arhgef10 cDNA ORF clone, Salmo salar(Atlantic salmon)

Gene
Clones
gRNAs

Summary

Gene Symbol	arhgef10
Entrez Gene ID	106574446
Full Name	Rho guanine nucleotide exchange factor 10
Gene Type	protein-coding
Organism	Salmo salar(Atlantic salmon)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014150449.1	XP_014005924.1	rho guanine nucleotide exchange factor 10 isoform X2
XM_014150370.1	XP_014005845.1	rho guanine nucleotide exchange factor 10 isoform X1

Pathways from BioSystems
Gene Ontology

The following arhgef10 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the arhgef10 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
OAt04023	XM_014150370.1 Latest version!	Salmo salar Rho guanine nucleotide exchange factor (GEF) 10 (arhgef10), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00
OAt04024	XM_014150449.1 Latest version!	Salmo salar Rho guanine nucleotide exchange factor (GEF) 10 (arhgef10), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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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)

arhgef10 ( XM_014150370.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014005845.1 Salmo salar Rho guanine nucleotide exchange factor (GEF) 10 (arhgef10), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAt04023
Clone ID Related Accession (Same CDS sequence)	XM_014150370.1
Accession Version	XM_014150370.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4668bp) 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	1442678400000
Organism	Salmo salar(Atlantic salmon)
Product	rho guanine nucleotide exchange factor 10 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012332497.1) 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 :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGTCAG ATTGCATTGG GAAAAGCTTG GATAATTTTA GTAGAGGAAA ATGGAAAAAG 
GGACAATTCA TTTATAGGAG CAGAAGAAGT TCATCCTCAG TGTTTGACAG GGATTTCTTT 
GCAAATCTTT ACTGTGGAAC TAGAAAAAAT AACGATATTC ATCAGGATTC GAAACATGGG 
CCATGTGTGA TTGAAGAGGA CCACCACCAC CACCAGGCTG CTGAGGGAAC CTGTCTGCCC 
AGAGAAACAG CAACCAGTAT GGACATCGTG GAAGACTTCC CTCCCCCGCC TCCTGAAATG 
TTGGCGGACG AGGTGCCCTA TGCCGATGAA GAAGAGGGGG AGCAGTTTGA GTTTGATGAC 
AGTGGGGATG AGTTCCCTGA GGCAGACCGG CCACCCCATG GCCCTCCAGC CCCAGACTAC 
GGGGGCAAGG CCCAGATCAA TGGTGTGGTC CCTCACCCAC AGCAGGGAGG ACCAGACCCC 
CAGCCCTCCA ACCCGGAGCC CACAGCAGCA GCAGCAGACA CAGCTCCAGT GGCAGCTGAA 
CCACCAGTTT CAGTAGCCAT GGCTACAACA GACACAGTGG CATCAGCACC GGAAGCTCCG 
GTAGCCATGG CTACAACAGA AACAACAGCT CCAGTGGCAG CAGCAGAAGG GGACAAGACT 
TCATCTGTCC CAGCTGACGC AGACAGTGAC TTACCCCCTC CTCCACCTCC AGAGGACTCC 
ACTCCTGTAG GAACATCCTC CTTTAACACA GATAAGGAAG TGTCCAGTGA TGACCCTCCC 
CTGGCCGTCC CCAGGACCAC CTCCCAGAAG AAAGTCAACC CCTACTCTGT GATTGACATC 
ACCCCCCTCC AACTACAGCA GCTGGAGCAG CAGCATGGGG CCGCCCCTAC CTCTTCCTCA 
CCGGTTCAGA GTGTGGGAGG AGAGGGGGAG AGGGAGGGGA AGGGCCAGGA TGTTCCCCCC 
GCCAGCCCTC TCTGTGTCCC ATCGGGATAC TCTGTGCCCG TGCCCTGTGG GTACGCCACC 
CCCTCTGGTG TGCCCCTCAT TACGCCAGCC TACACCACGC CCGTCATCAT CCGACACTTC 
TCCGTGGACG AGGACGATAC TGTGGTGGGG ACAGGCAACA TTTCTGTTGA CATTGAAGAG 
TATCCTGCCA TCAGAGAGGA GGATGCTTTG TCTAAATGGG TGTCGGACCC TGCAAACACA 
GCCTGGATGG AAAATCCAGA TGAAGTAATT TATGATGATG TGCCCAGAGA GAACTCTGAC 
TCCACTACAG AGCCAGACGA GATGATCTAT GATGATGTGG AGTTTGGGGA GGAGGGCTGT 
GGCAGCTCCC TGGACAACGG TTGGAGCTCT AGCGAGTTTG AGAGCTACGA CGAGCAGAGT 
GACGGGGAGG GCCGCGGGGA GAATGGCCTG CCTGACGCCT TCATGAGAGG GAAGCCCCCA 
CAAAGGAAGA CCCATCTTTC TCAAGATCTG ACACGCTTGA AAGAACACTA TGAGAAAAAG 
ATGAAAGATC TTATGGCAAA TACAGTGGGA ACAGTAGAGC TGCAGCAGAT AAAACAGAAA 
