CCC1 cDNA ORF clone, Vitis vinifera(wine grape)

Gene
Clones
gRNAs

Summary

Gene Symbol	CCC1
Entrez Gene ID	100251415
Full Name	cation chloride co-transporter 1
Gene Type	protein-coding
Organism	Vitis vinifera(wine grape)

mRNA and Protein(s)

mRNA	Protein	Name
XM_010657419.2	XP_010655721.1	cation-chloride cotransporter 1 isoform X1
XM_010657418.2	XP_010655720.1	cation-chloride cotransporter 1 isoform X1
XM_010657421.2	XP_010655723.1	cation-chloride cotransporter 1 isoform X2

Pathways from BioSystems
Gene Ontology

The following CCC1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CCC1 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)
OVa27175	XM_010657418.2 Latest version!	Vitis vinifera cation chloride co-transporter 1 (CCC1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OVa27175	XM_010657419.2 Latest version!	Vitis vinifera cation chloride co-transporter 1 (CCC1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OVa27176	XM_010657421.2 Latest version!	Vitis vinifera cation chloride co-transporter 1 (CCC1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

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)

CCC1 ( XM_010657419.2 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_010655721.1 Vitis vinifera cation chloride co-transporter 1 (CCC1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OVa27175
Clone ID Related Accession (Same CDS sequence)	XM_010657419.2 , XM_010657418.2
Accession Version	XM_010657419.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2949bp) 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	cation-chloride cotransporter 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_012016.3) 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_010657419.1. ##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##

ATGGACAACG GAGACATTGA AAACGCGGAA GACGAGTTCG GCGGGCAAAG CGGACGCAAA 
TACAGACCAG TCGTCTCGCA TGACCGCGCT GTTCTCCAAA TGTCCTCTTT GGATTCCGGA 
TCTTCCTCTT CTCTCCCCGT CCCTCAATCA CCTTTCACGA ACCTTAAAAT AAGCATGCAG 
GGAAACATGA GTTCTGATGC AAGAGAAGAG TCATCTACTA ATCATGAAGA ACTCAATGGT 
TCTGAAAGAG AATCCAAATT GGAATTGTTC GGTTTTGACT CTCTTGTTAA TATTCTAGGT 
CTTAAGAGTA TGACAGGGGA GGCAATTGCA GCTCCTTCGA GTCCTAGAGA TGGCGAGGAT 
GTTTCGAATA CACCTGGGCG TTCCAAGGCT AATGATCTCA AATTAGGGAC ATTGATGGGA 
GTATTTGTGC CGTGCTTGCA AAACATTTTA GGAATTATCT ACTATATACG ATTTTCTTGG 
ATTGTTGGTA TGGCAGGCAT TGGTCAGTCG CTTTTGCTGG TGTCCTTTTG TGGTTTGTGT 
ACTTTCCTGA CTTCGATATC ATTGAGTGCT ATCGCAACTA ATGGTGCAAT GAAGGGTGGG 
GGGCCATATT ATCTCATTGG TCGTGCCCTT GGTCCAGAAG TTGGAGTTAG CATTGGACTA 
TGTTTCTTCC TTGGGAATGC AGTAGCTGGA TCTCTTTATG TGCTGGGAGC TGTAGAAACC 
TTCTTAGATG CCTTGCCAGG TGCTGGGATT TTTGGAGAGG TTGTCACAAA AGTTAATGGC 
ACAGAAGCTG CAGTGGCCGT ACCAAGTCCA AATTTGCATG ACCTGCAAGT CTATGGGATA 
GTTGTGACGA TAATCCTATG CTTTATTGTG TTTGGTGGTG TTAAGATGAT CAATCGGGTT 
GCACCTGCTT TCCTTATACC TGTTTTATTC TCCTTGTTCT GCATATTTGT TGGGGCTGTT 
TTGGCAAGAA AGGATCACCC TGCTGTTGGA GTCACTGGCT TGAGTTTGAA ATCCTTAAAA 
GATAATTGGA GCTCGAGTTA TCAAAATACT AATAATGCTG GAATACCTGA TCCTGATGGA 
GCTGTAAGCT GGAATTTCAA TGCACTGGTC GGTCTATTTT TCCCTGCTGT AACGGGAATT 
ATGGCAGGTT CAAATCGCTC TGCTTCATTG AGAGACACTC AACGTTCAAT TCCTGTTGGA 
ACATTGGCTG CGACTCTTTC TACTTCTGCA ATGTACCTAT TTTCTGTGCT TTTATTTGGA 
TCTCTAGCAA CAAGGGAGAA ACTTTTGACA GACAGGCTAC TAACTGCTAC AATTGCTTGG 
CCTTTACCGG CAATTATTTA CATTGGAATT ATCCTTTCAA CCTTAGGGGC GGCTCTTCAA 
AGCCTTACAG GTGCTCCACG GCTGCTTGCA GCAATAGCCA ATGATGATAT CCTTCCTGTT 
CTTCATTACT TCAGAGTTGC TGAAGGGAGT GAACCTCATA TTGCAACCCT CTTTACTGCA 
TTAATTTGTA TTGGGTGTGT CATAATCGGG AATCTGGATC TTATCACACC AACAATTACC 
ATGTTTTTCC TTTTGTGTTA TGCTGGTGTG AACTTGTCTT GCTTCCTTCT GGATCTTCTA 
GATGCTCCCA GTTGGCGTCC ACGATGGAAA TTTCACCACT GGAGCCTCTC TCTTCTTGGA 
GCAGTTCTTT GTATAGTGAT CATGTTCTTG ATATCTTGGT CATTTACTGT GGTGTCCCTA 
GCCCTTGCAA GTCTCATATA TTATTATGTA TGCATCAAAG GGAAGGCTGG GGACTGGGGT 
GATGGCTTCA AGAGTGCATA TTTCCAACTA GCCCTTCGTA GTCTTCGATC ACTGGGGGCA 
AGCCAAGTGC ACCCAAAGAA CTGGTATCCT ATTCCCCTCA TATTCTGCCG GCCATGGGGG 
AAGCTGCCAG AGAATGTGCC CTGCCACCCT AAATTAGCTG ACTTTGCTAA CTGCATGAAG 
AAAAAGGGTC GTGGAATGTC CATTTTTGTC TCTATTTTAG ATGGAGATTA CCATGAGTGT 
GCAGAAGATG CCAAGACAGC CTGCAGGCAG CTGAGTACCT ACATTGACTA TAAGCGCTGT 
GAAGGTGTTG CAGAGATAGT TGTGGCCCCC AGTATGTCAG ATGGTTTCCG TGGCATTGTC 
CAAACTATGG GCCTAGGCAA TCTTAAGCCG AACATTGTGG TCATGCGATA CCCTGAAATA 
TGGCGTCGGG AAAACCTAAT TGAAATCCCA GCTACCTTTG TTGGCATAAT TAATGACTGC 
ATTGTTGCAA ACAAGGCAGT TGTGATTGTC AAGGGCCTTG ATGAATGGCC CAATGAGTAT 
CAAAGGCAGT ATGGTACTAT TGATCTGTAT TGGATCGTGA GAGATGGGGG CCTTATGCTT 
CTCCTCTCCC AGCTCCTCCT TACCAAGGAG AGCTTTGAGA GTTGTAAGAT TCAGGTCTTC 
TGCATTGCGG AGGAGGATTC TGATGCAGAG GAGCTCAAGG CTGATGTCAA GAAGTTTTTG 
TATGATCTTC GCATGCATGC TGAAGTGATT GTTATATCGA TGAAATCATG GGATGCCCAA 
GGAGAAGGAG TGTCCCAGCA AGATGAATCA ATAGAGGCAT TCACGGGTGC TCAGCGGCGG 
ATTGCTGGTT ACTTGAGTGA GATGAAGGAG GCAGCTAAGA GGGAAGGAAC TCCACTGATG 
GCTGATGGGA AATCTGTGGT TGTGAATGAG CAACAGGTGG AGAAATTTCT TTACACAACA 
CTGAAGCTTA ATTCGACAAT ACTTAGATAC TCAAGAATGG CTGCAGTCGT GCTTGTGAGC 
TTACCACCAC CACCTCTCAA CCACCCAGCG TATTTCTACA TGGAGTACAT GGATCTTTTG 
GTAGAGAATG TACCTAGGCT TTTGATGGTA AGGGGATACC GTAGAGATGT TGTCACCCTT 
TTCACATAG

