LOC100246154 cDNA ORF clone, Vitis vinifera(wine grape)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC100246154
Entrez Gene ID	100246154
Full Name	probable phosphoribosylformylglycinamidine synthase, chloroplastic/mitochondrial
Gene Type	protein-coding
Organism	Vitis vinifera(wine grape)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019224164.1	XP_019079709.1	probable phosphoribosylformylglycinamidine synthase, chloroplastic/mitochondrial
XM_010660235.2	XP_010658537.1	probable phosphoribosylformylglycinamidine synthase, chloroplastic/mitochondrial

Pathways from BioSystems
Gene Ontology

The following LOC100246154 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100246154 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
OVa25128	XM_010660235.2 Latest version!	Vitis vinifera probable phosphoribosylformylglycinamidine synthase, chloroplastic/mitochondrial (LOC100246154), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OVa25128	XM_019224164.1 Latest version!	Vitis vinifera probable phosphoribosylformylglycinamidine synthase, chloroplastic/mitochondrial (LOC100246154), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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)

LOC100246154 ( XM_019224164.1 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_019079709.1 Vitis vinifera probable phosphoribosylformylglycinamidine synthase, chloroplastic/mitochondrial (LOC100246154), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OVa25128
Clone ID Related Accession (Same CDS sequence)	XM_019224164.1 , XM_010660235.2
Accession Version	XM_019224164.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4239bp) 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	probable phosphoribosylformylglycinamidine synthase, chloroplastic/mitochondrial
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 (GAKH01071151.1) 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 287 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGCGGCTG CCTGTGAAAT TACAGCAACC GAGTTTTTGT GGGGTACCCG AAGGCAAAAT 
CTGCTTTTGC AGAGGCACTC CCATGCGCAG AAAAGTCGTT TGCTTTGGGG TACATTCCAT 
GTGCGAAAAC CAAAACTGGG TCTATCTAAT AGAGGTACTT CACTGAGGTG CCGCGCCCAA 
GCAAAGCCCA GAGCTGTGGT TTCTGGTGGT GTTACCAGTC CGCTGGATGA AAAATCAAAC 
CTTGTTCAAA AGCCCACTGC AGAGGTTATA CATTTTTTTC GTATTCCATT GATCCAGAAG 
AGTGCGACGG CTGAACTTCT CAAGTCGGTT CAAACGAAAA TCTCGAACCA GATTGTTGAT 
TTGAAGACTG AGCAGTGTTT TAATATTGGG CTTGAGGGAG GGCTGTCAGG TCAAAAGCTT 
TTAGTTCTCA AGTGGCTTCT TCAAGAAACT TATGAGCCTG AAAATTTGGG GACAGAGAGC 
TTTCTTGATC AGGAGAGGCG AGATGGGATC AATACGGTGA TAATTGAGGT TGGACCGAGG 
TTGTCTTTTA CTACTGCATG GTCTGCTAAT GCTGTGTCAA TTTGCCGAGC GTGTGGGTTG 
ACAGAGGTGA CCAGAATGGA ACGATCAAGG AGGTACTTGT TATATGTCAA GGCTGGTAGT 
GCATTGCAAG ATCATCAGAT TAATGAGTTT GCTGCTATGG TCCATGATCG GATGACCGAG 
TGTGTTTACA CCCAGAAGCT CACATCTTTC GAGACTAGTG TTGTTCCAGA GGAAGTTCGG 
TATGTACCTG TGATGGAGAG GGGGCGGAAG GCATTGGAGG ATATTAATGA AGAAATGGGT 
TTAGCATTTG ATGAGCAAGA TTTACAGTAT TACACTAGGC TGTTCAGGGA AGACATCAAG 
CGGGATCCTA CAACGGTGGA ATTGTTTGAT ATCGCACAAT CTAACAGTGA GCATAGTAGG 
CACTGGTTTT TTACTGGGAA AATTGTTATT GATGGGCAAC GAATGAGTCG GTCTCTCATG 
CAGATTGTGA AGAGCACTTT ACAGGCAAAT CCAAATAACT CTGTCATTGG TTTCAAGGAC 
AACTCTAGTG CAATCAAGGG CTTTCTTGTG AAACAATTGC GACCAGTTCA GCCGGGTTTA 
ACATGTCCCT TAGACACAAG TATTCGTGAT CTTGATATTT TATTTACCGC TGAGACCCAT 
AATTTCCCAT GTGCAGTGGC GCCTTACCCT GGTGCAGAGA CTGGTGCAGG GGGCCGCATT 
