arhgap35 cDNA ORF clone, Oncorhynchus mykiss(rainbow trout)

Gene
Clones
gRNAs

Summary

Gene Symbol	arhgap35
Entrez Gene ID	110507431
Full Name	Rho GTPase activating protein 35
Gene Type	protein-coding
Organism	Oncorhynchus mykiss(rainbow trout)

mRNA and Protein(s)

mRNA	Protein	Name
XM_021587422.1	XP_021443097.1	rho GTPase-activating protein 35

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

Gene evolution and gene expression after whole genome duplication in fish: the PhyloFish database.
Pasquier J, Cabau C, Nguyen T, Jouanno E, Severac D, Braasch I, Journot L, Pontarotti P, Klopp C, Postlethwait JH, Guiguen Y, Bobe J
BMC genomics17368(2016 05)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following arhgap35 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the arhgap35 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
OOf35178	XM_021587422.1 Latest version!	Oncorhynchus mykiss Rho GTPase activating protein 35 (arhgap35), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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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)

arhgap35 ( XM_021587422.1 ) cDNA ORF clone, Oncorhynchus mykiss(rainbow trout) -> XP_021443097.1 Oncorhynchus mykiss Rho GTPase activating protein 35 (arhgap35), mRNA.

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CloneID	OOf35178
Clone ID Related Accession (Same CDS sequence)	XM_021587422.1
Accession Version	XM_021587422.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4173bp) 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	1498406400000
Organism	Oncorhynchus mykiss(rainbow trout)
Product	rho GTPase-activating protein 35
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035103.1) and transcript sequence (GFIN01033932.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Oncorhynchus mykiss Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## assembly gap :: added 132 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGATGGCAA AAAAGCAAGA TGCAAAGGCG CCCACCTACA ACCTGGTCGT GGTGGGCCTG 
TCCGGCACAG AGAAAGAGAA GGGGCAGTGT GGCGTGGGCA AGTCCTGCCT GTGCAACCGC 
TTCGTCCGTC CCAGCGCAGA CGACTTTTAC CTGGACCACA CCTCCGTGCT AAGCACCAGC 
GACTTCGGAG GACGCGTGGT GAACAATGAC CACTTCCTGT TCTGGGGGGA AACGGGGAGG 