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

RefSeq	XP_010655721.1
CDS	174..3122
Translation	MDNGDIENAEDEFGGQSGRKYRPVVSHDRAVLQMSSLDSGSSSSLPVPQSPFTNLKISMQGNMSSDAREESSTNHEELNGSERESKLELFGFDSLVNILGLKSMTGEAIAAPSSPRDGEDVSNTPGRSKANDLKLGTLMGVFVPCLQNILGIIYYIRFSWIVGMAGIGQSLLLVSFCGLCTFLTSISLSAIATNGAMKGGGPYYLIGRALGPEVGVSIGLCFFLGNAVAGSLYVLGAVETFLDALPGAGIFGEVVTKVNGTEAAVAVPSPNLHDLQVYGIVVTIILCFIVFGGVKMINRVAPAFLIPVLFSLFCIFVGAVLARKDHPAVGVTGLSLKSLKDNWSSSYQNTNNAGIPDPDGAVSWNFNALVGLFFPAVTGIMAGSNRSASLRDTQRSIPVGTLAATLSTSAMYLFSVLLFGSLATREKLLTDRLLTATIAWPLPAIIYIGIILSTLGAALQSLTGAPRLLAAIANDDILPVLHYFRVAEGSEPHIATLFTALICIGCVIIGNLDLITPTITMFFLLCYAGVNLSCFLLDLLDAPSWRPRWKFHHWSLSLLGAVLCIVIMFLISWSFTVVSLALASLIYYYVCIKGKAGDWGDGFKSAYFQLALRSLRSLGASQVHPKNWYPIPLIFCRPWGKLPENVPCHPKLADFANCMKKKGRGMSIFVSILDGDYHECAEDAKTACRQLSTYIDYKRCEGVAEIVVAPSMSDGFRGIVQTMGLGNLKPNIVVMRYPEIWRRENLIEIPATFVGIINDCIVANKAVVIVKGLDEWPNEYQRQYGTIDLYWIVRDGGLMLLLSQLLLTKESFESCKIQVFCIAEEDSDAEELKADVKKFLYDLRMHAEVIVISMKSWDAQGEGVSQQDESIEAFTGAQRRIAGYLSEMKEAAKREGTPLMADGKSVVVNEQQVEKFLYTTLKLNSTILRYSRMAAVVLVSLPPPPLNHPAYFYMEYMDLLVENVPRLLMVRGYRRDVVTLFT

Target ORF information:

RefSeq Version	XM_010657419.2
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera cation chloride co-transporter 1 (CCC1), transcript variant X2, mRNA.

Target ORF information:

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

XM_010657419.2

ORF Insert Sequence:

ATGGACAACG GAGACATTGA AAACGCGGAA GACGAGTTCG GCGGGCAAAG CGGACGCAAA 
TACAGACCAG TCGTCTCGCA TGACCGCGCT GTTCTCCAAA TGTCCTCTTT GGATTCCGGA 
TCTTCCTCTT CTCTCCCCGT CCCTCAATCA CCTTTCACGA ACCTTAAAAT AAGCATGCAG 
GGAAACATGA GTTCTGATGC AAGAGAAGAG TCATCTACTA ATCATGAAGA ACTCAATGGT 
TCTGAAAGAG AATCCAAATT GGAATTGTTC GGTTTTGACT CTCTTGTTAA TATTCTAGGT 
CTTAAGAGTA TGACAGGGGA GGCAATTGCA GCTCCTTCGA GTCCTAGAGA TGGCGAGGAT 
GTTTCGAATA CACCTGGGCG TTCCAAGGCT AATGATCTCA AATTAGGGAC ATTGATGGGA 
GTATTTGTGC CGTGCTTGCA AAACATTTTA GGAATTATCT ACTATATACG ATTTTCTTGG 
ATTGTTGGTA TGGCAGGCAT TGGTCAGTCG CTTTTGCTGG TGTCCTTTTG TGGTTTGTGT 
ACTTTCCTGA CTTCGATATC ATTGAGTGCT ATCGCAACTA ATGGTGCAAT GAAGGGTGGG 
GGGCCATATT ATCTCATTGG TCGTGCCCTT GGTCCAGAAG TTGGAGTTAG CATTGGACTA 
TGTTTCTTCC TTGGGAATGC AGTAGCTGGA TCTCTTTATG TGCTGGGAGC TGTAGAAACC 
TTCTTAGATG CCTTGCCAGG TGCTGGGATT TTTGGAGAGG TTGTCACAAA AGTTAATGGC 
ACAGAAGCTG CAGTGGCCGT ACCAAGTCCA AATTTGCATG ACCTGCAAGT CTATGGGATA 
GTTGTGACGA TAATCCTATG CTTTATTGTG TTTGGTGGTG TTAAGATGAT CAATCGGGTT 
GCACCTGCTT TCCTTATACC TGTTTTATTC TCCTTGTTCT GCATATTTGT TGGGGCTGTT 
TTGGCAAGAA AGGATCACCC TGCTGTTGGA GTCACTGGCT TGAGTTTGAA ATCCTTAAAA 
GATAATTGGA GCTCGAGTTA TCAAAATACT AATAATGCTG GAATACCTGA TCCTGATGGA 
GCTGTAAGCT GGAATTTCAA TGCACTGGTC GGTCTATTTT TCCCTGCTGT AACGGGAATT 
ATGGCAGGTT CAAATCGCTC TGCTTCATTG AGAGACACTC AACGTTCAAT TCCTGTTGGA 
ACATTGGCTG CGACTCTTTC TACTTCTGCA ATGTACCTAT TTTCTGTGCT TTTATTTGGA 
TCTCTAGCAA CAAGGGAGAA ACTTTTGACA GACAGGCTAC TAACTGCTAC AATTGCTTGG 
CCTTTACCGG CAATTATTTA CATTGGAATT ATCCTTTCAA CCTTAGGGGC GGCTCTTCAA 
AGCCTTACAG GTGCTCCACG GCTGCTTGCA GCAATAGCCA ATGATGATAT CCTTCCTGTT 
CTTCATTACT TCAGAGTTGC TGAAGGGAGT GAACCTCATA TTGCAACCCT CTTTACTGCA 
TTAATTTGTA TTGGGTGTGT CATAATCGGG AATCTGGATC TTATCACACC AACAATTACC 
ATGTTTTTCC TTTTGTGTTA TGCTGGTGTG AACTTGTCTT GCTTCCTTCT GGATCTTCTA 
GATGCTCCCA GTTGGCGTCC ACGATGGAAA TTTCACCACT GGAGCCTCTC TCTTCTTGGA 
GCAGTTCTTT GTATAGTGAT CATGTTCTTG ATATCTTGGT CATTTACTGT GGTGTCCCTA 
GCCCTTGCAA GTCTCATATA TTATTATGTA TGCATCAAAG GGAAGGCTGG GGACTGGGGT 
GATGGCTTCA AGAGTGCATA TTTCCAACTA GCCCTTCGTA GTCTTCGATC ACTGGGGGCA 
AGCCAAGTGC ACCCAAAGAA CTGGTATCCT ATTCCCCTCA TATTCTGCCG GCCATGGGGG 
AAGCTGCCAG AGAATGTGCC CTGCCACCCT AAATTAGCTG ACTTTGCTAA CTGCATGAAG 
AAAAAGGGTC GTGGAATGTC CATTTTTGTC TCTATTTTAG ATGGAGATTA CCATGAGTGT 
GCAGAAGATG CCAAGACAGC CTGCAGGCAG CTGAGTACCT ACATTGACTA TAAGCGCTGT 
GAAGGTGTTG CAGAGATAGT TGTGGCCCCC AGTATGTCAG ATGGTTTCCG TGGCATTGTC 
CAAACTATGG GCCTAGGCAA TCTTAAGCCG AACATTGTGG TCATGCGATA CCCTGAAATA 
TGGCGTCGGG AAAACCTAAT TGAAATCCCA GCTACCTTTG TTGGCATAAT TAATGACTGC 
ATTGTTGCAA ACAAGGCAGT TGTGATTGTC AAGGGCCTTG ATGAATGGCC CAATGAGTAT 
CAAAGGCAGT ATGGTACTAT TGATCTGTAT TGGATCGTGA GAGATGGGGG CCTTATGCTT 
CTCCTCTCCC AGCTCCTCCT TACCAAGGAG AGCTTTGAGA GTTGTAAGAT TCAGGTCTTC 
TGCATTGCGG AGGAGGATTC TGATGCAGAG GAGCTCAAGG CTGATGTCAA GAAGTTTTTG 
TATGATCTTC GCATGCATGC TGAAGTGATT GTTATATCGA TGAAATCATG GGATGCCCAA 
GGAGAAGGAG TGTCCCAGCA AGATGAATCA ATAGAGGCAT TCACGGGTGC TCAGCGGCGG 
ATTGCTGGTT ACTTGAGTGA GATGAAGGAG GCAGCTAAGA GGGAAGGAAC TCCACTGATG 
GCTGATGGGA AATCTGTGGT TGTGAATGAG CAACAGGTGG AGAAATTTCT TTACACAACA 
CTGAAGCTTA ATTCGACAAT ACTTAGATAC TCAAGAATGG CTGCAGTCGT GCTTGTGAGC 
TTACCACCAC CACCTCTCAA CCACCCAGCG TATTTCTACA TGGAGTACAT GGATCTTTTG 
GTAGAGAATG TACCTAGGCT TTTGATGGTA AGGGGATACC GTAGAGATGT TGTCACCCTT 
TTCACATAG

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

CCC1 ( XM_010657418.2 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_010655720.1 Vitis vinifera cation chloride co-transporter 1 (CCC1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OVa27175
Clone ID Related Accession (Same CDS sequence)	XM_010657419.2 , XM_010657418.2
Accession Version	XM_010657418.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2949bp) 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	cation-chloride cotransporter 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_012016.3) 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_010657418.1. ##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##