AGGGACACCC ATGCAACAGG AAGGGGGTCT TTTGTTGTTG CTGCTACAGC TGGTTATTGT 
GTTGGGAATC TTAATATTGA AGGGTCTTAT GCTCCATGGG AAGATCCATC ATTTACATAC 
CCATCCAACT TGGCTTCACC TCTTCAAATC CTCATTGATG CTAGCAATGG CGCGTCTGAC 
TATGGGAACA AATTTGGAGA GCCCTTGATT CAGGGCTATA CCAGAACTTT TGGAATGAGA 
CTTCCAAGTG GGGAAAGACG GGAATGGTTA AAGCCAATCA TGTTCAGTGC AGGGATTGGG 
CAGATTGATC ACATCCACAT AACAAAAGGA GAGCCTGATA TTGGAATGTT AGTAGTTAAG 
ATTGGAGGCC CAGCATATCG CATAGGAATG GGAGGTGGAG CTGCATCTAG TATGGTTAGT 
GGTCAGAATG ATGCTGAGCT TGATTTTAAT GCAGTACAGC GTGGAGATGC AGAGATGGCA 
CAGAAATTGT ACCGTGTTGT CCGAGCTTGC ATTGAAATGA GGGAAGATAA CCCAATAATC 
AGCATACATG ACCAGGGTGC TGGTGGGAAT TGTAACGTCG TTAAGGAAAT AATATACCCA 
AAGGGTGCTC AGATTGATAT TCGGTCAATT GTAGTTGGTG ACCACACAAT GTCTGTGTTG 
GAGATATGGG GTGCAGAATA TCAGGAGCAA GATGCAATCT TAGTGAAGCC TGAAAGCCGC 
AGCCTATTGC AATCAATCTG TGAAAGAGAA AGGGTCTCTA TGGCTGTTAT TGGAACAATA 
AATGGTGAGG GACGAATTGT TTTAGTTGAT AGCAAGGCTA TTCAAAGATG TCATTCGAGT 
GGACTTCCTC CACCTCCTCC TGCTGTGGAT CTTGAGCTCG AGAAAGTACT TGGGGACATG 
CCTAAAAAAG TCTTTGAATT TAAGCGGATT GATCATGAAC GAGAACCACT TGATATTGCA 
CCTGGGATCA CTGTAATGGA ATCTCTGAAG AGGGTACTGA GACTTCCATC AGTCTGTTCA 
AAACGCTTCT TGACAACAAA AGTTGATCGG TGTGTAACAG GTCTTGTGGC ACAGCAGCAA 
ACTGTTGGTC CCTTGCAAAT CACCCTTTCT GATGTTGCAG TCATCTCTCA GACTTACACT 
GACATGACTG GAGGTGCATG TGCGATTGGG GAACAGCCAA TCAAGGGTCT GTTGGATCCA 
AAAGCAATGG CAAGACTGGC TGTTGGAGAA GCATTGACAA ATCTTGTTTG GGCAAAGGTA 
ACTGCTCTAT CTGATGTTAA GTCAAGTGCG AACTGGATGT ATGCTGCCAA ACTTGAAGGC 
GAAGGAGCAG CCATGTACGA TGCTGCTATG GCTCTTTCGG AAGCAATGAT TGAGCTTGGT 
ATTGCTATTG ATGGAGGGAA GGACAGTCTT TCCATGGCAG CCCATGCATC AGGTGAGGTT 
GTCAAGGCTC CTGGAAATCT TGTAATCAGT GTTTATGTCA CATGTCCTGA TATAACCAAA 
ACAGTGACCC CGGATTTGAA GCTTGAAGAT GAGGGAATTC TGCTTCACAT TGATTTGTCA 
AAGGGAAAGC GGCGGTTAGG TGGTTCTGCT CTAGCTCAGG TTTTTGATCA AGTAGGAGAT 
GAGTCTCCTG ATCTTGATGA TGTTCCTTAC CTTAAAAGGG CTTTTGAGGG AGTTCAGGAG 
CTCCTTGCTG ATGGGTCGAT CTCTGCTGGT CACGATATCA GTGATGGTGG ACTGATTGTA 
TGTGTGCTGG AGATGGCATT TGCTGGGAAT TGTGGTATTG CCTTGGATTT GACTTCACAT 
GGGAATAGCC TCTTTGAAAC ACTATTTGCA GAAGAACTTG GCCTTGTTCT AGAGGTTAGC 
AGGACAAACT TGGACATGAT AATGGGAAAG CTTCATGGCG TTGGTGTTTC AGCTGAGATC 
ATTGGACAAG TAACTGCGAC TCCCATGATA GAATTAAAGG TTGATGATGT TACTCATTTA 
AATGAGGACA CTTCTTATCT TAGGGACATG TGGGAGGAAA CCAGTTTTCA GCTGGAAAAA 
TTCCAAAGAT TGGCTTCTTG TGTGGATTTA GAGAAAGAAG GGTTGAAGAG TAGACATGAA 
CCTTCATGGA AATTGTCCTT CACTCCTGCA ATTACAGATA AGAAATATAT GACTGCAATT 
TCAAAACCGA AAGTGGCTGT GATTCGAGAG GAAGGCAGCA ATGGGGATAG AGAAATGTCT 
GCTGCATTTT ATGCTGCCGG TTTTGAACCA TGGGATGTTA CCATGTCAGA CCTTCTCAAT 
GGAGTCATCT CTCTGCAGGA GTTCCGTGGG ATTGTGTTTG TAGGTGGTTT TAGCTATGCT 
GATGTACTTG ATTCTGCCAA AGGTTGGTCG GCTTCTATAC GATTCAATCA ACCTCTTCTA 
AATCAATTTC AAGAGTTTTA CAAACGGGAA GACACTTTTA GTCTTGGGGT TTGCAATGGG 
TGTCAGCTAA TGGCCCTGTT GGGGTGGGTC CCTGGGCCCC AAGTTGGGGG TGTTTTTGGC 
AATGGTGGAG ACCCTTCACA ACCAAGGTTC ATCCACAATG AGTCAGGAAG GTTTGAATGT 
CGCTTCACAA GTGTGACAAT AAAGGACTCT CCTGCTATAA TGTTCAAAGG AATGGAGGGC 
AGCACATTGG GTGTGTGGGC TGCCCATGGT GAGGGAAGAG CTTATTTTCC TGATGGTAGT 
GTTCTGGATA GTGTGATTGA TTCAAATTTG GCCCCAATTA GATATTGTGA TGATGATGGG 
AAGCCAACAG AAGTCTATCC TTTCAATCTG AATGGATCTC CCCTAGGAGT AGCAGCGATT 
TGTTCTCCGG ATGGGAGGCA TCTTGCTATG ATGCCTCATC CAGAGCGATG CTTCTTGATG 
TGGCAGTTCC CATGGTATCC GAAGCAGTGG AATGTGGACA AGGCAGGCCC CAGTCCTTGG 
TTGCGAATGT TCCAAAATGC CAGGGAGTGG TGCTCTTGA

