rev1 cDNA ORF clone, Salmo salar(Atlantic salmon)

Gene
Clones
gRNAs

Summary

Gene Symbol	rev1
Entrez Gene ID	106581995
Full Name	REV1, DNA directed polymerase
Gene Type	protein-coding
Organism	Salmo salar(Atlantic salmon)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014164617.1	XP_014020092.1	DNA repair protein REV1

Pathways from BioSystems
Gene Ontology

The following rev1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the rev1 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
OAt62025	XM_014164617.1 Latest version!	Salmo salar REV1, polymerase (DNA directed) (rev1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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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)

rev1 ( XM_014164617.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014020092.1 Salmo salar REV1, polymerase (DNA directed) (rev1), mRNA.

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CloneID	OAt62025
Clone ID Related Accession (Same CDS sequence)	XM_014164617.1
Accession Version	XM_014164617.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4389bp) 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	DNA repair protein REV1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012340350.1) 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGAGTCGAG ATGGGCGGAG GAAGAGGGAC AGGGATGACA ACGGTTGGGC TTCCAGGGGT 
GGCTACATGG CTGCTAAGGT GTCCAAGCTG GATGAGCAGT TTAAGATGGA CGCCCCCAGA 
GAGAAACAGA AAGATGGAGC CTGCCCTAGC ATCTTCACTG GGGTGGCCAT CTATGTCAAC 
GGGTACACAG ACCCCAGTGC GGACGAGCTG CGCAGGCTGA TGAAGCTGCA TGGGGGTCAG 
TTTCACATGT ACTACTCCCG CTCCAAGACA ACCCACATAA TCGCCACCAA CCTGCCCAAC 
AGCAAGATAC AGGAGCTGAG GGCCCAGAAG GTGGTCCGGC CGGAGTGGAT CACTGACAGT 
GTCAAGGCTG GCCATCTCCT GTCCTACCTG CAGTACCAGC TCTATGCCAA GCAGAAAGGC 
CTGAGCTTCC CCAGTGTGTG TGTTCGCCAG GGCCAGGAGG CAGCAGGACC CAGCCACAGC 
CTCCCTGTAC CCAGCCTCAA TAACCTCATA CCTGGCCTCA ACAACCCAGC CCCCAGCCTT 
GGGAAGCCCC TATCCAGCCA ACACACTCCC ACATCCAGCC ACAGTCATCT ACACATAGAC 
AATCTCCCCC CCCAGCCCAG CCCCTCGCTC CCCCTCCCCA GTCACCTCAA CCTCCAACCC 