ATGGACAACG GAGACATTGA AAACGCGGAA GACGAGTTCG GCGGGCAAAG CGGACGCAAA 
TACAGACCAG TCGTCTCGCA TGACCGCGCT GTTCTCCAAA TGTCCTCTTT GGATTCCGGA 
TCTTCCTCTT CTCTCCCCGT CCCTCAATCA CCTTTCACGA ACCTTAAAAT AAGCATGCAG 
GGAAACATGA GTTCTGATGC AAGAGAAGAG TCATCTACTA ATCATGAAGA ACTCAATGGT 
TCTGAAAGAG AATCCAAATT GGAATTGTTC GGTTTTGACT CTCTTGTTAA TATTCTAGGT 
CTTAAGAGTA TGACAGGGGA GGCAATTGCA GCTCCTTCGA GTCCTAGAGA TGGCGAGGAT 
GTTTCGAATA CACCTGGGCG TTCCAAGGCT AATGATCTCA AATTAGGGAC ATTGATGGGA 
GTATTTGTGC CGTGCTTGCA AAACATTTTA GGAATTATCT ACTATATACG ATTTTCTTGG 
ATTGTTGGTA TGGCAGGCAT TGGTCAGTCG CTTTTGCTGG TGTCCTTTTG TGGTTTGTGT 
ACTTTCCTGA CTTCGATATC ATTGAGTGCT ATCGCAACTA ATGGTGCAAT GAAGGGTGGG 
GGGCCATATT ATCTCATTGG TCGTGCCCTT GGTCCAGAAG TTGGAGTTAG CATTGGACTA 
TGTTTCTTCC TTGGGAATGC AGTAGCTGGA TCTCTTTATG TGCTGGGAGC TGTAGAAACC 
TTCTTAGATG CCTTGCCAGG TGCTGGGATT TTTGGAGAGG TTGTCACAAA AGTTAATGGC 
ACAGAAGCTG CAGTGGCCGT ACCAAGTCCA AATTTGCATG ACCTGCAAGT CTATGGGATA 
GTTGTGACGA TAATCCTATG CTTTATTGTG TTTGGTGGTG TTAAGATGAT CAATCGGGTT 
GCACCTGCTT TCCTTATACC TGTTTTATTC TCCTTGTTCT GCATATTTGT TGGGGCTGTT 
TTGGCAAGAA AGGATCACCC TGCTGTTGGA GTCACTGGCT TGAGTTTGAA ATCCTTAAAA 
GATAATTGGA GCTCGAGTTA TCAAAATACT AATAATGCTG GAATACCTGA TCCTGATGGA 
GCTGTAAGCT GGAATTTCAA TGCACTGGTC GGTCTATTTT TCCCTGCTGT AACGGGAATT 
ATGGCAGGTT CAAATCGCTC TGCTTCATTG AGAGACACTC AACGTTCAAT TCCTGTTGGA 
ACATTGGCTG CGACTCTTTC TACTTCTGCA ATGTACCTAT TTTCTGTGCT TTTATTTGGA 
TCTCTAGCAA CAAGGGAGAA ACTTTTGACA GACAGGCTAC TAACTGCTAC AATTGCTTGG 
CCTTTACCGG CAATTATTTA CATTGGAATT ATCCTTTCAA CCTTAGGGGC GGCTCTTCAA 
AGCCTTACAG GTGCTCCACG GCTGCTTGCA GCAATAGCCA ATGATGATAT CCTTCCTGTT 
CTTCATTACT TCAGAGTTGC TGAAGGGAGT GAACCTCATA TTGCAACCCT CTTTACTGCA 
TTAATTTGTA TTGGGTGTGT CATAATCGGG AATCTGGATC TTATCACACC AACAATTACC 
ATGTTTTTCC TTTTGTGTTA TGCTGGTGTG AACTTGTCTT GCTTCCTTCT GGATCTTCTA 
GATGCTCCCA GTTGGCGTCC ACGATGGAAA TTTCACCACT GGAGCCTCTC TCTTCTTGGA 
GCAGTTCTTT GTATAGTGAT CATGTTCTTG ATATCTTGGT CATTTACTGT GGTGTCCCTA 
GCCCTTGCAA GTCTCATATA TTATTATGTA TGCATCAAAG GGAAGGCTGG GGACTGGGGT 
GATGGCTTCA AGAGTGCATA TTTCCAACTA GCCCTTCGTA GTCTTCGATC ACTGGGGGCA 
AGCCAAGTGC ACCCAAAGAA CTGGTATCCT ATTCCCCTCA TATTCTGCCG GCCATGGGGG 
AAGCTGCCAG AGAATGTGCC CTGCCACCCT AAATTAGCTG ACTTTGCTAA CTGCATGAAG 
AAAAAGGGTC GTGGAATGTC CATTTTTGTC TCTATTTTAG ATGGAGATTA CCATGAGTGT 
GCAGAAGATG CCAAGACAGC CTGCAGGCAG CTGAGTACCT ACATTGACTA TAAGCGCTGT 
GAAGGTGTTG CAGAGATAGT TGTGGCCCCC AGTATGTCAG ATGGTTTCCG TGGCATTGTC 
CAAACTATGG GCCTAGGCAA TCTTAAGCCG AACATTGTGG TCATGCGATA CCCTGAAATA 
TGGCGTCGGG AAAACCTAAT TGAAATCCCA GCTACCTTTG TTGGCATAAT TAATGACTGC 
ATTGTTGCAA ACAAGGCAGT TGTGATTGTC AAGGGCCTTG ATGAATGGCC CAATGAGTAT 
CAAAGGCAGT ATGGTACTAT TGATCTGTAT TGGATCGTGA GAGATGGGGG CCTTATGCTT 
CTCCTCTCCC AGCTCCTCCT TACCAAGGAG AGCTTTGAGA GTTGTAAGAT TCAGGTCTTC 
TGCATTGCGG AGGAGGATTC TGATGCAGAG GAGCTCAAGG CTGATGTCAA GAAGTTTTTG 
TATGATCTTC GCATGCATGC TGAAGTGATT GTTATATCGA TGAAATCATG GGATGCCCAA 
GGAGAAGGAG TGTCCCAGCA AGATGAATCA ATAGAGGCAT TCACGGGTGC TCAGCGGCGG 
ATTGCTGGTT ACTTGAGTGA GATGAAGGAG GCAGCTAAGA GGGAAGGAAC TCCACTGATG 
GCTGATGGGA AATCTGTGGT TGTGAATGAG CAACAGGTGG AGAAATTTCT TTACACAACA 
CTGAAGCTTA ATTCGACAAT ACTTAGATAC TCAAGAATGG CTGCAGTCGT GCTTGTGAGC 
TTACCACCAC CACCTCTCAA CCACCCAGCG TATTTCTACA TGGAGTACAT GGATCTTTTG 
GTAGAGAATG TACCTAGGCT TTTGATGGTA AGGGGATACC GTAGAGATGT TGTCACCCTT 
TTCACATAG