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

RefSeq	XP_019079709.1
CDS	316..4554
Translation	MAAACEITATEFLWGTRRQNLLLQRHSHAQKSRLLWGTFHVRKPKLGLSNRGTSLRCRAQAKPRAVVSGGVTSPLDEKSNLVQKPTAEVIHFFRIPLIQKSATAELLKSVQTKISNQIVDLKTEQCFNIGLEGGLSGQKLLVLKWLLQETYEPENLGTESFLDQERRDGINTVIIEVGPRLSFTTAWSANAVSICRACGLTEVTRMERSRRYLLYVKAGSALQDHQINEFAAMVHDRMTECVYTQKLTSFETSVVPEEVRYVPVMERGRKALEDINEEMGLAFDEQDLQYYTRLFREDIKRDPTTVELFDIAQSNSEHSRHWFFTGKIVIDGQRMSRSLMQIVKSTLQANPNNSVIGFKDNSSAIKGFLVKQLRPVQPGLTCPLDTSIRDLDILFTAETHNFPCAVAPYPGAETGAGGRIRDTHATGRGSFVVAATAGYCVGNLNIEGSYAPWEDPSFTYPSNLASPLQILIDASNGASDYGNKFGEPLIQGYTRTFGMRLPSGERREWLKPIMFSAGIGQIDHIHITKGEPDIGMLVVKIGGPAYRIGMGGGAASSMVSGQNDAELDFNAVQRGDAEMAQKLYRVVRACIEMREDNPIISIHDQGAGGNCNVVKEIIYPKGAQIDIRSIVVGDHTMSVLEIWGAEYQEQDAILVKPESRSLLQSICERERVSMAVIGTINGEGRIVLVDSKAIQRCHSSGLPPPPPAVDLELEKVLGDMPKKVFEFKRIDHEREPLDIAPGITVMESLKRVLRLPSVCSKRFLTTKVDRCVTGLVAQQQTVGPLQITLSDVAVISQTYTDMTGGACAIGEQPIKGLLDPKAMARLAVGEALTNLVWAKVTALSDVKSSANWMYAAKLEGEGAAMYDAAMALSEAMIELGIAIDGGKDSLSMAAHASGEVVKAPGNLVISVYVTCPDITKTVTPDLKLEDEGILLHIDLSKGKRRLGGSALAQVFDQVGDESPDLDDVPYLKRAFEGVQELLADGSISAGHDISDGGLIVCVLEMAFAGNCGIALDLTSHGNSLFETLFAEELGLVLEVSRTNLDMIMGKLHGVGVSAEIIGQVTATPMIELKVDDVTHLNEDTSYLRDMWEETSFQLEKFQRLASCVDLEKEGLKSRHEPSWKLSFTPAITDKKYMTAISKPKVAVIREEGSNGDREMSAAFYAAGFEPWDVTMSDLLNGVISLQEFRGIVFVGGFSYADVLDSAKGWSASIRFNQPLLNQFQEFYKREDTFSLGVCNGCQLMALLGWVPGPQVGGVFGNGGDPSQPRFIHNESGRFECRFTSVTIKDSPAIMFKGMEGSTLGVWAAHGEGRAYFPDGSVLDSVIDSNLAPIRYCDDDGKPTEVYPFNLNGSPLGVAAICSPDGRHLAMMPHPERCFLMWQFPWYPKQWNVDKAGPSPWLRMFQNAREWCS

Target ORF information:

RefSeq Version	XM_019224164.1
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera probable phosphoribosylformylglycinamidine synthase, chloroplastic/mitochondrial (LOC100246154), transcript variant X2, mRNA.

Target ORF information:

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

XM_019224164.1

ORF Insert Sequence:

ATGGCGGCTG CCTGTGAAAT TACAGCAACC GAGTTTTTGT GGGGTACCCG AAGGCAAAAT 
CTGCTTTTGC AGAGGCACTC CCATGCGCAG AAAAGTCGTT TGCTTTGGGG TACATTCCAT 
GTGCGAAAAC CAAAACTGGG TCTATCTAAT AGAGGTACTT CACTGAGGTG CCGCGCCCAA 
GCAAAGCCCA GAGCTGTGGT TTCTGGTGGT GTTACCAGTC CGCTGGATGA AAAATCAAAC 
CTTGTTCAAA AGCCCACTGC AGAGGTTATA CATTTTTTTC GTATTCCATT GATCCAGAAG 
AGTGCGACGG CTGAACTTCT CAAGTCGGTT CAAACGAAAA TCTCGAACCA GATTGTTGAT 
TTGAAGACTG AGCAGTGTTT TAATATTGGG CTTGAGGGAG GGCTGTCAGG TCAAAAGCTT 
TTAGTTCTCA AGTGGCTTCT TCAAGAAACT TATGAGCCTG AAAATTTGGG GACAGAGAGC 
TTTCTTGATC AGGAGAGGCG AGATGGGATC AATACGGTGA TAATTGAGGT TGGACCGAGG 
TTGTCTTTTA CTACTGCATG GTCTGCTAAT GCTGTGTCAA TTTGCCGAGC GTGTGGGTTG 
ACAGAGGTGA CCAGAATGGA ACGATCAAGG AGGTACTTGT TATATGTCAA GGCTGGTAGT 
GCATTGCAAG ATCATCAGAT TAATGAGTTT GCTGCTATGG TCCATGATCG GATGACCGAG 
TGTGTTTACA CCCAGAAGCT CACATCTTTC GAGACTAGTG TTGTTCCAGA GGAAGTTCGG 
TATGTACCTG TGATGGAGAG GGGGCGGAAG GCATTGGAGG ATATTAATGA AGAAATGGGT 
TTAGCATTTG ATGAGCAAGA TTTACAGTAT TACACTAGGC TGTTCAGGGA AGACATCAAG 
CGGGATCCTA CAACGGTGGA ATTGTTTGAT ATCGCACAAT CTAACAGTGA GCATAGTAGG 
CACTGGTTTT TTACTGGGAA AATTGTTATT GATGGGCAAC GAATGAGTCG GTCTCTCATG 
CAGATTGTGA AGAGCACTTT ACAGGCAAAT CCAAATAACT CTGTCATTGG TTTCAAGGAC 
AACTCTAGTG CAATCAAGGG CTTTCTTGTG AAACAATTGC GACCAGTTCA GCCGGGTTTA 
ACATGTCCCT TAGACACAAG TATTCGTGAT CTTGATATTT TATTTACCGC TGAGACCCAT 
AATTTCCCAT GTGCAGTGGC GCCTTACCCT GGTGCAGAGA CTGGTGCAGG GGGCCGCATT 
AGGGACACCC ATGCAACAGG AAGGGGGTCT TTTGTTGTTG CTGCTACAGC TGGTTATTGT 
GTTGGGAATC TTAATATTGA AGGGTCTTAT GCTCCATGGG AAGATCCATC ATTTACATAC 
CCATCCAACT TGGCTTCACC TCTTCAAATC CTCATTGATG CTAGCAATGG CGCGTCTGAC 
TATGGGAACA AATTTGGAGA GCCCTTGATT CAGGGCTATA CCAGAACTTT TGGAATGAGA 
CTTCCAAGTG GGGAAAGACG GGAATGGTTA AAGCCAATCA TGTTCAGTGC AGGGATTGGG 
CAGATTGATC ACATCCACAT AACAAAAGGA GAGCCTGATA TTGGAATGTT AGTAGTTAAG 
ATTGGAGGCC CAGCATATCG CATAGGAATG GGAGGTGGAG CTGCATCTAG TATGGTTAGT 
GGTCAGAATG ATGCTGAGCT TGATTTTAAT GCAGTACAGC GTGGAGATGC AGAGATGGCA 
CAGAAATTGT ACCGTGTTGT CCGAGCTTGC ATTGAAATGA GGGAAGATAA CCCAATAATC 
AGCATACATG ACCAGGGTGC TGGTGGGAAT TGTAACGTCG TTAAGGAAAT AATATACCCA 
AAGGGTGCTC AGATTGATAT TCGGTCAATT GTAGTTGGTG ACCACACAAT GTCTGTGTTG 
GAGATATGGG GTGCAGAATA TCAGGAGCAA GATGCAATCT TAGTGAAGCC TGAAAGCCGC 
AGCCTATTGC AATCAATCTG TGAAAGAGAA AGGGTCTCTA TGGCTGTTAT TGGAACAATA 
AATGGTGAGG GACGAATTGT TTTAGTTGAT AGCAAGGCTA TTCAAAGATG TCATTCGAGT 
GGACTTCCTC CACCTCCTCC TGCTGTGGAT CTTGAGCTCG AGAAAGTACT TGGGGACATG 
CCTAAAAAAG TCTTTGAATT TAAGCGGATT GATCATGAAC GAGAACCACT TGATATTGCA 
CCTGGGATCA CTGTAATGGA ATCTCTGAAG AGGGTACTGA GACTTCCATC AGTCTGTTCA 
AAACGCTTCT TGACAACAAA AGTTGATCGG TGTGTAACAG GTCTTGTGGC ACAGCAGCAA 
ACTGTTGGTC CCTTGCAAAT CACCCTTTCT GATGTTGCAG TCATCTCTCA GACTTACACT 
GACATGACTG GAGGTGCATG TGCGATTGGG GAACAGCCAA TCAAGGGTCT GTTGGATCCA 
AAAGCAATGG CAAGACTGGC TGTTGGAGAA GCATTGACAA ATCTTGTTTG GGCAAAGGTA 
ACTGCTCTAT CTGATGTTAA GTCAAGTGCG AACTGGATGT ATGCTGCCAA ACTTGAAGGC 
GAAGGAGCAG CCATGTACGA TGCTGCTATG GCTCTTTCGG AAGCAATGAT TGAGCTTGGT 
ATTGCTATTG ATGGAGGGAA GGACAGTCTT TCCATGGCAG CCCATGCATC AGGTGAGGTT 
GTCAAGGCTC CTGGAAATCT TGTAATCAGT GTTTATGTCA CATGTCCTGA TATAACCAAA 
ACAGTGACCC CGGATTTGAA GCTTGAAGAT GAGGGAATTC TGCTTCACAT TGATTTGTCA 
AAGGGAAAGC GGCGGTTAGG TGGTTCTGCT CTAGCTCAGG TTTTTGATCA AGTAGGAGAT 
GAGTCTCCTG ATCTTGATGA TGTTCCTTAC CTTAAAAGGG CTTTTGAGGG AGTTCAGGAG 
CTCCTTGCTG ATGGGTCGAT CTCTGCTGGT CACGATATCA GTGATGGTGG ACTGATTGTA 
TGTGTGCTGG AGATGGCATT TGCTGGGAAT TGTGGTATTG CCTTGGATTT GACTTCACAT 
GGGAATAGCC TCTTTGAAAC ACTATTTGCA GAAGAACTTG GCCTTGTTCT AGAGGTTAGC 
AGGACAAACT TGGACATGAT AATGGGAAAG CTTCATGGCG TTGGTGTTTC AGCTGAGATC 
ATTGGACAAG TAACTGCGAC TCCCATGATA GAATTAAAGG TTGATGATGT TACTCATTTA 
AATGAGGACA CTTCTTATCT TAGGGACATG TGGGAGGAAA CCAGTTTTCA GCTGGAAAAA 
TTCCAAAGAT TGGCTTCTTG TGTGGATTTA GAGAAAGAAG GGTTGAAGAG TAGACATGAA 
CCTTCATGGA AATTGTCCTT CACTCCTGCA ATTACAGATA AGAAATATAT GACTGCAATT 
TCAAAACCGA AAGTGGCTGT GATTCGAGAG GAAGGCAGCA ATGGGGATAG AGAAATGTCT 
GCTGCATTTT ATGCTGCCGG TTTTGAACCA TGGGATGTTA CCATGTCAGA CCTTCTCAAT 
GGAGTCATCT CTCTGCAGGA GTTCCGTGGG ATTGTGTTTG TAGGTGGTTT TAGCTATGCT 
GATGTACTTG ATTCTGCCAA AGGTTGGTCG GCTTCTATAC GATTCAATCA ACCTCTTCTA 
AATCAATTTC AAGAGTTTTA CAAACGGGAA GACACTTTTA GTCTTGGGGT TTGCAATGGG 
TGTCAGCTAA TGGCCCTGTT GGGGTGGGTC CCTGGGCCCC AAGTTGGGGG TGTTTTTGGC 
AATGGTGGAG ACCCTTCACA ACCAAGGTTC ATCCACAATG AGTCAGGAAG GTTTGAATGT 
CGCTTCACAA GTGTGACAAT AAAGGACTCT CCTGCTATAA TGTTCAAAGG AATGGAGGGC 
AGCACATTGG GTGTGTGGGC TGCCCATGGT GAGGGAAGAG CTTATTTTCC TGATGGTAGT 
GTTCTGGATA GTGTGATTGA TTCAAATTTG GCCCCAATTA GATATTGTGA TGATGATGGG 
AAGCCAACAG AAGTCTATCC TTTCAATCTG AATGGATCTC CCCTAGGAGT AGCAGCGATT 
TGTTCTCCGG ATGGGAGGCA TCTTGCTATG ATGCCTCATC CAGAGCGATG CTTCTTGATG 
TGGCAGTTCC CATGGTATCC GAAGCAGTGG AATGTGGACA AGGCAGGCCC CAGTCCTTGG 
TTGCGAATGT TCCAAAATGC CAGGGAGTGG TGCTCTTGA