CACGAGCAGA AGATGCAAAA GCTGGTGAAG GCAGCGAGAG ACGGGACCAA AGATGGCCTG 
GAGAAGACCA AAGCAGCAGT GAGAAGGGGA CGGTCGTATA TCAAGACCCA CTGTCATGAG 
AGGAAGTCAA CCTGTTTTGA GGATGAGGAG TCAGAGCTAT TCATCGAAGT GGAATGCTTC 
AACATGGAGC CAGTGCTCAG TCCCGTCCCT GAGGGGCTCT CACAACAACA GGTGGTGAGG 
AGGTGTATAC TGGGCTCCAT ATTAGAGAGT GAGAAGAACT ATCTTGATGC ACTGAAGCGG 
ATTTTAGAGC AATATGAAAA GCCACTTTTG GAGATTGAGC CCAGGTTGCT AAGCGATAGG 
AAGCTGAAGG TGACATTCTA TCGTATCCGG GAGATTCTCC AGTGCCACGC CCTGTTCCAG 
ATCGCCCTGG CGTGCCGCGT GGCCGAGTGG GACAGTCTGG AGATGATCGG GGACGTCTTT 
GTAGCCTCGT TCTCCAAGTC CATGGTGCTG GATGCCTACT GTGAGTATGT GAACAACTTC 
AGCACAGCCA TGGCGGTGGT CAGGAAGACG TGTGCCTCCA AACCCAGCTT CCTAGACTTC 
CTCAAGCAAC GTCAGGACAC CAGCAGTGAC CGGGTCACTC TCTATGGACT CATGATGAAG 
CCCATCCAGA GATTCCCTCA GTTCATTCTG ATGCTGCAGG ACATGTTGAA GAACACACCA 
GCAGGCCACA GTGACAGACT GCCCCTACAG ATGGCCCTGA CAGAACTGGA GACCCTGGCT 
GAAAAGCTCA ATGAGAAGAA GAGGGAGGCT GACCAGCGCT GTGAGATCAG ACACATAGCC 
AAGGCCATGA ACGAACGCTA CCTCAACAAG CTCCTGAGTA ACGGCAGCCG CTACCTGATC 
CGCTCTGACG ACATAGTGGA GACGGTCTAC AACGACCACG GAGAGGTCAT CAAGACCAAG 
GAGCGACGCC TTTTCCTGCT CAACGACGTG CTCATGTGTG CCACGCCCAA CGTCCGGTGC 
AGTGTTGATG GCAGTGGTAG TGGCAACGCC GCCCTGGGTC AGAAGTTCCT GCTGAAGTGG 
AGTGTCCCTC TGAGCTTTGT GGACGTAGTA GAGTTTGGCT CCAGTGAAGA CATGGGCGAC 
AACAGCCGCT TCGCCCACCA ACCCCACTCT GGAGAGAAGG TGGTCGTCAA CGCCAAACCA 
AATAAGCTGT ACATGGGTCC AGGCCAGCTG TACCAGGACC TTCAGAACCT CATCCACGAC 
CTCAGCCTGG TCAACCAGAT CTCCAGCATG ATCGGAAGCC TCAAGGGAAA CTACCAGAAC 
GTTAACCCTA CGGTGGCCCA TGACTGGGTG TCAGGTCTGC AGCGTCTCAT CCTGAAGAAG 
GAGGAAGAGA TCCGGGCTGC AGACCGTTGT AGGATCCAGC TGCAGCTGCC TGGCAAACCG 
GACAAGTCTG GCAGGCCCAC ATACTTCAGT GCAGTGTTCA ATACGTTCTC TCCGGCCATC 
AAACAGTCGT GGATCAGTAA CCTGCAGATG GCCAAGCTGG CTCTGGAGGA GGACAACCTG 
CAGGGCTGGT TCTTTGCAGA GGATGATGGT AACCAGATCA AGAAGCAGAA ACATCCTCTG 
CTGCTCAGGC AGATGCCTGT GGTCATGTCC AAACTACAGG AGTTCAAGGT GGAGTGTGCG 
GTCCATAACC CCGAGCCCCA CATCAACATA GAGAGCACAG CAGACACCCC TGCTCTGGGA 
CACGGCTGTG TGTGGGTGGC GAGCTGCACC AACCAGATGG GTCAGATAGC CATCGTAGCC 
ATGCAAAACT CCAGCCCCAA AGTGACAGAG TGCTTCAATG TTGAGTCACG GATCCTGTGT 
ATGGCGTATG TACCCATGGA GCAGAGGACC CAGGAGAACG GGGAGGGGAA CCCCGAAAAT 
AATCATTCCT CAGCAGGGAA GACCAGTGAT GCCCCCACGG TCTGTCTGGG CATGGAGGAG 
GGCAGCATCA TAGTCTATAA GAGCAGCCAG CGATCCAAGA AGGTCCGTCT ACAACACTTC 
TTCACCCCAG ACAAGTCTAC CGTGACCAGC CTAGTACACA AGAAGCAGTG TTTATACACT 
GGCCTAGTGA ACGGCTCAGT CACCATCTAC TCCAGAGCAC AAGATGGCTC ATGGAATCCA 
GACTCTCCTA AAGTGTTGAA GCTGGGGGTT CTGCCAGTGA AGGCCATGCT AGCTGTGGAG 
GAACATGTCT GGGCTTCCTC TGGAGGACAA GTCTTCATCA TCAGCACTAC CACACACACT 
GTGGAGAGGC AGCTGGAGGC CCACCAGGAG GAGGGCATGG TGGTATCCCA CATGGTGGTG 
GCTGGGGTGG GTATCTGGAT AGCTTTCAGC TCTGGGTCCA CCCTCCGACT GTTCCACACG 
GAGACGCTGG AGGATCTACA GGACATCAAC ATCGCTACAC CTGTACACAA CATACTGGCT 
GGGAACCAGA GGGTCTCAGT CAGCAGTCTG CTGGTGTGCC ATGGTCTGCT GCTGGTGGGG 
ACCAACCTGG GGGTGACAGT GGCCCTCTCT GTCCCCAGAC TACAGGGAAT CCCCAAGGTC 
ACAGGACGGG GCATGGTATC CTTCCACGCC CACCACGGCC CAGTAAAGTT CCTCACCATG 
GCAGCCGCGG TGTGCAACCG GCCCTCCGGC AACCCAGGCA GCCCAGGCAG CAGCCTACCT 
AGCCAGCCAG GAGACACCAA GGACGGGGAG AAGGCCCAGG TCTGCCAACC TCCAACCCCA 
GGCTCCACAC CCGCTCTAGC TCCCACCCAG GGCCGGGGAG TGTGGCTGGG AGAGGCAGGC 
TGCACCTCCA TGGCCATCCA GGACTCCCTG TCTTCCTCCT GTGGCTCCCT GGCTCTGTCC 
CAGGGCTCTC TGGAGCACGG GCCCGAGGAC GGGGCCATCT ATGACTTGGT CAATGATCCG 
GCCCACCACC AGAGGGGCAG GAGGGTCCAG AAGGTGGACG TCAGCTCTCT GCTGGTGGTG 
TCAGGGGGGC TGGGTCACCA CAGGGTCAAC AGGAAGACCA AACAGTCCCG TCAGGAGGAG 
ACGGTGTCCA ACATCATGGT GTGGCAGATC CCTCTACTCA ACATGTGA