GTGCTGGAGG AGGGGCCGGA GTGCAGGATG CATGTGGTGG AACAGACAGA GTTCATTGAT 
GACCAGACGT TCCAGCCGCA CCGTTCCACA GCCCTCCAGC CCTACATCAA GAGGGCAGCT 
TCCAACAAGC TGGCCTCTGC AGAAAAGCTG ATGTACTTCT GCACAGACCA GCTTGGGCTG 
GAGCAGGACT TTGAGCAGAA GCAGATGCCT GAGGGGAAGC TGATGGTGGA TGGCTTCCTC 
CTCTGTGTGG ACGTCAGCAG GGGCATGAAC CGCAACTTTG ACGAACAGAT GAAGTTCATC 
ACTAATCTCT ATAACCAGCT AGCCAAGAAC AAGAAGCCAG TGGTTCTGGT GCTCACCAAG 
TGCGACGAGG GGGTGGAGCG CTACATCAAG GACTCGCACA CCTTCGCCCT GGCCAAGAAG 
AACCTCCAGG TGGTGGAGAC GTCAGCACGC TCCAACGTCA ACGTAGACCT GGCCTTCCTC 
ACCCTGGTGC AGCTGATAGA CAAGGGCCGG GGCAAACCCA AGATCATCCC CTACTTTGAG 
GCCCTGAAGC AGCAGAGCCA GCAGATCGCC TCGGCTAAAG ACCACTACGA ATGGCAGGTC 
AGCCGCATCG TGAAGAACCA CAATGAGACG TGGCCCAACA TAAACCGGCG CATGCAGACC 
TCCCCAGAGT ACAAGGAGTA TGTCTTCCTG GAGGGCACGG CCAAAGCCAA GAAGCTCTTC 
CAGCAGCACG TCCACAGGCT CAAACAGGAG CACATTGAGC GAAGGCGGAA GGTCTATCTC 
AGCACCCTGC CTCAGGCACT GGTTTCCCTA GTCCCTGAGC TGGATGAGAT CGACCACCTG 
AGCTGGTCCG GGGTCCAGAA GGTTCTGGAG ACCAAGCGGG ACTTCTCCCA TTGGTTCGTT 
GTGTTGGACG ACACCCCCTG GGAGACCACG CCACACATAG ACAACATGGA GGACGAGAGG 
ATTCCAGAGG ATCTCCTGGA GACCCCTGTG GCCGAGACAA TTTATGAGAG CCACCTGGAG 
CACCTGAGAA ACGAGCGCAA AAAGGCGGAG ATGAAGTGGG AGTTCAAGGA GAAGCTCAGT 
GCCTCTCCCT TTATCACAGC AGGCAAGCCC TGGGAGGAGG CACGCAGCTT CATCATGAAT 
GAAGACTTCT ACCAGTGGCT CGAGGAACAA GAGTACCTAG ACATCTACAA CAGGCACCAG 
AAGGAGATCA TCGACCGAGC CAAGGAGGAC TTCCAGGAGC TGCTGCTGGA GTACTCAGAG 
CTCTTCTATG AGCTGGAGGT AGACGCCAAG CCAAGTAAGG AGAAGATGGG GGCCATCCAG 
GAGGTGTTGG GGGAGGAGCA AAGGTTCAAG GCCCTGCAGA AGTTACAGGC AGAGAGGGAC 
GCTTTGGTTC TCAAGCATAT CCACTTTGTC TACCACCCCA CCAAGGAGAC CTGCCCAAAT 
AGCCCCCACT GTGTGGACTG TAAGATTGAA CAGGTTCTAG CCTCCAAGTT CCCCACTCGA 
TACTCCTTCT TTGATAGCCA TAAACCAGGT GACGGGAATG CAGATCGGAT TAACCTGGTC 
ATTCTGGGTA AAGACGGCCT GGGTAGAGAA CTGGCCAATG AGATCAGGGC TTTGTGCACT 
AATGACGACC GTTACGTGCT GGATGGAAAA ATGTATGAGT TGTCCCTCCG GCCCATAGAG 
GGCAACGTTC GGCTGCCGGT CAATTCCTTC CACACGCCTA CCTTCACCCC CCATGGCGTC 
CTGTGTCTCT ACAACTCTAA GGAGTCACTA TCCTACATTG TGGAGAGCAT TGAAAAGCTC 
AGAGAGTCCA CGCTAGGCCG AAGGGAAAAC AGTCTATTTC AGCTGCCCAT GAACCTGCTC 
CTAGTCACCA AACGGGGAGT AGGGTCCGTC AGGGACATTG GGGGGGAGAC GGCCCACACA 
CTTATCCTCC AGGGGCAGCA GGTGGCTGGG AAGCTACAGT GTGGTTACCT AGACCCCGCC 