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

LOC100246154 ( XM_010660235.2 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_010658537.1 Vitis vinifera probable phosphoribosylformylglycinamidine synthase, chloroplastic/mitochondrial (LOC100246154), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OVa25128
Clone ID Related Accession (Same CDS sequence)	XM_019224164.1 , XM_010660235.2
Accession Version	XM_010660235.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4239bp) 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	probable phosphoribosylformylglycinamidine synthase, chloroplastic/mitochondrial
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 (GAKH01071151.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Nov 22, 2016 this sequence version replaced XM_010660235.1. ##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## ##RefSeq-Attributes-START## assembly gap :: added 287 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGCGGCTG CCTGTGAAAT TACAGCAACC GAGTTTTTGT GGGGTACCCG AAGGCAAAAT 
CTGCTTTTGC AGAGGCACTC CCATGCGCAG AAAAGTCGTT TGCTTTGGGG TACATTCCAT 
GTGCGAAAAC CAAAACTGGG TCTATCTAAT AGAGGTACTT CACTGAGGTG CCGCGCCCAA 
GCAAAGCCCA GAGCTGTGGT TTCTGGTGGT GTTACCAGTC CGCTGGATGA AAAATCAAAC 
CTTGTTCAAA AGCCCACTGC AGAGGTTATA CATTTTTTTC GTATTCCATT GATCCAGAAG 
AGTGCGACGG CTGAACTTCT CAAGTCGGTT CAAACGAAAA TCTCGAACCA GATTGTTGAT 
TTGAAGACTG AGCAGTGTTT TAATATTGGG CTTGAGGGAG GGCTGTCAGG TCAAAAGCTT 
TTAGTTCTCA AGTGGCTTCT TCAAGAAACT TATGAGCCTG AAAATTTGGG GACAGAGAGC 
TTTCTTGATC AGGAGAGGCG AGATGGGATC AATACGGTGA TAATTGAGGT TGGACCGAGG 
TTGTCTTTTA CTACTGCATG GTCTGCTAAT GCTGTGTCAA TTTGCCGAGC GTGTGGGTTG 
ACAGAGGTGA CCAGAATGGA ACGATCAAGG AGGTACTTGT TATATGTCAA GGCTGGTAGT 
GCATTGCAAG ATCATCAGAT TAATGAGTTT GCTGCTATGG TCCATGATCG GATGACCGAG 
TGTGTTTACA CCCAGAAGCT CACATCTTTC GAGACTAGTG TTGTTCCAGA GGAAGTTCGG 
TATGTACCTG TGATGGAGAG GGGGCGGAAG GCATTGGAGG ATATTAATGA AGAAATGGGT 
TTAGCATTTG ATGAGCAAGA TTTACAGTAT TACACTAGGC TGTTCAGGGA AGACATCAAG 
CGGGATCCTA CAACGGTGGA ATTGTTTGAT ATCGCACAAT CTAACAGTGA GCATAGTAGG 
CACTGGTTTT TTACTGGGAA AATTGTTATT GATGGGCAAC GAATGAGTCG GTCTCTCATG 
CAGATTGTGA AGAGCACTTT ACAGGCAAAT CCAAATAACT CTGTCATTGG TTTCAAGGAC 
AACTCTAGTG CAATCAAGGG CTTTCTTGTG AAACAATTGC GACCAGTTCA GCCGGGTTTA 
ACATGTCCCT TAGACACAAG TATTCGTGAT CTTGATATTT TATTTACCGC TGAGACCCAT 
AATTTCCCAT GTGCAGTGGC GCCTTACCCT GGTGCAGAGA CTGGTGCAGG GGGCCGCATT 
AGGGACACCC ATGCAACAGG AAGGGGGTCT TTTGTTGTTG CTGCTACAGC TGGTTATTGT 
GTTGGGAATC TTAATATTGA AGGGTCTTAT GCTCCATGGG AAGATCCATC ATTTACATAC 
CCATCCAACT TGGCTTCACC TCTTCAAATC CTCATTGATG CTAGCAATGG CGCGTCTGAC 
TATGGGAACA AATTTGGAGA GCCCTTGATT CAGGGCTATA CCAGAACTTT TGGAATGAGA 
CTTCCAAGTG GGGAAAGACG GGAATGGTTA AAGCCAATCA TGTTCAGTGC AGGGATTGGG 
CAGATTGATC ACATCCACAT AACAAAAGGA GAGCCTGATA TTGGAATGTT AGTAGTTAAG 
ATTGGAGGCC CAGCATATCG CATAGGAATG GGAGGTGGAG CTGCATCTAG TATGGTTAGT 