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

RefSeq	XP_014005845.1
CDS	21..4688
Translation	MESDCIGKSLDNFSRGKWKKGQFIYRSRRSSSSVFDRDFFANLYCGTRKNNDIHQDSKHGPCVIEEDHHHHQAAEGTCLPRETATSMDIVEDFPPPPPEMLADEVPYADEEEGEQFEFDDSGDEFPEADRPPHGPPAPDYGGKAQINGVVPHPQQGGPDPQPSNPEPTAAAADTAPVAAEPPVSVAMATTDTVASAPEAPVAMATTETTAPVAAAEGDKTSSVPADADSDLPPPPPPEDSTPVGTSSFNTDKEVSSDDPPLAVPRTTSQKKVNPYSVIDITPLQLQQLEQQHGAAPTSSSPVQSVGGEGEREGKGQDVPPASPLCVPSGYSVPVPCGYATPSGVPLITPAYTTPVIIRHFSVDEDDTVVGTGNISVDIEEYPAIREEDALSKWVSDPANTAWMENPDEVIYDDVPRENSDSTTEPDEMIYDDVEFGEEGCGSSLDNGWSSSEFESYDEQSDGEGRGENGLPDAFMRGKPPQRKTHLSQDLTRLKEHYEKKMKDLMANTVGTVELQQIKQKHEQKMQKLVKAARDGTKDGLEKTKAAVRRGRSYIKTHCHERKSTCFEDEESELFIEVECFNMEPVLSPVPEGLSQQQVVRRCILGSILESEKNYLDALKRILEQYEKPLLEIEPRLLSDRKLKVTFYRIREILQCHALFQIALACRVAEWDSLEMIGDVFVASFSKSMVLDAYCEYVNNFSTAMAVVRKTCASKPSFLDFLKQRQDTSSDRVTLYGLMMKPIQRFPQFILMLQDMLKNTPAGHSDRLPLQMALTELETLAEKLNEKKREADQRCEIRHIAKAMNERYLNKLLSNGSRYLIRSDDIVETVYNDHGEVIKTKERRLFLLNDVLMCATPNVRCSVDGSGSGNAALGQKFLLKWSVPLSFVDVVEFGSSEDMGDNSRFAHQPHSGEKVVVNAKPNKLYMGPGQLYQDLQNLIHDLSLVNQISSMIGSLKGNYQNVNPTVAHDWVSGLQRLILKKEEEIRAADRCRIQLQLPGKPDKSGRPTYFSAVFNTFSPAIKQSWISNLQMAKLALEEDNLQGWFFAEDDGNQIKKQKHPLLLRQMPVVMSKLQEFKVECAVHNPEPHINIESTADTPALGHGCVWVASCTNQMGQIAIVAMQNSSPKVTECFNVESRILCMAYVPMEQRTQENGEGNPENNHSSAGKTSDAPTVCLGMEEGSIIVYKSSQRSKKVRLQHFFTPDKSTVTSLVHKKQCLYTGLVNGSVTIYSRAQDGSWNPDSPKVLKLGVLPVKAMLAVEEHVWASSGGQVFIISTTTHTVERQLEAHQEEGMVVSHMVVAGVGIWIAFSSGSTLRLFHTETLEDLQDINIATPVHNILAGNQRVSVSSLLVCHGLLLVGTNLGVTVALSVPRLQGIPKVTGRGMVSFHAHHGPVKFLTMAAAVCNRPSGNPGSPGSSLPSQPGDTKDGEKAQVCQPPTPGSTPALAPTQGRGVWLGEAGCTSMAIQDSLSSSCGSLALSQGSLEHGPEDGAIYDLVNDPAHHQRGRRVQKVDVSSLLVVSGGLGHHRVNRKTKQSRQEETVSNIMVWQIPLLNM

Target ORF information:

RefSeq Version	XM_014150370.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar Rho guanine nucleotide exchange factor (GEF) 10 (arhgef10), transcript variant X1, mRNA.

Target ORF information:

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

XM_014150370.1

ORF Insert Sequence:

ATGGAGTCAG ATTGCATTGG GAAAAGCTTG GATAATTTTA GTAGAGGAAA ATGGAAAAAG 
GGACAATTCA TTTATAGGAG CAGAAGAAGT TCATCCTCAG TGTTTGACAG GGATTTCTTT 
GCAAATCTTT ACTGTGGAAC TAGAAAAAAT AACGATATTC ATCAGGATTC GAAACATGGG 
CCATGTGTGA TTGAAGAGGA CCACCACCAC CACCAGGCTG CTGAGGGAAC CTGTCTGCCC 
AGAGAAACAG CAACCAGTAT GGACATCGTG GAAGACTTCC CTCCCCCGCC TCCTGAAATG 
TTGGCGGACG AGGTGCCCTA TGCCGATGAA GAAGAGGGGG AGCAGTTTGA GTTTGATGAC 
AGTGGGGATG AGTTCCCTGA GGCAGACCGG CCACCCCATG GCCCTCCAGC CCCAGACTAC 
GGGGGCAAGG CCCAGATCAA TGGTGTGGTC CCTCACCCAC AGCAGGGAGG ACCAGACCCC 
CAGCCCTCCA ACCCGGAGCC CACAGCAGCA GCAGCAGACA CAGCTCCAGT GGCAGCTGAA 
CCACCAGTTT CAGTAGCCAT GGCTACAACA GACACAGTGG CATCAGCACC GGAAGCTCCG 
GTAGCCATGG CTACAACAGA AACAACAGCT CCAGTGGCAG CAGCAGAAGG GGACAAGACT 
TCATCTGTCC CAGCTGACGC AGACAGTGAC TTACCCCCTC CTCCACCTCC AGAGGACTCC 
ACTCCTGTAG GAACATCCTC CTTTAACACA GATAAGGAAG TGTCCAGTGA TGACCCTCCC 
CTGGCCGTCC CCAGGACCAC CTCCCAGAAG AAAGTCAACC CCTACTCTGT GATTGACATC 
ACCCCCCTCC AACTACAGCA GCTGGAGCAG CAGCATGGGG CCGCCCCTAC CTCTTCCTCA 
CCGGTTCAGA GTGTGGGAGG AGAGGGGGAG AGGGAGGGGA AGGGCCAGGA TGTTCCCCCC 
GCCAGCCCTC TCTGTGTCCC ATCGGGATAC TCTGTGCCCG TGCCCTGTGG GTACGCCACC 
CCCTCTGGTG TGCCCCTCAT TACGCCAGCC TACACCACGC CCGTCATCAT CCGACACTTC 
TCCGTGGACG AGGACGATAC TGTGGTGGGG ACAGGCAACA TTTCTGTTGA CATTGAAGAG 
TATCCTGCCA TCAGAGAGGA GGATGCTTTG TCTAAATGGG TGTCGGACCC TGCAAACACA 
GCCTGGATGG AAAATCCAGA TGAAGTAATT TATGATGATG TGCCCAGAGA GAACTCTGAC 
TCCACTACAG AGCCAGACGA GATGATCTAT GATGATGTGG AGTTTGGGGA GGAGGGCTGT 
GGCAGCTCCC TGGACAACGG TTGGAGCTCT AGCGAGTTTG AGAGCTACGA CGAGCAGAGT 
GACGGGGAGG GCCGCGGGGA GAATGGCCTG CCTGACGCCT TCATGAGAGG GAAGCCCCCA 
CAAAGGAAGA CCCATCTTTC TCAAGATCTG ACACGCTTGA AAGAACACTA TGAGAAAAAG 
ATGAAAGATC TTATGGCAAA TACAGTGGGA ACAGTAGAGC TGCAGCAGAT AAAACAGAAA 
CACGAGCAGA AGATGCAAAA GCTGGTGAAG GCAGCGAGAG ACGGGACCAA AGATGGCCTG 
GAGAAGACCA AAGCAGCAGT GAGAAGGGGA CGGTCGTATA TCAAGACCCA CTGTCATGAG 
AGGAAGTCAA CCTGTTTTGA GGATGAGGAG TCAGAGCTAT TCATCGAAGT GGAATGCTTC 
AACATGGAGC CAGTGCTCAG TCCCGTCCCT GAGGGGCTCT CACAACAACA GGTGGTGAGG 
AGGTGTATAC TGGGCTCCAT ATTAGAGAGT GAGAAGAACT ATCTTGATGC ACTGAAGCGG 
ATTTTAGAGC AATATGAAAA GCCACTTTTG GAGATTGAGC CCAGGTTGCT AAGCGATAGG 
AAGCTGAAGG TGACATTCTA TCGTATCCGG GAGATTCTCC AGTGCCACGC CCTGTTCCAG 
ATCGCCCTGG CGTGCCGCGT GGCCGAGTGG GACAGTCTGG AGATGATCGG GGACGTCTTT 
GTAGCCTCGT TCTCCAAGTC CATGGTGCTG GATGCCTACT GTGAGTATGT GAACAACTTC 
AGCACAGCCA TGGCGGTGGT CAGGAAGACG TGTGCCTCCA AACCCAGCTT CCTAGACTTC 
CTCAAGCAAC GTCAGGACAC CAGCAGTGAC CGGGTCACTC TCTATGGACT CATGATGAAG 
CCCATCCAGA GATTCCCTCA GTTCATTCTG ATGCTGCAGG ACATGTTGAA GAACACACCA 
GCAGGCCACA GTGACAGACT GCCCCTACAG ATGGCCCTGA CAGAACTGGA GACCCTGGCT 
GAAAAGCTCA ATGAGAAGAA GAGGGAGGCT GACCAGCGCT GTGAGATCAG ACACATAGCC 
AAGGCCATGA ACGAACGCTA CCTCAACAAG CTCCTGAGTA ACGGCAGCCG CTACCTGATC 
CGCTCTGACG ACATAGTGGA GACGGTCTAC AACGACCACG GAGAGGTCAT CAAGACCAAG 
GAGCGACGCC TTTTCCTGCT CAACGACGTG CTCATGTGTG CCACGCCCAA CGTCCGGTGC 
AGTGTTGATG GCAGTGGTAG TGGCAACGCC GCCCTGGGTC AGAAGTTCCT GCTGAAGTGG 
AGTGTCCCTC TGAGCTTTGT GGACGTAGTA GAGTTTGGCT CCAGTGAAGA CATGGGCGAC 
AACAGCCGCT TCGCCCACCA ACCCCACTCT GGAGAGAAGG TGGTCGTCAA CGCCAAACCA 
AATAAGCTGT ACATGGGTCC AGGCCAGCTG TACCAGGACC TTCAGAACCT CATCCACGAC 
CTCAGCCTGG TCAACCAGAT CTCCAGCATG ATCGGAAGCC TCAAGGGAAA CTACCAGAAC 
GTTAACCCTA CGGTGGCCCA TGACTGGGTG TCAGGTCTGC AGCGTCTCAT CCTGAAGAAG 
GAGGAAGAGA TCCGGGCTGC AGACCGTTGT AGGATCCAGC TGCAGCTGCC TGGCAAACCG 
GACAAGTCTG GCAGGCCCAC ATACTTCAGT GCAGTGTTCA ATACGTTCTC TCCGGCCATC 
AAACAGTCGT GGATCAGTAA CCTGCAGATG GCCAAGCTGG CTCTGGAGGA GGACAACCTG 
CAGGGCTGGT TCTTTGCAGA GGATGATGGT AACCAGATCA AGAAGCAGAA ACATCCTCTG 
CTGCTCAGGC AGATGCCTGT GGTCATGTCC AAACTACAGG AGTTCAAGGT GGAGTGTGCG 
GTCCATAACC CCGAGCCCCA CATCAACATA GAGAGCACAG CAGACACCCC TGCTCTGGGA 
CACGGCTGTG TGTGGGTGGC GAGCTGCACC AACCAGATGG GTCAGATAGC CATCGTAGCC 
ATGCAAAACT CCAGCCCCAA AGTGACAGAG TGCTTCAATG TTGAGTCACG GATCCTGTGT 
ATGGCGTATG TACCCATGGA GCAGAGGACC CAGGAGAACG GGGAGGGGAA CCCCGAAAAT 
AATCATTCCT CAGCAGGGAA GACCAGTGAT GCCCCCACGG TCTGTCTGGG CATGGAGGAG 
GGCAGCATCA TAGTCTATAA GAGCAGCCAG CGATCCAAGA AGGTCCGTCT ACAACACTTC 
TTCACCCCAG ACAAGTCTAC CGTGACCAGC CTAGTACACA AGAAGCAGTG TTTATACACT 
GGCCTAGTGA ACGGCTCAGT CACCATCTAC TCCAGAGCAC AAGATGGCTC ATGGAATCCA 
GACTCTCCTA AAGTGTTGAA GCTGGGGGTT CTGCCAGTGA AGGCCATGCT AGCTGTGGAG 
GAACATGTCT GGGCTTCCTC TGGAGGACAA GTCTTCATCA TCAGCACTAC CACACACACT 
GTGGAGAGGC AGCTGGAGGC CCACCAGGAG GAGGGCATGG TGGTATCCCA CATGGTGGTG 
GCTGGGGTGG GTATCTGGAT AGCTTTCAGC TCTGGGTCCA CCCTCCGACT GTTCCACACG 
GAGACGCTGG AGGATCTACA GGACATCAAC ATCGCTACAC CTGTACACAA CATACTGGCT 
GGGAACCAGA GGGTCTCAGT CAGCAGTCTG CTGGTGTGCC ATGGTCTGCT GCTGGTGGGG 
ACCAACCTGG GGGTGACAGT GGCCCTCTCT GTCCCCAGAC TACAGGGAAT CCCCAAGGTC 
ACAGGACGGG GCATGGTATC CTTCCACGCC CACCACGGCC CAGTAAAGTT CCTCACCATG 
GCAGCCGCGG TGTGCAACCG GCCCTCCGGC AACCCAGGCA GCCCAGGCAG CAGCCTACCT 
AGCCAGCCAG GAGACACCAA GGACGGGGAG AAGGCCCAGG TCTGCCAACC TCCAACCCCA 
GGCTCCACAC CCGCTCTAGC TCCCACCCAG GGCCGGGGAG TGTGGCTGGG AGAGGCAGGC 
TGCACCTCCA TGGCCATCCA GGACTCCCTG TCTTCCTCCT GTGGCTCCCT GGCTCTGTCC 
CAGGGCTCTC TGGAGCACGG GCCCGAGGAC GGGGCCATCT ATGACTTGGT CAATGATCCG 
GCCCACCACC AGAGGGGCAG GAGGGTCCAG AAGGTGGACG TCAGCTCTCT GCTGGTGGTG 
TCAGGGGGGC TGGGTCACCA CAGGGTCAAC AGGAAGACCA AACAGTCCCG TCAGGAGGAG 
ACGGTGTCCA ACATCATGGT GTGGCAGATC CCTCTACTCA ACATGTGA

