGT GATAATCTGA AGTTTTTAGT GATCAAGAGT 
CTTCCCAAGC TTGAGGGCTC TATTCATCAC TTACCCGAAA AAGTATATGC GGGAGACCTG 
CGGCGTCTTG TTTTGGAGTT GAGGAACCAG TCAGAATATC CTGTGAAGAA TATGAAGATG 
AAGATCAGCA GTCCTAGATT TCTAAATGTT GGGAGCTGGG AAATTTTGAA CACAGAATTC 
CCTGCTTGCT TAGAAAAGAA GACAGATCCT GAACAAAGAG TACAGGCTAA CCATAACAAA 
GAGTCTCATA CCGTGTTTCT GTTTCCAGAG GACACATTAA TTCAAGGGGG AACACCATTC 
CTGTGGCCCC TTTGGCTTCG GGCTGCTGTT CCTGGAAACA TTCCCTTGTA TATAACAATA 
TACTATGAGA TGGGAGACAT ATCTAACATC ATGAGACACC GGACTCTACG TATGTATCAT 
AACTTACAGG TGTTATCATC ATTGGATTTG TCGTTCCAAA TCAGCCCTTG TCCATCAAGA 
TTGAAAGAGT TCCTTGTGCG CATGGATGCT GTCAACAAGA CCAGTTCAGA GATTTTCCAG 
ATTCATCAGT TATCATCTGT TGGGCATCAG TGGAAGATCT CATTGCTTCA ACCTGTTGAG 
ACCATGCTTC CTTCAGAGTT GATGCCTGGC CAAGCTTTGT CACGTTTCTT CAAGCTTGAG 
AATGTCAGGA AATTGACAAC TCCTGAAGAC AAGGTGTCTT TGCTTGCTCC TCAAGAGGGA 
AGTGATGTAA AATTGGGCAG TGAGGCTAGC AATGAAATTC TGTTTGACAT ATGTAGCTCA 
CCTCTGGCTG ATTTCCACAT TTGCGAAAGA ATCCACCAGG AAGGATCACA TCAGGAACAT 
CCAAATTCTG TCGACTTCAT CTTGATCTCT CAGCCATCAA ATGATAGTAT CAATACCGGG 
TTACCCAATC CTCCTCCACA TCTCTTTTCT CATCATGTAT GTCATTGCAG GATTGAGAGC 
ACAAGCCCGA TATGGTGGTT AATGGAAGGG CCTCGGACCA TACATCATAA CTTTTCTGCT 
TCTTTCTGTG AAGTGAAACT AAAGATGACT CTCTACAACT CATCAGATTT GTCAGCATCA 
ATTTTCATTC ATACTCTTGA TTCTATCCCC AGCACCAGTC AATTAAGTGA GGTAATGGCA 
GGTTCTCCTG GAAACCAAGC AGGGTGGTAT GATACATCTC TGTTGAATGA TATTAAGGTC 
ACATCCGACG TACTTGGAAT GAAAGTTGGA AAGCCACCAT CACTGGATAG TGTCTCCCAA 
TTCATTTGGT CTGGGTCTTG CTCTACTAAA GTTGAAGTTG AGCCAATGTC CACAGCTGTA 
GTACCTCTCC AGATATGTGT ATTCTCCCCA GGTACATATG ATCTATCAAA TTATGCTTTG 
CATTGGAATC TCCTGTCATC CAAGGATGAA GGAAGTCATG GGAAATGCCC AGGGAGCCCC 
TATTATCTCA CTGTGCTGCA ATCTGCCTGA