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

RefSeq	XP_010655720.1
CDS	224..3172
Translation	MDNGDIENAEDEFGGQSGRKYRPVVSHDRAVLQMSSLDSGSSSSLPVPQSPFTNLKISMQGNMSSDAREESSTNHEELNGSERESKLELFGFDSLVNILGLKSMTGEAIAAPSSPRDGEDVSNTPGRSKANDLKLGTLMGVFVPCLQNILGIIYYIRFSWIVGMAGIGQSLLLVSFCGLCTFLTSISLSAIATNGAMKGGGPYYLIGRALGPEVGVSIGLCFFLGNAVAGSLYVLGAVETFLDALPGAGIFGEVVTKVNGTEAAVAVPSPNLHDLQVYGIVVTIILCFIVFGGVKMINRVAPAFLIPVLFSLFCIFVGAVLARKDHPAVGVTGLSLKSLKDNWSSSYQNTNNAGIPDPDGAVSWNFNALVGLFFPAVTGIMAGSNRSASLRDTQRSIPVGTLAATLSTSAMYLFSVLLFGSLATREKLLTDRLLTATIAWPLPAIIYIGIILSTLGAALQSLTGAPRLLAAIANDDILPVLHYFRVAEGSEPHIATLFTALICIGCVIIGNLDLITPTITMFFLLCYAGVNLSCFLLDLLDAPSWRPRWKFHHWSLSLLGAVLCIVIMFLISWSFTVVSLALASLIYYYVCIKGKAGDWGDGFKSAYFQLALRSLRSLGASQVHPKNWYPIPLIFCRPWGKLPENVPCHPKLADFANCMKKKGRGMSIFVSILDGDYHECAEDAKTACRQLSTYIDYKRCEGVAEIVVAPSMSDGFRGIVQTMGLGNLKPNIVVMRYPEIWRRENLIEIPATFVGIINDCIVANKAVVIVKGLDEWPNEYQRQYGTIDLYWIVRDGGLMLLLSQLLLTKESFESCKIQVFCIAEEDSDAEELKADVKKFLYDLRMHAEVIVISMKSWDAQGEGVSQQDESIEAFTGAQRRIAGYLSEMKEAAKREGTPLMADGKSVVVNEQQVEKFLYTTLKLNSTILRYSRMAAVVLVSLPPPPLNHPAYFYMEYMDLLVENVPRLLMVRGYRRDVVTLFT

Target ORF information:

RefSeq Version	XM_010657418.2
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera cation chloride co-transporter 1 (CCC1), transcript variant X1, mRNA.

Target ORF information:

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

XM_010657418.2

ORF Insert Sequence:

ATGGACAACG GAGACATTGA AAACGCGGAA GACGAGTTCG GCGGGCAAAG CGGACGCAAA 
TACAGACCAG TCGTCTCGCA TGACCGCGCT GTTCTCCAAA TGTCCTCTTT GGATTCCGGA 
TCTTCCTCTT CTCTCCCCGT CCCTCAATCA CCTTTCACGA ACCTTAAAAT AAGCATGCAG 
GGAAACATGA GTTCTGATGC AAGAGAAGAG TCATCTACTA ATCATGAAGA ACTCAATGGT 
TCTGAAAGAG AATCCAAATT GGAATTGTTC GGTTTTGACT CTCTTGTTAA TATTCTAGGT 
CTTAAGAGTA TGACAGGGGA GGCAATTGCA GCTCCTTCGA GTCCTAGAGA TGGCGAGGAT 
GTTTCGAATA CACCTGGGCG TTCCAAGGCT AATGATCTCA AATTAGGGAC ATTGATGGGA 
GTATTTGTGC CGTGCTTGCA AAACATTTTA GGAATTATCT ACTATATACG ATTTTCTTGG 
ATTGTTGGTA TGGCAGGCAT TGGTCAGTCG CTTTTGCTGG TGTCCTTTTG TGGTTTGTGT 
ACTTTCCTGA CTTCGATATC ATTGAGTGCT ATCGCAACTA ATGGTGCAAT GAAGGGTGGG 
GGGCCATATT ATCTCATTGG TCGTGCCCTT GGTCCAGAAG TTGGAGTTAG CATTGGACTA 
TGTTTCTTCC TTGGGAATGC AGTAGCTGGA TCTCTTTATG TGCTGGGAGC TGTAGAAACC 
TTCTTAGATG CCTTGCCAGG TGCTGGGATT TTTGGAGAGG TTGTCACAAA AGTTAATGGC 
ACAGAAGCTG CAGTGGCCGT ACCAAGTCCA AATTTGCATG ACCTGCAAGT CTATGGGATA 