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

arhgef10 ( XM_014150449.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014005924.1 Salmo salar Rho guanine nucleotide exchange factor (GEF) 10 (arhgef10), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAt04024
Clone ID Related Accession (Same CDS sequence)	XM_014150449.1
Accession Version	XM_014150449.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4551bp) 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	1442678400000
Organism	Salmo salar(Atlantic salmon)
Product	rho guanine nucleotide exchange factor 10 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012332497.1) 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 :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGAGTCAG ATTGCATTGG GAAAAGCTTG GATAATTTTA GTAGAGGAAA ATGGAAAAAG 
GGACAATTCA TTTATAGGAG CAGAAGAAGT TCATCCTCAG TGTTTGACAG GGATTTCTTT 
GCAAATCTTT ACTGTGGAAC TAGAAAAAAT AACGATATTC ATCAGGATTC GAAACATGGG 
CCATGTGTGA TTGAAGAGGA CCACCACCAC CACCAGGCTG CTGAGGGAAC CTGTCTGCCC 
AGAGAAACAG CAACCAGTAT GGACATCGTG GAAGACTTCC CTCCCCCGCC TCCTGAAATG 
TTGGCGGACG AGGTGCCCTA TGCCGATGAA GAAGAGGGGG AGCAGTTTGA GTTTGATGAC 
AGTGGGGATG AGTTCCCTGA GGCAGACCGG CCACCCCATG GCCCTCCAGC CCCAGACTAC 
GGGGGCAAGG CCCAGATCAA TGGTGTGGTC CCTCACCCAC AGCAGGGAGG ACCAGACCCC 
CAGCCCTCCA ACCCGGAGCC CACAGCAGCA GCAGCAGACA CAGCTCCAGT GGCAGCTGAA 
CCACCAGTTT CAGTAGCCAT GGCTACAACA GACACAGTGG CATCAGCACC GGAAGCTCCG 
GTAGCCATGG CTACAACAGA AACAACAGCT CCAGTGGCAG CAGCAGAAGG GGACAAGACT 
TCATCTGTCC CAGCTGACGC AGACAGTGAC TTACCCCCTC CTCCACCTCC AGAGGACTCC 
ACTCCTGTAG GAACATCCTC CTTTAACACA GATAAGGAAG TGTCCAGTGA TGACCCTCCC 
CTGGCCGTCC CCAGGACCAC CTCCCAGAAG AAAGTCAACC CCTACTCTGT GATTGACATC 
ACCCCCCTCC AACTACAGCA GCTGGAGCAG CAGCATGGGG CCGCCCCTAC CTCTTCCTCA 
CCGGTTCAGA GTGTGGGAGG AGAGGGGGAG AGGGAGGGGA AGGGCCAGGA TGTTCCCCCC 
GCCAGCCCTC TCTGTGTCCC ATCGGGATAC TCTGTGCCCG TGCCCTGTGG GTACGCCACC 
CCCTCTGGTG TGCCCCTCAT TACGCCAGCC TACACCACGC CCGTCATCAT CCGACACTTC 
TCCGTGGACG AGGACGATAC TGTGGTGGGG ACAGGCAACA TTTCTGTTGA CATTGAAGAG 
TATCCTGCCA TCAGAGAGGA GGATGCTTTG TCTAAATGGG TGTCGGACCC TGCAAACACA 
GCCTGGATGG AAAATCCAGA TGAAGTAATT TATGATGATG TGCCCAGAGA GAACTCTGAC 
TCCACTACAG AGCCAGACGA GATGATCTAT GATGATGTGG AGTTTGGGGA GGAGGGCTGT 
GGCAGCTCCC TGGACAACGG TTGGAGCTCT AGCGAGTTTG AGAGCTACGA CGAGCAGAGT 
GACGGGGAGG GCCGCGGGGA GAATGGCCTG CCTGACGCCT TCATGAGAGG GAAGCCCCCA 
CAAAGGAAGA CCCATATGCA AAAGCTGGTG AAGGCAGCGA GAGACGGGAC CAAAGATGGC 
CTGGAGAAGA CCAAAGCAGC AGTGAGAAGG GGACGGTCGT ATATCAAGAC CCACTGTCAT 
GAGAGGAAGT CAACCTGTTT TGAGGATGAG GAGTCAGAGC TATTCATCGA AGTGGAATGC 
TTCAACATGG AGCCAGTGCT CAGTCCCGTC CCTGAGGGGC TCTCACAACA ACAGGTGGTG 
AGGAGGTGTA TACTGGGCTC CATATTAGAG AGTGAGAAGA ACTATCTTGA TGCACTGAAG 
CGGATTTTAG AGCAATATGA AAAGCCACTT TTGGAGATTG AGCCCAGGTT GCTAAGCGAT 
AGGAAGCTGA AGGTGACATT CTATCGTATC CGGGAGATTC TCCAGTGCCA CGCCCTGTTC 
CAGATCGCCC TGGCGTGCCG CGTGGCCGAG TGGGACAGTC TGGAGATGAT CGGGGACGTC 