GGTCAGAATG ATGCTGAGCT TGATTTTAAT GCAGTACAGC GTGGAGATGC AGAGATGGCA 
CAGAAATTGT ACCGTGTTGT CCGAGCTTGC ATTGAAATGA GGGAAGATAA CCCAATAATC 
AGCATACATG ACCAGGGTGC TGGTGGGAAT TGTAACGTCG TTAAGGAAAT AATATACCCA 
AAGGGTGCTC AGATTGATAT TCGGTCAATT GTAGTTGGTG ACCACACAAT GTCTGTGTTG 
GAGATATGGG GTGCAGAATA TCAGGAGCAA GATGCAATCT TAGTGAAGCC TGAAAGCCGC 
AGCCTATTGC AATCAATCTG TGAAAGAGAA AGGGTCTCTA TGGCTGTTAT TGGAACAATA 
AATGGTGAGG GACGAATTGT TTTAGTTGAT AGCAAGGCTA TTCAAAGATG TCATTCGAGT 
GGACTTCCTC CACCTCCTCC TGCTGTGGAT CTTGAGCTCG AGAAAGTACT TGGGGACATG 
CCTAAAAAAG TCTTTGAATT TAAGCGGATT GATCATGAAC GAGAACCACT TGATATTGCA 
CCTGGGATCA CTGTAATGGA ATCTCTGAAG AGGGTACTGA GACTTCCATC AGTCTGTTCA 
AAACGCTTCT TGACAACAAA AGTTGATCGG TGTGTAACAG GTCTTGTGGC ACAGCAGCAA 
ACTGTTGGTC CCTTGCAAAT CACCCTTTCT GATGTTGCAG TCATCTCTCA GACTTACACT 
GACATGACTG GAGGTGCATG TGCGATTGGG GAACAGCCAA TCAAGGGTCT GTTGGATCCA 
AAAGCAATGG CAAGACTGGC TGTTGGAGAA GCATTGACAA ATCTTGTTTG GGCAAAGGTA 
ACTGCTCTAT CTGATGTTAA GTCAAGTGCG AACTGGATGT ATGCTGCCAA ACTTGAAGGC 
GAAGGAGCAG CCATGTACGA TGCTGCTATG GCTCTTTCGG AAGCAATGAT TGAGCTTGGT 
ATTGCTATTG ATGGAGGGAA GGACAGTCTT TCCATGGCAG CCCATGCATC AGGTGAGGTT 
GTCAAGGCTC CTGGAAATCT TGTAATCAGT GTTTATGTCA CATGTCCTGA TATAACCAAA 
ACAGTGACCC CGGATTTGAA GCTTGAAGAT GAGGGAATTC TGCTTCACAT TGATTTGTCA 
AAGGGAAAGC GGCGGTTAGG TGGTTCTGCT CTAGCTCAGG TTTTTGATCA AGTAGGAGAT 
GAGTCTCCTG ATCTTGATGA TGTTCCTTAC CTTAAAAGGG CTTTTGAGGG AGTTCAGGAG 
CTCCTTGCTG ATGGGTCGAT CTCTGCTGGT CACGATATCA GTGATGGTGG ACTGATTGTA 
TGTGTGCTGG AGATGGCATT TGCTGGGAAT TGTGGTATTG CCTTGGATTT GACTTCACAT 
GGGAATAGCC TCTTTGAAAC ACTATTTGCA GAAGAACTTG GCCTTGTTCT AGAGGTTAGC 
AGGACAAACT TGGACATGAT AATGGGAAAG CTTCATGGCG TTGGTGTTTC AGCTGAGATC 
ATTGGACAAG TAACTGCGAC TCCCATGATA GAATTAAAGG TTGATGATGT TACTCATTTA 
AATGAGGACA CTTCTTATCT TAGGGACATG TGGGAGGAAA CCAGTTTTCA GCTGGAAAAA 
TTCCAAAGAT TGGCTTCTTG TGTGGATTTA GAGAAAGAAG GGTTGAAGAG TAGACATGAA 
CCTTCATGGA AATTGTCCTT CACTCCTGCA ATTACAGATA AGAAATATAT GACTGCAATT 
TCAAAACCGA AAGTGGCTGT GATTCGAGAG GAAGGCAGCA ATGGGGATAG AGAAATGTCT 
GCTGCATTTT ATGCTGCCGG TTTTGAACCA TGGGATGTTA CCATGTCAGA CCTTCTCAAT 
GGAGTCATCT CTCTGCAGGA GTTCCGTGGG ATTGTGTTTG TAGGTGGTTT TAGCTATGCT 
GATGTACTTG ATTCTGCCAA AGGTTGGTCG GCTTCTATAC GATTCAATCA ACCTCTTCTA 
AATCAATTTC AAGAGTTTTA CAAACGGGAA GACACTTTTA GTCTTGGGGT TTGCAATGGG 
TGTCAGCTAA TGGCCCTGTT GGGGTGGGTC CCTGGGCCCC AAGTTGGGGG TGTTTTTGGC 
AATGGTGGAG ACCCTTCACA ACCAAGGTTC ATCCACAATG AGTCAGGAAG GTTTGAATGT 
CGCTTCACAA GTGTGACAAT AAAGGACTCT CCTGCTATAA TGTTCAAAGG AATGGAGGGC 
AGCACATTGG GTGTGTGGGC TGCCCATGGT GAGGGAAGAG CTTATTTTCC TGATGGTAGT 
GTTCTGGATA GTGTGATTGA TTCAAATTTG GCCCCAATTA GATATTGTGA TGATGATGGG 
AAGCCAACAG AAGTCTATCC TTTCAATCTG AATGGATCTC CCCTAGGAGT AGCAGCGATT 
TGTTCTCCGG ATGGGAGGCA TCTTGCTATG ATGCCTCATC CAGAGCGATG CTTCTTGATG 
TGGCAGTTCC CATGGTATCC GAAGCAGTGG AATGTGGACA AGGCAGGCCC CAGTCCTTGG 
TTGCGAATGT TCCAAAATGC CAGGGAGTGG TGCTCTTGA