AGCCCCTCGC TCCCCCTCCC CAGTCACCTC AACCCCCAGC CCAGCCCCTC GCTCCCCCTC 
CCCAGTCACC TCAACCCCCA GCCCAGCCCC TTGCTCCCCC TCCCCAGTCA CCTCAACCCT 
CAGTCCAGAC ACTTTAGCCC AGGACACTGC TTCCTCAGCC CCTACTCCTC CAATCACCTC 
TACTCTGACC CAGGACACAT CCCCCATCAC CCACCCAGCC AAGGGCAGCC CAAGCCAGGC 
TGCATCCGGC CTCTTGCTCC AGCCGACACC CACTTACAGA CCCCCGGTCC CGTCCCAGCT 
CACCCCAGCC ATGAGCACTC TAAACCTGGG CATGCGCAAA CTCAGTCCAG CCTCTCCTTC 
TCCAGCCACC TCCAGCACAG CTACCGGGAT CTGGACTTCA GACTAAATGG ATCATTACTG 
ACCTCCTATG ACAAGACGAG GACCGCCCAA ATAAACTGGG TGCAAGAGGG GGGAGGGGAG 
GACCCCTGTC CTGTCAGACC CCCCAGAGGG GCAACGGACC CCCCTCTGAC CAACGGTCAC 
GCCCACCCTG TGAATGGTGC CTTAAAGCCT CTGGATCTCT CCCCCAACCC CACACGACCC 
ACAGACACAC TCCTGAACCC TGACAGGAAG TCCACGGGGG GGTCTGTGTC CCTGCATCCT 
GCCAGCCCCC TATCCACCTC CCCTTTGAAA TCTGACCCCC CCAAACTTCT CCAGAGCCCC 
CCCAGAAACA CAACCCCTCC CCTTGTGTCT CACCACAGAC AACTGGCCAA TGAACAGAGA 
CCCAAACCCC CGCCGCCCAC CTATCAGGAG GCGACGGCTG CCTTGGCGTC CCGCCCCCTC 
GATCTCCCAC CTCCGAAGCC CCGTCAATCA GATTCCCCTC CTGAGAAGCC CCTCCCCCTT 
GATAACCCAA ACCGCTCCCC TTCCCCTGTC CGTCTGAATG GCAGTCACCA CAATGCCTTT 
GCTCCTAACC CCGCCCCTCT TGAAACCAAC AACTTATCAG CTATTCCCTC AAATCCCACC 
CCTCCAGACA GCGACCACCA ATCAGCACTG GCGAAGACAG GGGGAATCAT CTCAGAGTTC 
TACTCCCACT CTCGTCTACA TCACATCTCC ACATGGAGGA GTGAGTTCTC TGAGTATGTC 
AACACTCTGC AGAGCAGGAG GAGGGCCACA GGGGGCGCCA CATTCCCCGG GAGAGACAGG 
CTCAAACGCC AGAGGAGAGA GGGTTCGTCA GCTGCTCCTG GCCCTCAGTC CTGTATCCTG 
CATGTGGACA TGGACTGTTT CTTTGTCTCT GTGGGGATCA GACACAGGCC CGACCTCAAA 
GGGAAGCCAG TAGCTGTGAC CAGTAACCGT GGTCCAGGCA GAGTCGCCCA GAGGCCTGGT 
GTTGACCGCC AGCTGGAGCT GCAGTACTAC CAGAGGAAAT ACTCCCATGC AGGTGTCTCA 
GAGAGGAAGG ACGGGGACCT GGAGGACATG ACCTCGGCTG AGAGTCACGT CTCCCACGGC 
AATGGCGTGG ACCCGGACAC AACTTGCCTC TCTATGGCTG AGATTGCCTC CTGTAGCTAC 
GAGGCCAGGC AGGCAGGAGT GAGGAATGGG ATGTTTTTTG GCCAGGCCAA ACAGCTGTGT 
CCCTCCCTGC AGTCTGTCCC TTACGACTTC CAGGCCTACA AGGAGGTGGC CCTGGCCATG 
TACGAGACCC TCGCCAGTTA TACTCACAAC ATTGAAGCTC TGAGTTGTGA TGAGGCGTTG 
GTGGATGGCT CTGCCCTGCT GGCTGAGTTG GGTGCTACAC CTGAAGAGTT GGCCAGCGCC 
ATCCGGACAG ATGTCAGGGA GAGGACCGGG TGCACTGCCT CAGTGGGCAT GGGGTCCAAC 