TCCCCTGGTG TGGGCTATGG ACGCAATGTG AACGAAAAGC AGATCAACCA GGTGTTAAAA 
GGTCTGTTAG AATGCCGTAG GCCCCCTGGG AGCATAGGCA GCAGCTCCCC TCCTTTACCC 
CCTTCCTTCA GAGACTCTCA CTCCCAGCCC ATCCCTGAGA CAGACCTGCG GATAGTCATG 
TGCCTGATGT GTGGGGACGA TTATGACGTG GAGCAGCTCC TCTCGCCTCT CCTGCTGCCC 
CAGCACTGCC GGCCGGCCTC CAGCCTGAGC AGTGGCACGT CCGTGCTCCT AGAGCTCACG 
GTGGGGGCTC AGAGGCACAC CATCGACCTC TCCCTGCTCT CCTTCCACTC CTCATTTGCC 
CTACGGAAGA GCCGGCTGGT GCACGGCTAC ATCGCCGTGT ATTCGGCCAG GCGCAAGGCG 
TCCATGGAGA CCCTGTGTGC ATTCCTGTGC GAGGTGCAGG ACATCATCCC CGTGCAGTTG 
CTGGCGGTGG GGGAGAGTCA GGCTGAGCTG TCGGACTCTG AAGTGGCCAG GGAGCAGGTG 
AGCCAGGGGG AGGAGTTGGC CCGGGAGATC GAGGCCAGGT TTAACACAGT AGTGTGTGGG 
CCCGGAGGGG TGGTGGGAGG CCTGCACAGG ATAGACCTCT TCCAGCCCTT CCTGAAGGAG 
GTTGTGGAGA AACGCACCAT AGTGGAGGCC ACACACATGT ACGATAATGT AGCAGATGCC 
TGCACCACTG AGAGCATGAG CCCGGCCCGC TGCAATTCCC CCAGCCCCAT CAACACCCTG 
CTAGACTCTG AGGAGGATGT GGAGCCCTCA CCCCCCTACC CCGATAGTAC CCCCACCTCC 
CACCTGGGGG GTTTCAAGCT CCCTGACCTG GAGTCCAGCG ACGCCTTCTC AGTCATCTCC 
GAGATCAGCA CCTTCGAGAG CAAGCTCAAC AACAAGGTGC CCCCGCAGGT ACGGCCCAAG 
CCCCCTGTAC GGAAAGTCAA CCTGGGGCCC TACATGGACC AGCAAGGGAC CAACCGCCGC 
TCTTTACCGC CTGCTGTCAC CTGGGCGCCG GGTAGCGACG GTGGCTACGA CCCCTCGGAC 
TACGCAGAGC CCGTGGATGC CGTGATCAAA CAGCGACCCA CGGAGGAGGA GAGCATCTAC 
TCGGTGCCCC ACGACAGCAC TCAGGGCAAG ATCATCACCA TCCGCAATGC CAACAAGCAT 
TCTAACGGCG GGGGCAATGG CTCGGATAGC GAGGCTGACA GCAGCTCCCT GGAGCGGAGG 
CGGAAGATGT CTGCTCTGGG GGTGAAGCCG CGGCTGTACC GCGACCGCTC GAAACGCCTG 
GGCAAGTTCA GCAGCTTCCG CACTAGCTTC TCTATCGGCA GTGACGACGA GCTGGGGCCA 
CCCAAGGCAC CAGAGGAGCT GGGCGGGGCG CACAAGGGGG ACAACTCTAT TAACGAGGAG 
GGTGAGGACC CCAAGAGGAG GAACATCCTC AGGAGCCTGC GCAGAAACAC CAAGAAACCG 
CGGCCCAAGC CCAGGCATTC CGTATCCAAA GTAGAAAGCA ACTACTTTGG CGTGCCATTG 
GCCAACGTGG TGACACCTGA CCGGCCCATC CCCCTCTTCA TCGACAAGTG CATCCGATAT 
ATTGAGGCAA CAGGTATCAC TACTGAAGGG ATCTACAGGG TGAGTGGGAA CAAGTCAGAA 
ATGGAGAGCA TGCAGAGGCA GTTTGACCAG GACCATAACC TGGACCTGGT GGAGAAGGAC 
TTCACCATCA ACACGGTGGC CGGGGCCATG AAGGCCTTCT TCTCTGAGCT TCCTGAACCC 
CTGGTGCCCT ACAGCCATCA GATTGAACTG GTGGAGGCCT TCAAGCTCAA CGACAGGGAT 
CAGCGGGTTC ACGCCATGAA GGACATCCTG CGCCGTTTCC CCAGGGAAAA CTATGACGTC 
TTCAAATACG TCATCAATCA CTTGAACAAG TGA