GTTGTGACGA TAATCCTATG CTTTATTGTG TTTGGTGGTG TTAAGATGAT CAATCGGGTT 
GCACCTGCTT TCCTTATACC TGTTTTATTC TCCTTGTTCT GCATATTTGT TGGGGCTGTT 
TTGGCAAGAA AGGATCACCC TGCTGTTGGA GTCACTGGCT TGAGTTTGAA ATCCTTAAAA 
GATAATTGGA GCTCGAGTTA TCAAAATACT AATAATGCTG GAATACCTGA TCCTGATGGA 
GCTGTAAGCT GGAATTTCAA TGCACTGGTC GGTCTATTTT TCCCTGCTGT AACGGGAATT 
ATGGCAGGTT CAAATCGCTC TGCTTCATTG AGAGACACTC AACGTTCAAT TCCTGTTGGA 
ACATTGGCTG CGACTCTTTC TACTTCTGCA ATGTACCTAT TTTCTGTGCT TTTATTTGGA 
TCTCTAGCAA CAAGGGAGAA ACTTTTGACA GACAGGCTAC TAACTGCTAC AATTGCTTGG 
CCTTTACCGG CAATTATTTA CATTGGAATT ATCCTTTCAA CCTTAGGGGC GGCTCTTCAA 
AGCCTTACAG GTGCTCCACG GCTGCTTGCA GCAATAGCCA ATGATGATAT CCTTCCTGTT 
CTTCATTACT TCAGAGTTGC TGAAGGGAGT GAACCTCATA TTGCAACCCT CTTTACTGCA 
TTAATTTGTA TTGGGTGTGT CATAATCGGG AATCTGGATC TTATCACACC AACAATTACC 
ATGTTTTTCC TTTTGTGTTA TGCTGGTGTG AACTTGTCTT GCTTCCTTCT GGATCTTCTA 
GATGCTCCCA GTTGGCGTCC ACGATGGAAA TTTCACCACT GGAGCCTCTC TCTTCTTGGA 
GCAGTTCTTT GTATAGTGAT CATGTTCTTG ATATCTTGGT CATTTACTGT GGTGTCCCTA 
GCCCTTGCAA GTCTCATATA TTATTATGTA TGCATCAAAG GGAAGGCTGG GGACTGGGGT 
GATGGCTTCA AGAGTGCATA TTTCCAACTA GCCCTTCGTA GTCTTCGATC ACTGGGGGCA 
AGCCAAGTGC ACCCAAAGAA CTGGTATCCT ATTCCCCTCA TATTCTGCCG GCCATGGGGG 
AAGCTGCCAG AGAATGTGCC CTGCCACCCT AAATTAGCTG ACTTTGCTAA CTGCATGAAG 
AAAAAGGGTC GTGGAATGTC CATTTTTGTC TCTATTTTAG ATGGAGATTA CCATGAGTGT 
GCAGAAGATG CCAAGACAGC CTGCAGGCAG CTGAGTACCT ACATTGACTA TAAGCGCTGT 
GAAGGTGTTG CAGAGATAGT TGTGGCCCCC AGTATGTCAG ATGGTTTCCG TGGCATTGTC 
CAAACTATGG GCCTAGGCAA TCTTAAGCCG AACATTGTGG TCATGCGATA CCCTGAAATA 
TGGCGTCGGG AAAACCTAAT TGAAATCCCA GCTACCTTTG TTGGCATAAT TAATGACTGC 
ATTGTTGCAA ACAAGGCAGT TGTGATTGTC AAGGGCCTTG ATGAATGGCC CAATGAGTAT 
CAAAGGCAGT ATGGTACTAT TGATCTGTAT TGGATCGTGA GAGATGGGGG CCTTATGCTT 
CTCCTCTCCC AGCTCCTCCT TACCAAGGAG AGCTTTGAGA GTTGTAAGAT TCAGGTCTTC 
TGCATTGCGG AGGAGGATTC TGATGCAGAG GAGCTCAAGG CTGATGTCAA GAAGTTTTTG 
TATGATCTTC GCATGCATGC TGAAGTGATT GTTATATCGA TGAAATCATG GGATGCCCAA 
GGAGAAGGAG TGTCCCAGCA AGATGAATCA ATAGAGGCAT TCACGGGTGC TCAGCGGCGG 
ATTGCTGGTT ACTTGAGTGA GATGAAGGAG GCAGCTAAGA GGGAAGGAAC TCCACTGATG 
GCTGATGGGA AATCTGTGGT TGTGAATGAG CAACAGGTGG AGAAATTTCT TTACACAACA 
CTGAAGCTTA ATTCGACAAT ACTTAGATAC TCAAGAATGG CTGCAGTCGT GCTTGTGAGC 
TTACCACCAC CACCTCTCAA CCACCCAGCG TATTTCTACA TGGAGTACAT GGATCTTTTG 
GTAGAGAATG TACCTAGGCT TTTGATGGTA AGGGGATACC GTAGAGATGT TGTCACCCTT 
TTCACATAG