TTTGTAGCCT CGTTCTCCAA GTCCATGGTG CTGGATGCCT ACTGTGAGTA TGTGAACAAC 
TTCAGCACAG CCATGGCGGT GGTCAGGAAG ACGTGTGCCT CCAAACCCAG CTTCCTAGAC 
TTCCTCAAGC AACGTCAGGA CACCAGCAGT GACCGGGTCA CTCTCTATGG ACTCATGATG 
AAGCCCATCC AGAGATTCCC TCAGTTCATT CTGATGCTGC AGGACATGTT GAAGAACACA 
CCAGCAGGCC ACAGTGACAG ACTGCCCCTA CAGATGGCCC TGACAGAACT GGAGACCCTG 
GCTGAAAAGC TCAATGAGAA GAAGAGGGAG GCTGACCAGC GCTGTGAGAT CAGACACATA 
GCCAAGGCCA TGAACGAACG CTACCTCAAC AAGCTCCTGA GTAACGGCAG CCGCTACCTG 
ATCCGCTCTG ACGACATAGT GGAGACGGTC TACAACGACC ACGGAGAGGT CATCAAGACC 
AAGGAGCGAC GCCTTTTCCT GCTCAACGAC GTGCTCATGT GTGCCACGCC CAACGTCCGG 
TGCAGTGTTG ATGGCAGTGG TAGTGGCAAC GCCGCCCTGG GTCAGAAGTT CCTGCTGAAG 
TGGAGTGTCC CTCTGAGCTT TGTGGACGTA GTAGAGTTTG GCTCCAGTGA AGACATGGGC 
GACAACAGCC GCTTCGCCCA CCAACCCCAC TCTGGAGAGA AGGTGGTCGT CAACGCCAAA 
CCAAATAAGC TGTACATGGG TCCAGGCCAG CTGTACCAGG ACCTTCAGAA CCTCATCCAC 
GACCTCAGCC TGGTCAACCA GATCTCCAGC ATGATCGGAA GCCTCAAGGG AAACTACCAG 
AACGTTAACC CTACGGTGGC CCATGACTGG GTGTCAGGTC TGCAGCGTCT CATCCTGAAG 
AAGGAGGAAG AGATCCGGGC TGCAGACCGT TGTAGGATCC AGCTGCAGCT GCCTGGCAAA 
CCGGACAAGT CTGGCAGGCC CACATACTTC AGTGCAGTGT TCAATACGTT CTCTCCGGCC 
ATCAAACAGT CGTGGATCAG TAACCTGCAG ATGGCCAAGC TGGCTCTGGA GGAGGACAAC 
CTGCAGGGCT GGTTCTTTGC AGAGGATGAT GGTAACCAGA TCAAGAAGCA GAAACATCCT 
CTGCTGCTCA GGCAGATGCC TGTGGTCATG TCCAAACTAC AGGAGTTCAA GGTGGAGTGT 
GCGGTCCATA ACCCCGAGCC CCACATCAAC ATAGAGAGCA CAGCAGACAC CCCTGCTCTG 
GGACACGGCT GTGTGTGGGT GGCGAGCTGC ACCAACCAGA TGGGTCAGAT AGCCATCGTA 
GCCATGCAAA ACTCCAGCCC CAAAGTGACA GAGTGCTTCA ATGTTGAGTC ACGGATCCTG 
TGTATGGCGT ATGTACCCAT GGAGCAGAGG ACCCAGGAGA ACGGGGAGGG GAACCCCGAA 
AATAATCATT CCTCAGCAGG GAAGACCAGT GATGCCCCCA CGGTCTGTCT GGGCATGGAG 
GAGGGCAGCA TCATAGTCTA TAAGAGCAGC CAGCGATCCA AGAAGGTCCG TCTACAACAC 
TTCTTCACCC CAGACAAGTC TACCGTGACC AGCCTAGTAC ACAAGAAGCA GTGTTTATAC 
ACTGGCCTAG TGAACGGCTC AGTCACCATC TACTCCAGAG CACAAGATGG CTCATGGAAT 
CCAGACTCTC CTAAAGTGTT GAAGCTGGGG GTTCTGCCAG TGAAGGCCAT GCTAGCTGTG 
GAGGAACATG TCTGGGCTTC CTCTGGAGGA CAAGTCTTCA TCATCAGCAC TACCACACAC 
ACTGTGGAGA GGCAGCTGGA GGCCCACCAG GAGGAGGGCA TGGTGGTATC CCACATGGTG 
GTGGCTGGGG TGGGTATCTG GATAGCTTTC AGCTCTGGGT CCACCCTCCG ACTGTTCCAC 
ACGGAGACGC TGGAGGATCT ACAGGACATC AACATCGCTA CACCTGTACA CAACATACTG 
GCTGGGAACC AGAGGGTCTC AGTCAGCAGT CTGCTGGTGT GCCATGGTCT GCTGCTGGTG 
GGGACCAACC TGGGGGTGAC AGTGGCCCTC TCTGTCCCCA GACTACAGGG AATCCCCAAG 
GTCACAGGAC GGGGCATGGT ATCCTTCCAC GCCCACCACG GCCCAGTAAA GTTCCTCACC 
ATGGCAGCCG CGGTGTGCAA CCGGCCCTCC GGCAACCCAG GCAGCCCAGG CAGCAGCCTA 
CCTAGCCAGC CAGGAGACAC CAAGGACGGG GAGAAGGCCC AGGTCTGCCA ACCTCCAACC 
CCAGGCTCCA CACCCGCTCT AGCTCCCACC CAGGGCCGGG GAGTGTGGCT GGGAGAGGCA 
GGCTGCACCT CCATGGCCAT CCAGGACTCC CTGTCTTCCT CCTGTGGCTC CCTGGCTCTG 
TCCCAGGGCT CTCTGGAGCA CGGGCCCGAG GACGGGGCCA TCTATGACTT GGTCAATGAT 
CCGGCCCACC ACCAGAGGGG CAGGAGGGTC CAGAAGGTGG ACGTCAGCTC TCTGCTGGTG 
GTGTCAGGGG GGCTGGGTCA CCACAGGGTC AACAGGAAGA CCAAACAGTC CCGTCAGGAG 
GAGACGGTGT CCAACATCAT GGTGTGGCAG ATCCCTCTAC TCAACATGTG A