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

RefSeq	XP_002263641.2
CDS	192..4061
Translation	MATMLGQSDPANSPLGLMLLDEITPVVMVLRTPLVEEACLKNGLNLVELLTPFSTFNNIDVPVRTASDQPYRLQKFKLRLFYASDIRQPNLEVAKEQLKEVITHAGEKDFSDLCSDPPQIEDVLSTPESEILPSWFQFFNKELVRSLSFSDHEAFDHPVACLLVVSTKDERPLNRFVDLFNTNQLPFLLNDGVMDPKILKHYLLVHDNQDGSSEKAEKILTEMRSTFGSNDCQLLCINSSQDGLVEHEDNPWAPYKTDASLSQPLGCFLNIDDFNEIKDLMQDFSSKHIIPHMEQKIRVLNQQVSVTRKGFRNQIKNLWWRKGKEDTPDASNGPMYTFSSIESQIRVLGDYAFMLRDYELALSNYRLLSTDYKLDKAWKRCAGVQEMMGLTYFLLDQSRKEAEYCMENAFNTYLKIGSSGQQNATRCGLWWIEMLKTRDQYKEAASVYFRISGEEPLHSAVMLEQASYCYLFSKPPMLHKYGFHLVLSGDHYKKCDQIKHAIRTYRRALSVYKGTMWSYIKDHVHFHIGKWYAFLGMFDVAVPHMLEVLTCGHQSKTTQDLFLREFLQIVQNTGKKFEVLKLQLPAINIPSVKVIFEDNRTYASPAAASVRESMWQSLEEDMIPSLPTIRTNWLESLPKNISKKHKQSNICVTGEAIKVDVEFKNPLQITISISSVSLICELSASSEEMDCDANSSTSELQNDEESGKLTISREQTSNSSFTLSEADFSLGGGERIMVQLTVTPRIEGILKVVGVRWNLSDSVVGFHNFESNLVKKKIAKGRRKAKHSPSDNLKFLVIKSLPKLEGSIHHLPEKVYAGDLRRLVLELRNQSEYPVKNMKMKISSPRFLNVGSWEILNTEFPACLEKKTDPEQRVQANHNKESHTVFLFPEDTLIQGGTPFLWPLWLRAAVPGNIPLYITIYYEMGDISNIMRHRTLRMYHNLQVLSSLDLSFQISPCPSRLKEFLVRMDAVNKTSSEIFQIHQLSSVGHQWKISLLQPVETMLPSELMPGQALSRFFKLENVRKLTTPEDKVSLLAPQEGSDVKLGSEASNEILFDICSSPLADFHICERIHQEGSHQEHPNSVDFILISQPSNDSINTGLPNPPPHLFSHHVCHCRIESTSPIWWLMEGPRTIHHNFSASFCEVKLKMTLYNSSDLSASIFIHTLDSIPSTSQLSEVMAGSPGNQAGWYDTSLLNDIKVTSDVLGMKVGKPPSLDSVSQFIWSGSCSTKVEVEPMSTAVVPLQICVFSPGTYDLSNYALHWNLLSSKDEGSHGKCPGSPYYLTVLQSA

Target ORF information:

RefSeq Version	XM_002263605.4
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera trafficking protein particle complex subunit 8 (LOC100248747), mRNA.

Target ORF information:

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

XM_002263605.4

ORF Insert Sequence:

ATGGCGACGA TGCTAGGGCA ATCCGATCCG GCGAATTCGC CACTTGGCCT AATGCTATTG 
GACGAGATCA CTCCGGTGGT GATGGTTCTC CGCACTCCTC TTGTCGAAGA AGCTTGCCTC 
AAGAACGGCC TCAACCTCGT CGAATTGCTT ACTCCTTTCT CTACCTTTAA CAATATCGAC 
GTTCCAGTAC GGACGGCGAG CGATCAACCT TATAGGCTTC AGAAATTCAA ATTACGATTG 
TTTTATGCAT CGGATATCCG ACAGCCGAAT CTGGAGGTTG CAAAAGAGCA GCTGAAAGAG 
GTTATTACCC ATGCTGGGGA GAAAGACTTT TCTGACTTGT GTTCAGACCC ACCTCAAATT 
GAAGATGTCC TATCTACCCC TGAATCTGAA ATTCTGCCAT CATGGTTTCA ATTTTTCAAT 
AAAGAGCTCG TACGTTCCCT GTCATTTTCA GATCATGAAG CTTTTGACCA TCCTGTGGCA 
TGCCTTTTGG TTGTTTCAAC GAAGGATGAA CGGCCACTTA ACAGATTTGT TGACCTTTTC 
AACACTAATC AACTGCCCTT TCTGCTTAAT GATGGTGTGA TGGACCCAAA GATTTTGAAG 
CATTATTTAT TAGTGCATGA TAACCAAGAT GGCTCCTCAG AGAAGGCAGA AAAAATTTTA 
ACAGAAATGA GGAGTACTTT TGGCTCTAAT GATTGTCAAT TACTGTGCAT TAACTCTTCT 
CAAGATGGAT TAGTAGAACA TGAAGATAAC CCATGGGCTC CTTATAAAAC TGATGCTTCA 
CTTAGTCAGC CTCTTGGCTG TTTTCTCAAC ATTGATGATT TTAATGAGAT AAAAGATCTC 
ATGCAAGATT TTTCTTCTAA ACATATCATT CCTCACATGG AGCAAAAAAT ACGCGTGCTC 
AATCAGCAGG TTTCTGTAAC ACGGAAAGGT TTTAGAAACC AAATTAAAAA TTTGTGGTGG 
AGAAAAGGGA AAGAAGATAC ACCAGATGCT TCCAATGGCC CTATGTATAC CTTTAGCTCC 
ATTGAATCTC AAATTAGAGT TTTGGGTGAT TATGCCTTTA TGTTACGGGA TTATGAACTT 
GCATTGTCAA ACTATCGACT GCTTTCCACT GATTACAAGC TTGACAAAGC CTGGAAGCGC 
TGTGCTGGTG TACAGGAAAT GATGGGGCTT ACATACTTCT TGTTGGATCA ATCAAGAAAG 
GAGGCAGAAT ATTGCATGGA AAATGCATTT AATACTTACT TGAAAATTGG GTCATCAGGT 
CAGCAAAATG CAACACGTTG TGGTCTTTGG TGGATAGAAA TGTTGAAAAC AAGGGATCAG 
TATAAAGAGG CTGCCAGTGT TTACTTCCGT ATATCCGGTG AGGAACCTTT ACATTCTGCT 
GTAATGCTTG AGCAAGCATC TTATTGCTAC TTGTTTTCTA AACCACCCAT GTTACACAAG 
TATGGATTTC ACCTTGTTCT TTCTGGCGAT CATTATAAAA AATGTGATCA GATAAAGCAT 
GCAATTCGGA CATATAGAAG GGCTCTTTCT GTGTACAAAG GAACTATGTG GAGCTATATC 
AAAGATCATG TTCATTTCCA TATTGGAAAG TGGTATGCTT TTCTTGGGAT GTTTGATGTG 
GCAGTCCCAC ATATGTTGGA AGTTCTGACA TGTGGTCATC AGTCTAAGAC AACACAGGAC 
TTATTCTTAA GGGAATTCCT TCAAATTGTT CAGAACACAG GGAAAAAATT TGAGGTATTG 
AAACTTCAGT TGCCTGCTAT CAACATTCCA TCAGTCAAAG TTATTTTTGA AGATAATCGA 
ACTTATGCAT CTCCTGCAGC TGCTAGTGTT AGAGAAAGTA TGTGGCAGTC TTTGGAGGAG 
GACATGATTC CATCTTTGCC TACCATCAGG ACTAATTGGT TGGAGTCACT ACCTAAGAAT 
ATTTCAAAAA AACATAAACA ATCAAACATT TGTGTGACAG GAGAAGCTAT AAAGGTGGAT 
GTCGAATTCA AAAATCCTCT TCAAATCACA ATTTCCATCT CCAGTGTTTC CTTAATATGT 