ATCCTGCTGG CGAGGATGGC GACCCGGAAG GCCAAGCCGG ACGGACAGTA CCTCCTGAGG 
TCAGAGGAAG TGGACGACTT CATCAGGGAC CACACGGTCA CTAGCCTGCC AGGTGTGGGC 
CGGTCTATGG GCGCAAAGCT GGGGTCTCTG GGTGTGAGGT CGTGTGGGGA CCTGCAGCAG 
GTGTCTCTAC AGCAACTGCA GAAGGAGTTT GGCCCTCGCA CCGGGCAGAC CCTGTTCAGG 
TTCTGCCGAG GTCTGGACGA CCGGCCCGTC CGCAGCGAGA AGGAGAGGAA GTCTGTCTCG 
GCCGAGATGA ACTACAACAT CCGCTTCACA CAGGTGGACG AGGCGGAGTC CTTCCTGACC 
AACCTGTCCA TGGAGGTGCA GAAGCGTCTT CAGGGGGCGG GGCTCAGGGG TCGCAGACTG 
ACCCTAAAGG TCATGGTGCG TAAGGTGGGG GCCCCTGTGG AGCCATCCAA ATATGGTGGT 
CACGGCATCT GTGACAATCT GGCCAGGTCA GTGACCCTGG CCCAGTCGAC AGACAGTGGT 
CAGCTGATAG CCAGTGAGGT CATCAAGCTG TTCCACGCAA TGAGGCTGGA GGTGCAGGAC 
CTGAGGGGGG TGGGCCTTCA GGTGCAGCTC CTTGATGGGG CCCACTCAGC CCCCCATGAC 
CCCTCCGGCC CTAAAACGCG CTCCATCAGA GACATGCTTC TGGCCCAGCG GCCCCCCGCC 
CAACACAACC ACACAGATTT GCTACCTGAT GCTCCTGTTG CTGACTCGAC CACCAATCAG 
GAGAGGAGTT CCTCTGCCAG AGTCCCGCCC CCCTTCTCCA CTCTCCGCCC TCCTTCGCCT 
GCTGATCCAA TCCCAGGGAC GAGTAAAGAA GAGCCGCTGC CCACTACACG CACACCTAAC 
CATGTCCGGA CGCACCTCAA CCTCAGCATC GAGGTCCCCT CTCCTTCACA GGTGGACAGG 
TCAGTGTTGG ACGCCTTGCC TGCGGAATTG AGAGAACAGG TGGAGCGCTC ATGGACCCAC 
AGAGAGACAG AGAGATCCCA CAACGGGTCA CACCACCACC CCTCTTCCCT TCTTTCTTCC 
CCCTCCTCTC CTCCTCCCCC CGCTGCCCTT CCTGTAGGAA CACTGGTGCT TCAGATCCCC 
AACCAGCCTG GACAGCCCGG CTCCACGGGC ATCATCCTGG AACTGCCTGA CTTCTCCCAG 
GTTGACCCGG AGGTGTTTGC AGCGCTCCCC AGAGAGCTCC AGGAGGAACT GCGTTCAGCG 
TACGGCCGCA GAGAGACCGC CCAGGCACAA GGGATCATCA TGGCAGAGCA GAGGAACCCC 
CTGTTGCAGC TGAAGCAGGT TGGAGCGGGT CGGGTGAAGA GGCGCTACAA GAAGAAGAAC 
GCCAACTCCA GCCCCACTAA GAAAGGCCCC TCCCCTCTAA AGAGGCCCCA CCCACCAGGA 
AACAGCCCTG CCAAAGCCCT ACAGCACCCG CTCAGACCGA GGGACCTATC CAACGGCCTC 
AAGCTGGAGA ATGGACCTTC CACATCCTCC CTAAAGCAGG ATGTCCCAGA GACTCTGTCT 
AAGTTCACTC CTCGCCCTGA ACCCACCTTG GCTGGAGCCT GTGATTTCAC GGACATCCGA 
ACACTACTCA GAGAATGGGT CACTACCATC TCAGAACCCA TGGAGGAGGA CATTCTGCAG 
GTGGTCAAGT ACTGCACTGA TCTGATCGAG GACAAAGACC TGGAGAAACT TGACCTGGTC 
ATCAAGTACA TGAAGAGGTT GATGCAGCAG TCTGTGGAGT CTGTGTGGAG CATGGCCTTT 
GACTTCATCC TGGACAACGT GCAGGTGGTG GTACAGCAGA CCTACGGCAG CACTCTGAAG 
ATCACATAG