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

CCC1 ( XM_010657421.2 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_010655723.1 Vitis vinifera cation chloride co-transporter 1 (CCC1), transcript variant X3, mRNA.

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CloneID	OVa27176
Clone ID Related Accession (Same CDS sequence)	XM_010657421.2
Accession Version	XM_010657421.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2796bp) 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	cation-chloride cotransporter 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_012016.3) 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_010657421.1. ##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##

ATGAGGAACC TTAAAATAAG CATGCAGGGA AACATGAGTT CTGATGCAAG AGAAGAGTCA 
TCTACTAATC ATGAAGAACT CAATGGTTCT GAAAGAGAAT CCAAATTGGA ATTGTTCGGT 
TTTGACTCTC TTGTTAATAT TCTAGGTCTT AAGAGTATGA CAGGGGAGGC AATTGCAGCT 
CCTTCGAGTC CTAGAGATGG CGAGGATGTT TCGAATACAC CTGGGCGTTC CAAGGCTAAT 
GATCTCAAAT TAGGGACATT GATGGGAGTA TTTGTGCCGT GCTTGCAAAA CATTTTAGGA 
ATTATCTACT ATATACGATT TTCTTGGATT GTTGGTATGG CAGGCATTGG TCAGTCGCTT 
TTGCTGGTGT CCTTTTGTGG TTTGTGTACT TTCCTGACTT CGATATCATT GAGTGCTATC 
GCAACTAATG GTGCAATGAA GGGTGGGGGG CCATATTATC TCATTGGTCG TGCCCTTGGT 
CCAGAAGTTG GAGTTAGCAT TGGACTATGT TTCTTCCTTG GGAATGCAGT AGCTGGATCT 
CTTTATGTGC TGGGAGCTGT AGAAACCTTC TTAGATGCCT TGCCAGGTGC TGGGATTTTT 
GGAGAGGTTG TCACAAAAGT TAATGGCACA GAAGCTGCAG TGGCCGTACC AAGTCCAAAT 
TTGCATGACC TGCAAGTCTA TGGGATAGTT GTGACGATAA TCCTATGCTT TATTGTGTTT 
GGTGGTGTTA AGATGATCAA TCGGGTTGCA CCTGCTTTCC TTATACCTGT TTTATTCTCC 
TTGTTCTGCA TATTTGTTGG GGCTGTTTTG GCAAGAAAGG ATCACCCTGC TGTTGGAGTC 
ACTGGCTTGA GTTTGAAATC CTTAAAAGAT AATTGGAGCT CGAGTTATCA AAATACTAAT 
AATGCTGGAA TACCTGATCC TGATGGAGCT GTAAGCTGGA ATTTCAATGC ACTGGTCGGT 
CTATTTTTCC CTGCTGTAAC GGGAATTATG GCAGGTTCAA ATCGCTCTGC TTCATTGAGA 
GACACTCAAC GTTCAATTCC TGTTGGAACA TTGGCTGCGA CTCTTTCTAC TTCTGCAATG 
TACCTATTTT CTGTGCTTTT ATTTGGATCT CTAGCAACAA GGGAGAAACT TTTGACAGAC 
AGGCTACTAA CTGCTACAAT TGCTTGGCCT TTACCGGCAA TTATTTACAT TGGAATTATC 
CTTTCAACCT TAGGGGCGGC TCTTCAAAGC CTTACAGGTG CTCCACGGCT GCTTGCAGCA 
ATAGCCAATG ATGATATCCT TCCTGTTCTT CATTACTTCA GAGTTGCTGA AGGGAGTGAA 
CCTCATATTG CAACCCTCTT TACTGCATTA ATTTGTATTG GGTGTGTCAT AATCGGGAAT 
CTGGATCTTA TCACACCAAC AATTACCATG TTTTTCCTTT TGTGTTATGC TGGTGTGAAC 
TTGTCTTGCT TCCTTCTGGA TCTTCTAGAT GCTCCCAGTT GGCGTCCACG ATGGAAATTT 
CACCACTGGA GCCTCTCTCT TCTTGGAGCA GTTCTTTGTA TAGTGATCAT GTTCTTGATA 
TCTTGGTCAT TTACTGTGGT GTCCCTAGCC CTTGCAAGTC TCATATATTA TTATGTATGC 
ATCAAAGGGA AGGCTGGGGA CTGGGGTGAT GGCTTCAAGA GTGCATATTT CCAACTAGCC 
CTTCGTAGTC TTCGATCACT GGGGGCAAGC CAAGTGCACC CAAAGAACTG GTATCCTATT 
CCCCTCATAT TCTGCCGGCC ATGGGGGAAG CTGCCAGAGA ATGTGCCCTG CCACCCTAAA 
TTAGCTGACT TTGCTAACTG CATGAAGAAA AAGGGTCGTG GAATGTCCAT TTTTGTCTCT 
ATTTTAGATG GAGATTACCA TGAGTGTGCA GAAGATGCCA AGACAGCCTG CAGGCAGCTG 
AGTACCTACA TTGACTATAA GCGCTGTGAA GGTGTTGCAG AGATAGTTGT GGCCCCCAGT 
ATGTCAGATG GTTTCCGTGG CATTGTCCAA ACTATGGGCC TAGGCAATCT TAAGCCGAAC 
ATTGTGGTCA TGCGATACCC TGAAATATGG CGTCGGGAAA ACCTAATTGA AATCCCAGCT 
ACCTTTGTTG GCATAATTAA TGACTGCATT GTTGCAAACA AGGCAGTTGT GATTGTCAAG 
GGCCTTGATG AATGGCCCAA TGAGTATCAA AGGCAGTATG GTACTATTGA TCTGTATTGG 
ATCGTGAGAG ATGGGGGCCT TATGCTTCTC CTCTCCCAGC TCCTCCTTAC CAAGGAGAGC 
TTTGAGAGTT GTAAGATTCA GGTCTTCTGC ATTGCGGAGG AGGATTCTGA TGCAGAGGAG 
CTCAAGGCTG ATGTCAAGAA GTTTTTGTAT GATCTTCGCA TGCATGCTGA AGTGATTGTT 
ATATCGATGA AATCATGGGA TGCCCAAGGA GAAGGAGTGT CCCAGCAAGA TGAATCAATA 
GAGGCATTCA CGGGTGCTCA GCGGCGGATT GCTGGTTACT TGAGTGAGAT GAAGGAGGCA 
GCTAAGAGGG AAGGAACTCC ACTGATGGCT GATGGGAAAT CTGTGGTTGT GAATGAGCAA 
CAGGTGGAGA AATTTCTTTA CACAACACTG AAGCTTAATT CGACAATACT TAGATACTCA 
AGAATGGCTG CAGTCGTGCT TGTGAGCTTA CCACCACCAC CTCTCAACCA CCCAGCGTAT 
TTCTACATGG AGTACATGGA TCTTTTGGTA GAGAATGTAC CTAGGCTTTT GATGGTAAGG 
GGATACCGTA GAGATGTTGT CACCCTTTTC ACATAG

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

RefSeq	XP_010655723.1
CDS	245..3040
Translation	MRNLKISMQGNMSSDAREESSTNHEELNGSERESKLELFGFDSLVNILGLKSMTGEAIAAPSSPRDGEDVSNTPGRSKANDLKLGTLMGVFVPCLQNILGIIYYIRFSWIVGMAGIGQSLLLVSFCGLCTFLTSISLSAIATNGAMKGGGPYYLIGRALGPEVGVSIGLCFFLGNAVAGSLYVLGAVETFLDALPGAGIFGEVVTKVNGTEAAVAVPSPNLHDLQVYGIVVTIILCFIVFGGVKMINRVAPAFLIPVLFSLFCIFVGAVLARKDHPAVGVTGLSLKSLKDNWSSSYQNTNNAGIPDPDGAVSWNFNALVGLFFPAVTGIMAGSNRSASLRDTQRSIPVGTLAATLSTSAMYLFSVLLFGSLATREKLLTDRLLTATIAWPLPAIIYIGIILSTLGAALQSLTGAPRLLAAIANDDILPVLHYFRVAEGSEPHIATLFTALICIGCVIIGNLDLITPTITMFFLLCYAGVNLSCFLLDLLDAPSWRPRWKFHHWSLSLLGAVLCIVIMFLISWSFTVVSLALASLIYYYVCIKGKAGDWGDGFKSAYFQLALRSLRSLGASQVHPKNWYPIPLIFCRPWGKLPENVPCHPKLADFANCMKKKGRGMSIFVSILDGDYHECAEDAKTACRQLSTYIDYKRCEGVAEIVVAPSMSDGFRGIVQTMGLGNLKPNIVVMRYPEIWRRENLIEIPATFVGIINDCIVANKAVVIVKGLDEWPNEYQRQYGTIDLYWIVRDGGLMLLLSQLLLTKESFESCKIQVFCIAEEDSDAEELKADVKKFLYDLRMHAEVIVISMKSWDAQGEGVSQQDESIEAFTGAQRRIAGYLSEMKEAAKREGTPLMADGKSVVVNEQQVEKFLYTTLKLNSTILRYSRMAAVVLVSLPPPPLNHPAYFYMEYMDLLVENVPRLLMVRGYRRDVVTLFT

Target ORF information:

RefSeq Version	XM_010657421.2
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera cation chloride co-transporter 1 (CCC1), transcript variant X3, mRNA.