GAGCTTTCAG CTAGTTCTGA GGAAATGGAC TGTGATGCTA ATAGCTCAAC CTCTGAGCTT 
CAGAATGATG AGGAATCTGG AAAATTAACC ATTAGTAGGG AGCAGACCTC TAATAGTTCA 
TTTACATTGT CCGAGGCTGA TTTTTCACTT GGAGGAGGTG AAAGAATTAT GGTACAACTT 
ACAGTCACTC CCAGAATAGA AGGCATCCTA AAAGTAGTTG GTGTGAGGTG GAACTTGTCA 
GACTCTGTGG TTGGTTTTCA TAACTTTGAG TCTAATCTTG TAAAGAAGAA AATTGCGAAG 
GGAAGAAGGA AAGCCAAGCA TTCTCCTAGT GATAATCTGA AGTTTTTAGT GATCAAGAGT 
CTTCCCAAGC TTGAGGGCTC TATTCATCAC TTACCCGAAA AAGTATATGC GGGAGACCTG 
CGGCGTCTTG TTTTGGAGTT GAGGAACCAG TCAGAATATC CTGTGAAGAA TATGAAGATG 
AAGATCAGCA GTCCTAGATT TCTAAATGTT GGGAGCTGGG AAATTTTGAA CACAGAATTC 
CCTGCTTGCT TAGAAAAGAA GACAGATCCT GAACAAAGAG TACAGGCTAA CCATAACAAA 
GAGTCTCATA CCGTGTTTCT GTTTCCAGAG GACACATTAA TTCAAGGGGG AACACCATTC 
CTGTGGCCCC TTTGGCTTCG GGCTGCTGTT CCTGGAAACA TTCCCTTGTA TATAACAATA 
TACTATGAGA TGGGAGACAT ATCTAACATC ATGAGACACC GGACTCTACG TATGTATCAT 
AACTTACAGG TGTTATCATC ATTGGATTTG TCGTTCCAAA TCAGCCCTTG TCCATCAAGA 
TTGAAAGAGT TCCTTGTGCG CATGGATGCT GTCAACAAGA CCAGTTCAGA GATTTTCCAG 
ATTCATCAGT TATCATCTGT TGGGCATCAG TGGAAGATCT CATTGCTTCA ACCTGTTGAG 
ACCATGCTTC CTTCAGAGTT GATGCCTGGC CAAGCTTTGT CACGTTTCTT CAAGCTTGAG 
AATGTCAGGA AATTGACAAC TCCTGAAGAC AAGGTGTCTT TGCTTGCTCC TCAAGAGGGA 
AGTGATGTAA AATTGGGCAG TGAGGCTAGC AATGAAATTC TGTTTGACAT ATGTAGCTCA 
CCTCTGGCTG ATTTCCACAT TTGCGAAAGA ATCCACCAGG AAGGATCACA TCAGGAACAT 
CCAAATTCTG TCGACTTCAT CTTGATCTCT CAGCCATCAA ATGATAGTAT CAATACCGGG 
TTACCCAATC CTCCTCCACA TCTCTTTTCT CATCATGTAT GTCATTGCAG GATTGAGAGC 
ACAAGCCCGA TATGGTGGTT AATGGAAGGG CCTCGGACCA TACATCATAA CTTTTCTGCT 
TCTTTCTGTG AAGTGAAACT AAAGATGACT CTCTACAACT CATCAGATTT GTCAGCATCA 
ATTTTCATTC ATACTCTTGA TTCTATCCCC AGCACCAGTC AATTAAGTGA GGTAATGGCA 
GGTTCTCCTG GAAACCAAGC AGGGTGGTAT GATACATCTC TGTTGAATGA TATTAAGGTC 
ACATCCGACG TACTTGGAAT GAAAGTTGGA AAGCCACCAT CACTGGATAG TGTCTCCCAA 
TTCATTTGGT CTGGGTCTTG CTCTACTAAA GTTGAAGTTG AGCCAATGTC CACAGCTGTA 
GTACCTCTCC AGATATGTGT ATTCTCCCCA GGTACATATG ATCTATCAAA TTATGCTTTG 
CATTGGAATC TCCTGTCATC CAAGGATGAA GGAAGTCATG GGAAATGCCC AGGGAGCCCC 
TATTATCTCA CTGTGCTGCA ATCTGCCTGA

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

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LOC100248747 cDNA ORF clone, Vitis vinifera(wine grape)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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