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

RefSeq	XP_014005924.1
CDS	21..4571
Translation	MESDCIGKSLDNFSRGKWKKGQFIYRSRRSSSSVFDRDFFANLYCGTRKNNDIHQDSKHGPCVIEEDHHHHQAAEGTCLPRETATSMDIVEDFPPPPPEMLADEVPYADEEEGEQFEFDDSGDEFPEADRPPHGPPAPDYGGKAQINGVVPHPQQGGPDPQPSNPEPTAAAADTAPVAAEPPVSVAMATTDTVASAPEAPVAMATTETTAPVAAAEGDKTSSVPADADSDLPPPPPPEDSTPVGTSSFNTDKEVSSDDPPLAVPRTTSQKKVNPYSVIDITPLQLQQLEQQHGAAPTSSSPVQSVGGEGEREGKGQDVPPASPLCVPSGYSVPVPCGYATPSGVPLITPAYTTPVIIRHFSVDEDDTVVGTGNISVDIEEYPAIREEDALSKWVSDPANTAWMENPDEVIYDDVPRENSDSTTEPDEMIYDDVEFGEEGCGSSLDNGWSSSEFESYDEQSDGEGRGENGLPDAFMRGKPPQRKTHMQKLVKAARDGTKDGLEKTKAAVRRGRSYIKTHCHERKSTCFEDEESELFIEVECFNMEPVLSPVPEGLSQQQVVRRCILGSILESEKNYLDALKRILEQYEKPLLEIEPRLLSDRKLKVTFYRIREILQCHALFQIALACRVAEWDSLEMIGDVFVASFSKSMVLDAYCEYVNNFSTAMAVVRKTCASKPSFLDFLKQRQDTSSDRVTLYGLMMKPIQRFPQFILMLQDMLKNTPAGHSDRLPLQMALTELETLAEKLNEKKREADQRCEIRHIAKAMNERYLNKLLSNGSRYLIRSDDIVETVYNDHGEVIKTKERRLFLLNDVLMCATPNVRCSVDGSGSGNAALGQKFLLKWSVPLSFVDVVEFGSSEDMGDNSRFAHQPHSGEKVVVNAKPNKLYMGPGQLYQDLQNLIHDLSLVNQISSMIGSLKGNYQNVNPTVAHDWVSGLQRLILKKEEEIRAADRCRIQLQLPGKPDKSGRPTYFSAVFNTFSPAIKQSWISNLQMAKLALEEDNLQGWFFAEDDGNQIKKQKHPLLLRQMPVVMSKLQEFKVECAVHNPEPHINIESTADTPALGHGCVWVASCTNQMGQIAIVAMQNSSPKVTECFNVESRILCMAYVPMEQRTQENGEGNPENNHSSAGKTSDAPTVCLGMEEGSIIVYKSSQRSKKVRLQHFFTPDKSTVTSLVHKKQCLYTGLVNGSVTIYSRAQDGSWNPDSPKVLKLGVLPVKAMLAVEEHVWASSGGQVFIISTTTHTVERQLEAHQEEGMVVSHMVVAGVGIWIAFSSGSTLRLFHTETLEDLQDINIATPVHNILAGNQRVSVSSLLVCHGLLLVGTNLGVTVALSVPRLQGIPKVTGRGMVSFHAHHGPVKFLTMAAAVCNRPSGNPGSPGSSLPSQPGDTKDGEKAQVCQPPTPGSTPALAPTQGRGVWLGEAGCTSMAIQDSLSSSCGSLALSQGSLEHGPEDGAIYDLVNDPAHHQRGRRVQKVDVSSLLVVSGGLGHHRVNRKTKQSRQEETVSNIMVWQIPLLNM

Target ORF information:

RefSeq Version	XM_014150449.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar Rho guanine nucleotide exchange factor (GEF) 10 (arhgef10), transcript variant X2, mRNA.

Target ORF information:

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

XM_014150449.1

ORF Insert Sequence:

ATGGAGTCAG ATTGCATTGG GAAAAGCTTG GATAATTTTA GTAGAGGAAA ATGGAAAAAG 
GGACAATTCA TTTATAGGAG CAGAAGAAGT TCATCCTCAG TGTTTGACAG GGATTTCTTT 
GCAAATCTTT ACTGTGGAAC TAGAAAAAAT AACGATATTC ATCAGGATTC GAAACATGGG 
CCATGTGTGA TTGAAGAGGA CCACCACCAC CACCAGGCTG CTGAGGGAAC CTGTCTGCCC 
AGAGAAACAG CAACCAGTAT GGACATCGTG GAAGACTTCC CTCCCCCGCC TCCTGAAATG 
TTGGCGGACG AGGTGCCCTA TGCCGATGAA GAAGAGGGGG AGCAGTTTGA GTTTGATGAC 
AGTGGGGATG AGTTCCCTGA GGCAGACCGG CCACCCCATG GCCCTCCAGC CCCAGACTAC 
GGGGGCAAGG CCCAGATCAA TGGTGTGGTC CCTCACCCAC AGCAGGGAGG ACCAGACCCC 
CAGCCCTCCA ACCCGGAGCC CACAGCAGCA GCAGCAGACA CAGCTCCAGT GGCAGCTGAA 
CCACCAGTTT CAGTAGCCAT GGCTACAACA GACACAGTGG CATCAGCACC GGAAGCTCCG 
GTAGCCATGG CTACAACAGA AACAACAGCT CCAGTGGCAG CAGCAGAAGG GGACAAGACT 
TCATCTGTCC CAGCTGACGC AGACAGTGAC TTACCCCCTC CTCCACCTCC AGAGGACTCC 
ACTCCTGTAG GAACATCCTC CTTTAACACA GATAAGGAAG TGTCCAGTGA TGACCCTCCC 
CTGGCCGTCC CCAGGACCAC CTCCCAGAAG AAAGTCAACC CCTACTCTGT GATTGACATC 
ACCCCCCTCC AACTACAGCA GCTGGAGCAG CAGCATGGGG CCGCCCCTAC CTCTTCCTCA 
CCGGTTCAGA GTGTGGGAGG AGAGGGGGAG AGGGAGGGGA AGGGCCAGGA TGTTCCCCCC 
GCCAGCCCTC TCTGTGTCCC ATCGGGATAC TCTGTGCCCG TGCCCTGTGG GTACGCCACC 
CCCTCTGGTG TGCCCCTCAT TACGCCAGCC TACACCACGC CCGTCATCAT CCGACACTTC 
TCCGTGGACG AGGACGATAC TGTGGTGGGG ACAGGCAACA TTTCTGTTGA CATTGAAGAG 
TATCCTGCCA TCAGAGAGGA GGATGCTTTG TCTAAATGGG TGTCGGACCC TGCAAACACA 
GCCTGGATGG AAAATCCAGA TGAAGTAATT TATGATGATG TGCCCAGAGA GAACTCTGAC 
TCCACTACAG AGCCAGACGA GATGATCTAT GATGATGTGG AGTTTGGGGA GGAGGGCTGT 
GGCAGCTCCC TGGACAACGG TTGGAGCTCT AGCGAGTTTG AGAGCTACGA CGAGCAGAGT 
GACGGGGAGG GCCGCGGGGA GAATGGCCTG CCTGACGCCT TCATGAGAGG GAAGCCCCCA 
CAAAGGAAGA CCCATATGCA AAAGCTGGTG AAGGCAGCGA GAGACGGGAC CAAAGATGGC 
CTGGAGAAGA CCAAAGCAGC AGTGAGAAGG GGACGGTCGT ATATCAAGAC CCACTGTCAT 
GAGAGGAAGT CAACCTGTTT TGAGGATGAG GAGTCAGAGC TATTCATCGA AGTGGAATGC 
TTCAACATGG AGCCAGTGCT CAGTCCCGTC CCTGAGGGGC TCTCACAACA ACAGGTGGTG 
AGGAGGTGTA TACTGGGCTC CATATTAGAG AGTGAGAAGA ACTATCTTGA TGCACTGAAG 
CGGATTTTAG AGCAATATGA AAAGCCACTT TTGGAGATTG AGCCCAGGTT GCTAAGCGAT 
AGGAAGCTGA AGGTGACATT CTATCGTATC CGGGAGATTC TCCAGTGCCA CGCCCTGTTC 
CAGATCGCCC TGGCGTGCCG CGTGGCCGAG TGGGACAGTC TGGAGATGAT CGGGGACGTC 
TTTGTAGCCT CGTTCTCCAA GTCCATGGTG CTGGATGCCT ACTGTGAGTA TGTGAACAAC 
TTCAGCACAG CCATGGCGGT GGTCAGGAAG ACGTGTGCCT CCAAACCCAG CTTCCTAGAC 
TTCCTCAAGC AACGTCAGGA CACCAGCAGT GACCGGGTCA CTCTCTATGG ACTCATGATG 
AAGCCCATCC AGAGATTCCC TCAGTTCATT CTGATGCTGC AGGACATGTT GAAGAACACA 
CCAGCAGGCC ACAGTGACAG ACTGCCCCTA CAGATGGCCC TGACAGAACT GGAGACCCTG 
GCTGAAAAGC TCAATGAGAA GAAGAGGGAG GCTGACCAGC GCTGTGAGAT CAGACACATA 
GCCAAGGCCA TGAACGAACG CTACCTCAAC AAGCTCCTGA GTAACGGCAG CCGCTACCTG 
ATCCGCTCTG ACGACATAGT GGAGACGGTC TACAACGACC ACGGAGAGGT CATCAAGACC 
AAGGAGCGAC GCCTTTTCCT GCTCAACGAC GTGCTCATGT GTGCCACGCC CAACGTCCGG 
TGCAGTGTTG ATGGCAGTGG TAGTGGCAAC GCCGCCCTGG GTCAGAAGTT CCTGCTGAAG 
TGGAGTGTCC CTCTGAGCTT TGTGGACGTA GTAGAGTTTG GCTCCAGTGA AGACATGGGC 
GACAACAGCC GCTTCGCCCA CCAACCCCAC TCTGGAGAGA AGGTGGTCGT CAACGCCAAA 
CCAAATAAGC TGTACATGGG TCCAGGCCAG CTGTACCAGG ACCTTCAGAA CCTCATCCAC 
GACCTCAGCC TGGTCAACCA GATCTCCAGC ATGATCGGAA GCCTCAAGGG AAACTACCAG 
AACGTTAACC CTACGGTGGC CCATGACTGG GTGTCAGGTC TGCAGCGTCT CATCCTGAAG 
AAGGAGGAAG AGATCCGGGC TGCAGACCGT TGTAGGATCC AGCTGCAGCT GCCTGGCAAA 
CCGGACAAGT CTGGCAGGCC CACATACTTC AGTGCAGTGT TCAATACGTT CTCTCCGGCC 
ATCAAACAGT CGTGGATCAG TAACCTGCAG ATGGCCAAGC TGGCTCTGGA GGAGGACAAC 
CTGCAGGGCT GGTTCTTTGC AGAGGATGAT GGTAACCAGA TCAAGAAGCA GAAACATCCT 
CTGCTGCTCA GGCAGATGCC TGTGGTCATG TCCAAACTAC AGGAGTTCAA GGTGGAGTGT 
GCGGTCCATA ACCCCGAGCC CCACATCAAC ATAGAGAGCA CAGCAGACAC CCCTGCTCTG 
GGACACGGCT GTGTGTGGGT GGCGAGCTGC ACCAACCAGA TGGGTCAGAT AGCCATCGTA 
GCCATGCAAA ACTCCAGCCC CAAAGTGACA GAGTGCTTCA ATGTTGAGTC ACGGATCCTG 
TGTATGGCGT ATGTACCCAT GGAGCAGAGG ACCCAGGAGA ACGGGGAGGG GAACCCCGAA 
AATAATCATT CCTCAGCAGG GAAGACCAGT GATGCCCCCA CGGTCTGTCT GGGCATGGAG 
GAGGGCAGCA TCATAGTCTA TAAGAGCAGC CAGCGATCCA AGAAGGTCCG TCTACAACAC 
TTCTTCACCC CAGACAAGTC TACCGTGACC AGCCTAGTAC ACAAGAAGCA GTGTTTATAC 
ACTGGCCTAG TGAACGGCTC AGTCACCATC TACTCCAGAG CACAAGATGG CTCATGGAAT 
CCAGACTCTC CTAAAGTGTT GAAGCTGGGG GTTCTGCCAG TGAAGGCCAT GCTAGCTGTG 
GAGGAACATG TCTGGGCTTC CTCTGGAGGA CAAGTCTTCA TCATCAGCAC TACCACACAC 
ACTGTGGAGA GGCAGCTGGA GGCCCACCAG GAGGAGGGCA TGGTGGTATC CCACATGGTG 
GTGGCTGGGG TGGGTATCTG GATAGCTTTC AGCTCTGGGT CCACCCTCCG ACTGTTCCAC 
ACGGAGACGC TGGAGGATCT ACAGGACATC AACATCGCTA CACCTGTACA CAACATACTG 
GCTGGGAACC AGAGGGTCTC AGTCAGCAGT CTGCTGGTGT GCCATGGTCT GCTGCTGGTG 
GGGACCAACC TGGGGGTGAC AGTGGCCCTC TCTGTCCCCA GACTACAGGG AATCCCCAAG 
GTCACAGGAC GGGGCATGGT ATCCTTCCAC GCCCACCACG GCCCAGTAAA GTTCCTCACC 
ATGGCAGCCG CGGTGTGCAA CCGGCCCTCC GGCAACCCAG GCAGCCCAGG CAGCAGCCTA 
CCTAGCCAGC CAGGAGACAC CAAGGACGGG GAGAAGGCCC AGGTCTGCCA ACCTCCAACC 
CCAGGCTCCA CACCCGCTCT AGCTCCCACC CAGGGCCGGG GAGTGTGGCT GGGAGAGGCA 
GGCTGCACCT CCATGGCCAT CCAGGACTCC CTGTCTTCCT CCTGTGGCTC CCTGGCTCTG 
TCCCAGGGCT CTCTGGAGCA CGGGCCCGAG GACGGGGCCA TCTATGACTT GGTCAATGAT 
CCGGCCCACC ACCAGAGGGG CAGGAGGGTC CAGAAGGTGG ACGTCAGCTC TCTGCTGGTG 
GTGTCAGGGG GGCTGGGTCA CCACAGGGTC AACAGGAAGA CCAAACAGTC CCGTCAGGAG 
GAGACGGTGT CCAACATCAT GGTGTGGCAG ATCCCTCTAC TCAACATGTG A

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

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arhgef10 cDNA ORF clone, Salmo salar(Atlantic salmon)

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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