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

RefSeq	XP_021443097.1
CDS	772..4944
Translation	MMAKKQDAKAPTYNLVVVGLSGTEKEKGQCGVGKSCLCNRFVRPSADDFYLDHTSVLSTSDFGGRVVNNDHFLFWGETGRVLEEGPECRMHVVEQTEFIDDQTFQPHRSTALQPYIKRAASNKLASAEKLMYFCTDQLGLEQDFEQKQMPEGKLMVDGFLLCVDVSRGMNRNFDEQMKFITNLYNQLAKNKKPVVLVLTKCDEGVERYIKDSHTFALAKKNLQVVETSARSNVNVDLAFLTLVQLIDKGRGKPKIIPYFEALKQQSQQIASAKDHYEWQVSRIVKNHNETWPNINRRMQTSPEYKEYVFLEGTAKAKKLFQQHVHRLKQEHIERRRKVYLSTLPQALVSLVPELDEIDHLSWSGVQKVLETKRDFSHWFVVLDDTPWETTPHIDNMEDERIPEDLLETPVAETIYESHLEHLRNERKKAEMKWEFKEKLSASPFITAGKPWEEARSFIMNEDFYQWLEEQEYLDIYNRHQKEIIDRAKEDFQELLLEYSELFYELEVDAKPSKEKMGAIQEVLGEEQRFKALQKLQAERDALVLKHIHFVYHPTKETCPNSPHCVDCKIEQVLASKFPTRYSFFDSHKPGDGNADRINLVILGKDGLGRELANEIRALCTNDDRYVLDGKMYELSLRPIEGNVRLPVNSFHTPTFTPHGVLCLYNSKESLSYIVESIEKLRESTLGRRENSLFQLPMNLLLVTKRGVGSVRDIGGETAHTLILQGQQVAGKLQCGYLDPASPGVGYGRNVNEKQINQVLKGLLECRRPPGSIGSSSPPLPPSFRDSHSQPIPETDLRIVMCLMCGDDYDVEQLLSPLLLPQHCRPASSLSSGTSVLLELTVGAQRHTIDLSLLSFHSSFALRKSRLVHGYIAVYSARRKASMETLCAFLCEVQDIIPVQLLAVGESQAELSDSEVAREQVSQGEELAREIEARFNTVVCGPGGVVGGLHRIDLFQPFLKEVVEKRTIVEATHMYDNVADACTTESMSPARCNSPSPINTLLDSEEDVEPSPPYPDSTPTSHLGGFKLPDLESSDAFSVISEISTFESKLNNKVPPQVRPKPPVRKVNLGPYMDQQGTNRRSLPPAVTWAPGSDGGYDPSDYAEPVDAVIKQRPTEEESIYSVPHDSTQGKIITIRNANKHSNGGGNGSDSEADSSSLERRRKMSALGVKPRLYRDRSKRLGKFSSFRTSFSIGSDDELGPPKAPEELGGAHKGDNSINEEGEDPKRRNILRSLRRNTKKPRPKPRHSVSKVESNYFGVPLANVVTPDRPIPLFIDKCIRYIEATGITTEGIYRVSGNKSEMESMQRQFDQDHNLDLVEKDFTINTVAGAMKAFFSELPEPLVPYSHQIELVEAFKLNDRDQRVHAMKDILRRFPRENYDVFKYVINHLNK

Target ORF information:

RefSeq Version	XM_021587422.1
Organism	Oncorhynchus mykiss(rainbow trout)
Definition	Oncorhynchus mykiss Rho GTPase activating protein 35 (arhgap35), mRNA.

Target ORF information:

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

XM_021587422.1

ORF Insert Sequence:

ATGATGGCAA AAAAGCAAGA TGCAAAGGCG CCCACCTACA ACCTGGTCGT GGTGGGCCTG 
TCCGGCACAG AGAAAGAGAA GGGGCAGTGT GGCGTGGGCA AGTCCTGCCT GTGCAACCGC 
TTCGTCCGTC CCAGCGCAGA CGACTTTTAC CTGGACCACA CCTCCGTGCT AAGCACCAGC 
GACTTCGGAG GACGCGTGGT GAACAATGAC CACTTCCTGT TCTGGGGGGA AACGGGGAGG 
GTGCTGGAGG AGGGGCCGGA GTGCAGGATG CATGTGGTGG AACAGACAGA GTTCATTGAT 
GACCAGACGT TCCAGCCGCA CCGTTCCACA GCCCTCCAGC CCTACATCAA GAGGGCAGCT 
TCCAACAAGC TGGCCTCTGC AGAAAAGCTG ATGTACTTCT GCACAGACCA GCTTGGGCTG 
GAGCAGGACT TTGAGCAGAA GCAGATGCCT GAGGGGAAGC TGATGGTGGA TGGCTTCCTC 
CTCTGTGTGG ACGTCAGCAG GGGCATGAAC CGCAACTTTG ACGAACAGAT GAAGTTCATC 
ACTAATCTCT ATAACCAGCT AGCCAAGAAC AAGAAGCCAG TGGTTCTGGT GCTCACCAAG 
TGCGACGAGG GGGTGGAGCG CTACATCAAG GACTCGCACA CCTTCGCCCT GGCCAAGAAG 
AACCTCCAGG TGGTGGAGAC GTCAGCACGC TCCAACGTCA ACGTAGACCT GGCCTTCCTC 
ACCCTGGTGC AGCTGATAGA CAAGGGCCGG GGCAAACCCA AGATCATCCC CTACTTTGAG 
GCCCTGAAGC AGCAGAGCCA GCAGATCGCC TCGGCTAAAG ACCACTACGA ATGGCAGGTC 
AGCCGCATCG TGAAGAACCA CAATGAGACG TGGCCCAACA TAAACCGGCG CATGCAGACC 
TCCCCAGAGT ACAAGGAGTA TGTCTTCCTG GAGGGCACGG CCAAAGCCAA GAAGCTCTTC 
CAGCAGCACG TCCACAGGCT CAAACAGGAG CACATTGAGC GAAGGCGGAA GGTCTATCTC 
AGCACCCTGC CTCAGGCACT GGTTTCCCTA GTCCCTGAGC TGGATGAGAT CGACCACCTG 
AGCTGGTCCG GGGTCCAGAA GGTTCTGGAG ACCAAGCGGG ACTTCTCCCA TTGGTTCGTT 
GTGTTGGACG ACACCCCCTG GGAGACCACG CCACACATAG ACAACATGGA GGACGAGAGG 
ATTCCAGAGG ATCTCCTGGA GACCCCTGTG GCCGAGACAA TTTATGAGAG CCACCTGGAG 
CACCTGAGAA ACGAGCGCAA AAAGGCGGAG ATGAAGTGGG AGTTCAAGGA GAAGCTCAGT 
GCCTCTCCCT TTATCACAGC AGGCAAGCCC TGGGAGGAGG CACGCAGCTT CATCATGAAT 
GAAGACTTCT ACCAGTGGCT CGAGGAACAA GAGTACCTAG ACATCTACAA CAGGCACCAG 
AAGGAGATCA TCGACCGAGC CAAGGAGGAC TTCCAGGAGC TGCTGCTGGA GTACTCAGAG 
CTCTTCTATG AGCTGGAGGT AGACGCCAAG CCAAGTAAGG AGAAGATGGG GGCCATCCAG 
GAGGTGTTGG GGGAGGAGCA AAGGTTCAAG GCCCTGCAGA AGTTACAGGC AGAGAGGGAC 
GCTTTGGTTC TCAAGCATAT CCACTTTGTC TACCACCCCA CCAAGGAGAC CTGCCCAAAT 
AGCCCCCACT GTGTGGACTG TAAGATTGAA CAGGTTCTAG CCTCCAAGTT CCCCACTCGA 
TACTCCTTCT TTGATAGCCA TAAACCAGGT GACGGGAATG CAGATCGGAT TAACCTGGTC 
ATTCTGGGTA AAGACGGCCT GGGTAGAGAA CTGGCCAATG AGATCAGGGC TTTGTGCACT 
AATGACGACC GTTACGTGCT GGATGGAAAA ATGTATGAGT TGTCCCTCCG GCCCATAGAG 
GGCAACGTTC GGCTGCCGGT CAATTCCTTC CACACGCCTA CCTTCACCCC CCATGGCGTC 
CTGTGTCTCT ACAACTCTAA GGAGTCACTA TCCTACATTG TGGAGAGCAT TGAAAAGCTC 
AGAGAGTCCA CGCTAGGCCG AAGGGAAAAC AGTCTATTTC AGCTGCCCAT GAACCTGCTC 
CTAGTCACCA AACGGGGAGT AGGGTCCGTC AGGGACATTG GGGGGGAGAC GGCCCACACA 
CTTATCCTCC AGGGGCAGCA GGTGGCTGGG AAGCTACAGT GTGGTTACCT AGACCCCGCC 
TCCCCTGGTG TGGGCTATGG ACGCAATGTG AACGAAAAGC AGATCAACCA GGTGTTAAAA 
GGTCTGTTAG AATGCCGTAG GCCCCCTGGG AGCATAGGCA GCAGCTCCCC TCCTTTACCC 