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

RefSeq	XP_010658537.1
CDS	314..4552
Translation	MAAACEITATEFLWGTRRQNLLLQRHSHAQKSRLLWGTFHVRKPKLGLSNRGTSLRCRAQAKPRAVVSGGVTSPLDEKSNLVQKPTAEVIHFFRIPLIQKSATAELLKSVQTKISNQIVDLKTEQCFNIGLEGGLSGQKLLVLKWLLQETYEPENLGTESFLDQERRDGINTVIIEVGPRLSFTTAWSANAVSICRACGLTEVTRMERSRRYLLYVKAGSALQDHQINEFAAMVHDRMTECVYTQKLTSFETSVVPEEVRYVPVMERGRKALEDINEEMGLAFDEQDLQYYTRLFREDIKRDPTTVELFDIAQSNSEHSRHWFFTGKIVIDGQRMSRSLMQIVKSTLQANPNNSVIGFKDNSSAIKGFLVKQLRPVQPGLTCPLDTSIRDLDILFTAETHNFPCAVAPYPGAETGAGGRIRDTHATGRGSFVVAATAGYCVGNLNIEGSYAPWEDPSFTYPSNLASPLQILIDASNGASDYGNKFGEPLIQGYTRTFGMRLPSGERREWLKPIMFSAGIGQIDHIHITKGEPDIGMLVVKIGGPAYRIGMGGGAASSMVSGQNDAELDFNAVQRGDAEMAQKLYRVVRACIEMREDNPIISIHDQGAGGNCNVVKEIIYPKGAQIDIRSIVVGDHTMSVLEIWGAEYQEQDAILVKPESRSLLQSICERERVSMAVIGTINGEGRIVLVDSKAIQRCHSSGLPPPPPAVDLELEKVLGDMPKKVFEFKRIDHEREPLDIAPGITVMESLKRVLRLPSVCSKRFLTTKVDRCVTGLVAQQQTVGPLQITLSDVAVISQTYTDMTGGACAIGEQPIKGLLDPKAMARLAVGEALTNLVWAKVTALSDVKSSANWMYAAKLEGEGAAMYDAAMALSEAMIELGIAIDGGKDSLSMAAHASGEVVKAPGNLVISVYVTCPDITKTVTPDLKLEDEGILLHIDLSKGKRRLGGSALAQVFDQVGDESPDLDDVPYLKRAFEGVQELLADGSISAGHDISDGGLIVCVLEMAFAGNCGIALDLTSHGNSLFETLFAEELGLVLEVSRTNLDMIMGKLHGVGVSAEIIGQVTATPMIELKVDDVTHLNEDTSYLRDMWEETSFQLEKFQRLASCVDLEKEGLKSRHEPSWKLSFTPAITDKKYMTAISKPKVAVIREEGSNGDREMSAAFYAAGFEPWDVTMSDLLNGVISLQEFRGIVFVGGFSYADVLDSAKGWSASIRFNQPLLNQFQEFYKREDTFSLGVCNGCQLMALLGWVPGPQVGGVFGNGGDPSQPRFIHNESGRFECRFTSVTIKDSPAIMFKGMEGSTLGVWAAHGEGRAYFPDGSVLDSVIDSNLAPIRYCDDDGKPTEVYPFNLNGSPLGVAAICSPDGRHLAMMPHPERCFLMWQFPWYPKQWNVDKAGPSPWLRMFQNAREWCS

Target ORF information:

RefSeq Version	XM_010660235.2
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera probable phosphoribosylformylglycinamidine synthase, chloroplastic/mitochondrial (LOC100246154), transcript variant X1, mRNA.

Target ORF information:

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

XM_010660235.2

ORF Insert Sequence:

ATGGCGGCTG CCTGTGAAAT TACAGCAACC GAGTTTTTGT GGGGTACCCG AAGGCAAAAT 
CTGCTTTTGC AGAGGCACTC CCATGCGCAG AAAAGTCGTT TGCTTTGGGG TACATTCCAT 
GTGCGAAAAC CAAAACTGGG TCTATCTAAT AGAGGTACTT CACTGAGGTG CCGCGCCCAA 
GCAAAGCCCA GAGCTGTGGT TTCTGGTGGT GTTACCAGTC CGCTGGATGA AAAATCAAAC 
CTTGTTCAAA AGCCCACTGC AGAGGTTATA CATTTTTTTC GTATTCCATT GATCCAGAAG 
AGTGCGACGG CTGAACTTCT CAAGTCGGTT CAAACGAAAA TCTCGAACCA GATTGTTGAT 
TTGAAGACTG AGCAGTGTTT TAATATTGGG CTTGAGGGAG GGCTGTCAGG TCAAAAGCTT 
TTAGTTCTCA AGTGGCTTCT TCAAGAAACT TATGAGCCTG AAAATTTGGG GACAGAGAGC 
TTTCTTGATC AGGAGAGGCG AGATGGGATC AATACGGTGA TAATTGAGGT TGGACCGAGG 
TTGTCTTTTA CTACTGCATG GTCTGCTAAT GCTGTGTCAA TTTGCCGAGC GTGTGGGTTG 
ACAGAGGTGA CCAGAATGGA ACGATCAAGG AGGTACTTGT TATATGTCAA GGCTGGTAGT 
GCATTGCAAG ATCATCAGAT TAATGAGTTT GCTGCTATGG TCCATGATCG GATGACCGAG 
TGTGTTTACA CCCAGAAGCT CACATCTTTC GAGACTAGTG TTGTTCCAGA GGAAGTTCGG 
TATGTACCTG TGATGGAGAG GGGGCGGAAG GCATTGGAGG ATATTAATGA AGAAATGGGT 
TTAGCATTTG ATGAGCAAGA TTTACAGTAT TACACTAGGC TGTTCAGGGA AGACATCAAG 
CGGGATCCTA CAACGGTGGA ATTGTTTGAT ATCGCACAAT CTAACAGTGA GCATAGTAGG 
CACTGGTTTT TTACTGGGAA AATTGTTATT GATGGGCAAC GAATGAGTCG GTCTCTCATG 
CAGATTGTGA AGAGCACTTT ACAGGCAAAT CCAAATAACT CTGTCATTGG TTTCAAGGAC 
AACTCTAGTG CAATCAAGGG CTTTCTTGTG AAACAATTGC GACCAGTTCA GCCGGGTTTA 
ACATGTCCCT TAGACACAAG TATTCGTGAT CTTGATATTT TATTTACCGC TGAGACCCAT 
AATTTCCCAT GTGCAGTGGC GCCTTACCCT GGTGCAGAGA CTGGTGCAGG GGGCCGCATT 
AGGGACACCC ATGCAACAGG AAGGGGGTCT TTTGTTGTTG CTGCTACAGC TGGTTATTGT 
GTTGGGAATC TTAATATTGA AGGGTCTTAT GCTCCATGGG AAGATCCATC ATTTACATAC 
CCATCCAACT TGGCTTCACC TCTTCAAATC CTCATTGATG CTAGCAATGG CGCGTCTGAC 
TATGGGAACA AATTTGGAGA GCCCTTGATT CAGGGCTATA CCAGAACTTT TGGAATGAGA 
CTTCCAAGTG GGGAAAGACG GGAATGGTTA AAGCCAATCA TGTTCAGTGC AGGGATTGGG 
CAGATTGATC ACATCCACAT AACAAAAGGA GAGCCTGATA TTGGAATGTT AGTAGTTAAG 
ATTGGAGGCC CAGCATATCG CATAGGAATG GGAGGTGGAG CTGCATCTAG TATGGTTAGT 
GGTCAGAATG ATGCTGAGCT TGATTTTAAT GCAGTACAGC GTGGAGATGC AGAGATGGCA 
CAGAAATTGT ACCGTGTTGT CCGAGCTTGC ATTGAAATGA GGGAAGATAA CCCAATAATC 
AGCATACATG ACCAGGGTGC TGGTGGGAAT TGTAACGTCG TTAAGGAAAT AATATACCCA 
AAGGGTGCTC AGATTGATAT TCGGTCAATT GTAGTTGGTG ACCACACAAT GTCTGTGTTG 
GAGATATGGG GTGCAGAATA TCAGGAGCAA GATGCAATCT TAGTGAAGCC TGAAAGCCGC 
AGCCTATTGC AATCAATCTG TGAAAGAGAA AGGGTCTCTA TGGCTGTTAT TGGAACAATA 
AATGGTGAGG GACGAATTGT TTTAGTTGAT AGCAAGGCTA TTCAAAGATG TCATTCGAGT 
GGACTTCCTC CACCTCCTCC TGCTGTGGAT CTTGAGCTCG AGAAAGTACT TGGGGACATG 
CCTAAAAAAG TCTTTGAATT TAAGCGGATT GATCATGAAC GAGAACCACT TGATATTGCA 
CCTGGGATCA CTGTAATGGA ATCTCTGAAG AGGGTACTGA GACTTCCATC AGTCTGTTCA 
AAACGCTTCT TGACAACAAA AGTTGATCGG TGTGTAACAG GTCTTGTGGC ACAGCAGCAA 
ACTGTTGGTC CCTTGCAAAT CACCCTTTCT GATGTTGCAG TCATCTCTCA GACTTACACT 
GACATGACTG GAGGTGCATG TGCGATTGGG GAACAGCCAA TCAAGGGTCT GTTGGATCCA 
AAAGCAATGG CAAGACTGGC TGTTGGAGAA GCATTGACAA ATCTTGTTTG GGCAAAGGTA 
ACTGCTCTAT CTGATGTTAA GTCAAGTGCG AACTGGATGT ATGCTGCCAA ACTTGAAGGC 
GAAGGAGCAG CCATGTACGA TGCTGCTATG GCTCTTTCGG AAGCAATGAT TGAGCTTGGT 
ATTGCTATTG ATGGAGGGAA GGACAGTCTT TCCATGGCAG CCCATGCATC AGGTGAGGTT 
GTCAAGGCTC CTGGAAATCT TGTAATCAGT GTTTATGTCA CATGTCCTGA TATAACCAAA 
ACAGTGACCC CGGATTTGAA GCTTGAAGAT GAGGGAATTC TGCTTCACAT TGATTTGTCA 
AAGGGAAAGC GGCGGTTAGG TGGTTCTGCT CTAGCTCAGG TTTTTGATCA AGTAGGAGAT 
GAGTCTCCTG ATCTTGATGA TGTTCCTTAC CTTAAAAGGG CTTTTGAGGG AGTTCAGGAG 
CTCCTTGCTG ATGGGTCGAT CTCTGCTGGT CACGATATCA GTGATGGTGG ACTGATTGTA 
TGTGTGCTGG AGATGGCATT TGCTGGGAAT TGTGGTATTG CCTTGGATTT GACTTCACAT 
GGGAATAGCC TCTTTGAAAC ACTATTTGCA GAAGAACTTG GCCTTGTTCT AGAGGTTAGC 
AGGACAAACT TGGACATGAT AATGGGAAAG CTTCATGGCG TTGGTGTTTC AGCTGAGATC 
ATTGGACAAG TAACTGCGAC TCCCATGATA GAATTAAAGG TTGATGATGT TACTCATTTA 
AATGAGGACA CTTCTTATCT TAGGGACATG TGGGAGGAAA CCAGTTTTCA GCTGGAAAAA 
TTCCAAAGAT TGGCTTCTTG TGTGGATTTA GAGAAAGAAG GGTTGAAGAG TAGACATGAA 
CCTTCATGGA AATTGTCCTT CACTCCTGCA ATTACAGATA AGAAATATAT GACTGCAATT 
TCAAAACCGA AAGTGGCTGT GATTCGAGAG GAAGGCAGCA ATGGGGATAG AGAAATGTCT 
GCTGCATTTT ATGCTGCCGG TTTTGAACCA TGGGATGTTA CCATGTCAGA CCTTCTCAAT 
GGAGTCATCT CTCTGCAGGA GTTCCGTGGG ATTGTGTTTG TAGGTGGTTT TAGCTATGCT 
GATGTACTTG ATTCTGCCAA AGGTTGGTCG GCTTCTATAC GATTCAATCA ACCTCTTCTA 
AATCAATTTC AAGAGTTTTA CAAACGGGAA GACACTTTTA GTCTTGGGGT TTGCAATGGG 
TGTCAGCTAA TGGCCCTGTT GGGGTGGGTC CCTGGGCCCC AAGTTGGGGG TGTTTTTGGC 
AATGGTGGAG ACCCTTCACA ACCAAGGTTC ATCCACAATG AGTCAGGAAG GTTTGAATGT 
CGCTTCACAA GTGTGACAAT AAAGGACTCT CCTGCTATAA TGTTCAAAGG AATGGAGGGC 
AGCACATTGG GTGTGTGGGC TGCCCATGGT GAGGGAAGAG CTTATTTTCC TGATGGTAGT 
GTTCTGGATA GTGTGATTGA TTCAAATTTG GCCCCAATTA GATATTGTGA TGATGATGGG 
AAGCCAACAG AAGTCTATCC TTTCAATCTG AATGGATCTC CCCTAGGAGT AGCAGCGATT 
TGTTCTCCGG ATGGGAGGCA TCTTGCTATG ATGCCTCATC CAGAGCGATG CTTCTTGATG 
TGGCAGTTCC CATGGTATCC GAAGCAGTGG AATGTGGACA AGGCAGGCCC CAGTCCTTGG 
TTGCGAATGT TCCAAAATGC CAGGGAGTGG TGCTCTTGA

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

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LOC100246154 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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