Target ORF information:

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

XM_010657421.2

ORF Insert Sequence:

ATGAGGAACC TTAAAATAAG CATGCAGGGA AACATGAGTT CTGATGCAAG AGAAGAGTCA 
TCTACTAATC ATGAAGAACT CAATGGTTCT GAAAGAGAAT CCAAATTGGA ATTGTTCGGT 
TTTGACTCTC TTGTTAATAT TCTAGGTCTT AAGAGTATGA CAGGGGAGGC AATTGCAGCT 
CCTTCGAGTC CTAGAGATGG CGAGGATGTT TCGAATACAC CTGGGCGTTC CAAGGCTAAT 
GATCTCAAAT TAGGGACATT GATGGGAGTA TTTGTGCCGT GCTTGCAAAA CATTTTAGGA 
ATTATCTACT ATATACGATT TTCTTGGATT GTTGGTATGG CAGGCATTGG TCAGTCGCTT 
TTGCTGGTGT CCTTTTGTGG TTTGTGTACT TTCCTGACTT CGATATCATT GAGTGCTATC 
GCAACTAATG GTGCAATGAA GGGTGGGGGG CCATATTATC TCATTGGTCG TGCCCTTGGT 
CCAGAAGTTG GAGTTAGCAT TGGACTATGT TTCTTCCTTG GGAATGCAGT AGCTGGATCT 
CTTTATGTGC TGGGAGCTGT AGAAACCTTC TTAGATGCCT TGCCAGGTGC TGGGATTTTT 
GGAGAGGTTG TCACAAAAGT TAATGGCACA GAAGCTGCAG TGGCCGTACC AAGTCCAAAT 
TTGCATGACC TGCAAGTCTA TGGGATAGTT GTGACGATAA TCCTATGCTT TATTGTGTTT 
GGTGGTGTTA AGATGATCAA TCGGGTTGCA CCTGCTTTCC TTATACCTGT TTTATTCTCC 
TTGTTCTGCA TATTTGTTGG GGCTGTTTTG GCAAGAAAGG ATCACCCTGC TGTTGGAGTC 
ACTGGCTTGA GTTTGAAATC CTTAAAAGAT AATTGGAGCT CGAGTTATCA AAATACTAAT 
AATGCTGGAA TACCTGATCC TGATGGAGCT GTAAGCTGGA ATTTCAATGC ACTGGTCGGT 
CTATTTTTCC CTGCTGTAAC GGGAATTATG GCAGGTTCAA ATCGCTCTGC TTCATTGAGA 
GACACTCAAC GTTCAATTCC TGTTGGAACA TTGGCTGCGA CTCTTTCTAC TTCTGCAATG 
TACCTATTTT CTGTGCTTTT ATTTGGATCT CTAGCAACAA GGGAGAAACT TTTGACAGAC 
AGGCTACTAA CTGCTACAAT TGCTTGGCCT TTACCGGCAA TTATTTACAT TGGAATTATC 
CTTTCAACCT TAGGGGCGGC TCTTCAAAGC CTTACAGGTG CTCCACGGCT GCTTGCAGCA 
ATAGCCAATG ATGATATCCT TCCTGTTCTT CATTACTTCA GAGTTGCTGA AGGGAGTGAA 
CCTCATATTG CAACCCTCTT TACTGCATTA ATTTGTATTG GGTGTGTCAT AATCGGGAAT 
CTGGATCTTA TCACACCAAC AATTACCATG TTTTTCCTTT TGTGTTATGC TGGTGTGAAC 
TTGTCTTGCT TCCTTCTGGA TCTTCTAGAT GCTCCCAGTT GGCGTCCACG ATGGAAATTT 
CACCACTGGA GCCTCTCTCT TCTTGGAGCA GTTCTTTGTA TAGTGATCAT GTTCTTGATA 
TCTTGGTCAT TTACTGTGGT GTCCCTAGCC CTTGCAAGTC TCATATATTA TTATGTATGC 
ATCAAAGGGA AGGCTGGGGA CTGGGGTGAT GGCTTCAAGA GTGCATATTT CCAACTAGCC 
CTTCGTAGTC TTCGATCACT GGGGGCAAGC CAAGTGCACC CAAAGAACTG GTATCCTATT 
CCCCTCATAT TCTGCCGGCC ATGGGGGAAG CTGCCAGAGA ATGTGCCCTG CCACCCTAAA 
TTAGCTGACT TTGCTAACTG CATGAAGAAA AAGGGTCGTG GAATGTCCAT TTTTGTCTCT 
ATTTTAGATG GAGATTACCA TGAGTGTGCA GAAGATGCCA AGACAGCCTG CAGGCAGCTG 
AGTACCTACA TTGACTATAA GCGCTGTGAA GGTGTTGCAG AGATAGTTGT GGCCCCCAGT 
ATGTCAGATG GTTTCCGTGG CATTGTCCAA ACTATGGGCC TAGGCAATCT TAAGCCGAAC 
ATTGTGGTCA TGCGATACCC TGAAATATGG CGTCGGGAAA ACCTAATTGA AATCCCAGCT 
ACCTTTGTTG GCATAATTAA TGACTGCATT GTTGCAAACA AGGCAGTTGT GATTGTCAAG 
GGCCTTGATG AATGGCCCAA TGAGTATCAA AGGCAGTATG GTACTATTGA TCTGTATTGG 
ATCGTGAGAG ATGGGGGCCT TATGCTTCTC CTCTCCCAGC TCCTCCTTAC CAAGGAGAGC 
TTTGAGAGTT GTAAGATTCA GGTCTTCTGC ATTGCGGAGG AGGATTCTGA TGCAGAGGAG 
CTCAAGGCTG ATGTCAAGAA GTTTTTGTAT GATCTTCGCA TGCATGCTGA AGTGATTGTT 
ATATCGATGA AATCATGGGA TGCCCAAGGA GAAGGAGTGT CCCAGCAAGA TGAATCAATA 
GAGGCATTCA CGGGTGCTCA GCGGCGGATT GCTGGTTACT TGAGTGAGAT GAAGGAGGCA 
GCTAAGAGGG AAGGAACTCC ACTGATGGCT GATGGGAAAT CTGTGGTTGT GAATGAGCAA 
CAGGTGGAGA AATTTCTTTA CACAACACTG AAGCTTAATT CGACAATACT TAGATACTCA 
AGAATGGCTG CAGTCGTGCT TGTGAGCTTA CCACCACCAC CTCTCAACCA CCCAGCGTAT 
TTCTACATGG AGTACATGGA TCTTTTGGTA GAGAATGTAC CTAGGCTTTT GATGGTAAGG 
GGATACCGTA GAGATGTTGT CACCCTTTTC ACATAG

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

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CCC1 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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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