CCTTCCTTCA GAGACTCTCA CTCCCAGCCC ATCCCTGAGA CAGACCTGCG GATAGTCATG 
TGCCTGATGT GTGGGGACGA TTATGACGTG GAGCAGCTCC TCTCGCCTCT CCTGCTGCCC 
CAGCACTGCC GGCCGGCCTC CAGCCTGAGC AGTGGCACGT CCGTGCTCCT AGAGCTCACG 
GTGGGGGCTC AGAGGCACAC CATCGACCTC TCCCTGCTCT CCTTCCACTC CTCATTTGCC 
CTACGGAAGA GCCGGCTGGT GCACGGCTAC ATCGCCGTGT ATTCGGCCAG GCGCAAGGCG 
TCCATGGAGA CCCTGTGTGC ATTCCTGTGC GAGGTGCAGG ACATCATCCC CGTGCAGTTG 
CTGGCGGTGG GGGAGAGTCA GGCTGAGCTG TCGGACTCTG AAGTGGCCAG GGAGCAGGTG 
AGCCAGGGGG AGGAGTTGGC CCGGGAGATC GAGGCCAGGT TTAACACAGT AGTGTGTGGG 
CCCGGAGGGG TGGTGGGAGG CCTGCACAGG ATAGACCTCT TCCAGCCCTT CCTGAAGGAG 
GTTGTGGAGA AACGCACCAT AGTGGAGGCC ACACACATGT ACGATAATGT AGCAGATGCC 
TGCACCACTG AGAGCATGAG CCCGGCCCGC TGCAATTCCC CCAGCCCCAT CAACACCCTG 
CTAGACTCTG AGGAGGATGT GGAGCCCTCA CCCCCCTACC CCGATAGTAC CCCCACCTCC 
CACCTGGGGG GTTTCAAGCT CCCTGACCTG GAGTCCAGCG ACGCCTTCTC AGTCATCTCC 
GAGATCAGCA CCTTCGAGAG CAAGCTCAAC AACAAGGTGC CCCCGCAGGT ACGGCCCAAG 
CCCCCTGTAC GGAAAGTCAA CCTGGGGCCC TACATGGACC AGCAAGGGAC CAACCGCCGC 
TCTTTACCGC CTGCTGTCAC CTGGGCGCCG GGTAGCGACG GTGGCTACGA CCCCTCGGAC 
TACGCAGAGC CCGTGGATGC CGTGATCAAA CAGCGACCCA CGGAGGAGGA GAGCATCTAC 
TCGGTGCCCC ACGACAGCAC TCAGGGCAAG ATCATCACCA TCCGCAATGC CAACAAGCAT 
TCTAACGGCG GGGGCAATGG CTCGGATAGC GAGGCTGACA GCAGCTCCCT GGAGCGGAGG 
CGGAAGATGT CTGCTCTGGG GGTGAAGCCG CGGCTGTACC GCGACCGCTC GAAACGCCTG 
GGCAAGTTCA GCAGCTTCCG CACTAGCTTC TCTATCGGCA GTGACGACGA GCTGGGGCCA 
CCCAAGGCAC CAGAGGAGCT GGGCGGGGCG CACAAGGGGG ACAACTCTAT TAACGAGGAG 
GGTGAGGACC CCAAGAGGAG GAACATCCTC AGGAGCCTGC GCAGAAACAC CAAGAAACCG 
CGGCCCAAGC CCAGGCATTC CGTATCCAAA GTAGAAAGCA ACTACTTTGG CGTGCCATTG 
GCCAACGTGG TGACACCTGA CCGGCCCATC CCCCTCTTCA TCGACAAGTG CATCCGATAT 
ATTGAGGCAA CAGGTATCAC TACTGAAGGG ATCTACAGGG TGAGTGGGAA CAAGTCAGAA 
ATGGAGAGCA TGCAGAGGCA GTTTGACCAG GACCATAACC TGGACCTGGT GGAGAAGGAC 
TTCACCATCA ACACGGTGGC CGGGGCCATG AAGGCCTTCT TCTCTGAGCT TCCTGAACCC 
CTGGTGCCCT ACAGCCATCA GATTGAACTG GTGGAGGCCT TCAAGCTCAA CGACAGGGAT 
CAGCGGGTTC ACGCCATGAA GGACATCCTG CGCCGTTTCC CCAGGGAAAA CTATGACGTC 
TTCAAATACG TCATCAATCA CTTGAACAAG TGA

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

PubMed

Gene evolution and gene expression after whole genome duplication in fish: the PhyloFish database.
BMC genomics17368(2016 05)
Pasquier J,Cabau C,Nguyen T,Jouanno E,Severac D,Braasch I,Journot L,Pontarotti P,Klopp C,Postlethwait JH,Guiguen Y,Bobe J

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arhgap35 cDNA ORF clone, Oncorhynchus mykiss(rainbow trout)

Gene

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gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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