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

RefSeq	XP_014020092.1
CDS	306..4694
Translation	MSRDGRRKRDRDDNGWASRGGYMAAKVSKLDEQFKMDAPREKQKDGACPSIFTGVAIYVNGYTDPSADELRRLMKLHGGQFHMYYSRSKTTHIIATNLPNSKIQELRAQKVVRPEWITDSVKAGHLLSYLQYQLYAKQKGLSFPSVCVRQGQEAAGPSHSLPVPSLNNLIPGLNNPAPSLGKPLSSQHTPTSSHSHLHIDNLPPQPSPSLPLPSHLNLQPSPSLPLPSHLNPQPSPSLPLPSHLNPQPSPLLPLPSHLNPQSRHFSPGHCFLSPYSSNHLYSDPGHIPHHPPSQGQPKPGCIRPLAPADTHLQTPGPVPAHPSHEHSKPGHAQTQSSLSFSSHLQHSYRDLDFRLNGSLLTSYDKTRTAQINWVQEGGGEDPCPVRPPRGATDPPLTNGHAHPVNGALKPLDLSPNPTRPTDTLLNPDRKSTGGSVSLHPASPLSTSPLKSDPPKLLQSPPRNTTPPLVSHHRQLANEQRPKPPPPTYQEATAALASRPLDLPPPKPRQSDSPPEKPLPLDNPNRSPSPVRLNGSHHNAFAPNPAPLETNNLSAIPSNPTPPDSDHQSALAKTGGIISEFYSHSRLHHISTWRSEFSEYVNTLQSRRRATGGATFPGRDRLKRQRREGSSAAPGPQSCILHVDMDCFFVSVGIRHRPDLKGKPVAVTSNRGPGRVAQRPGVDRQLELQYYQRKYSHAGVSERKDGDLEDMTSAESHVSHGNGVDPDTTCLSMAEIASCSYEARQAGVRNGMFFGQAKQLCPSLQSVPYDFQAYKEVALAMYETLASYTHNIEALSCDEALVDGSALLAELGATPEELASAIRTDVRERTGCTASVGMGSNILLARMATRKAKPDGQYLLRSEEVDDFIRDHTVTSLPGVGRSMGAKLGSLGVRSCGDLQQVSLQQLQKEFGPRTGQTLFRFCRGLDDRPVRSEKERKSVSAEMNYNIRFTQVDEAESFLTNLSMEVQKRLQGAGLRGRRLTLKVMVRKVGAPVEPSKYGGHGICDNLARSVTLAQSTDSGQLIASEVIKLFHAMRLEVQDLRGVGLQVQLLDGAHSAPHDPSGPKTRSIRDMLLAQRPPAQHNHTDLLPDAPVADSTTNQERSSSARVPPPFSTLRPPSPADPIPGTSKEEPLPTTRTPNHVRTHLNLSIEVPSPSQVDRSVLDALPAELREQVERSWTHRETERSHNGSHHHPSSLLSSPSSPPPPAALPVGTLVLQIPNQPGQPGSTGIILELPDFSQVDPEVFAALPRELQEELRSAYGRRETAQAQGIIMAEQRNPLLQLKQVGAGRVKRRYKKKNANSSPTKKGPSPLKRPHPPGNSPAKALQHPLRPRDLSNGLKLENGPSTSSLKQDVPETLSKFTPRPEPTLAGACDFTDIRTLLREWVTTISEPMEEDILQVVKYCTDLIEDKDLEKLDLVIKYMKRLMQQSVESVWSMAFDFILDNVQVVVQQTYGSTLKIT

Target ORF information:

RefSeq Version	XM_014164617.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar REV1, polymerase (DNA directed) (rev1), mRNA.

Target ORF information:

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

XM_014164617.1

ORF Insert Sequence:

ATGAGTCGAG ATGGGCGGAG GAAGAGGGAC AGGGATGACA ACGGTTGGGC TTCCAGGGGT 
GGCTACATGG CTGCTAAGGT GTCCAAGCTG GATGAGCAGT TTAAGATGGA CGCCCCCAGA 
GAGAAACAGA AAGATGGAGC CTGCCCTAGC ATCTTCACTG GGGTGGCCAT CTATGTCAAC 
GGGTACACAG ACCCCAGTGC GGACGAGCTG CGCAGGCTGA TGAAGCTGCA TGGGGGTCAG 
TTTCACATGT ACTACTCCCG CTCCAAGACA ACCCACATAA TCGCCACCAA CCTGCCCAAC 
AGCAAGATAC AGGAGCTGAG GGCCCAGAAG GTGGTCCGGC CGGAGTGGAT CACTGACAGT 
GTCAAGGCTG GCCATCTCCT GTCCTACCTG CAGTACCAGC TCTATGCCAA GCAGAAAGGC 
CTGAGCTTCC CCAGTGTGTG TGTTCGCCAG GGCCAGGAGG CAGCAGGACC CAGCCACAGC 
CTCCCTGTAC CCAGCCTCAA TAACCTCATA CCTGGCCTCA ACAACCCAGC CCCCAGCCTT 
GGGAAGCCCC TATCCAGCCA ACACACTCCC ACATCCAGCC ACAGTCATCT ACACATAGAC 
AATCTCCCCC CCCAGCCCAG CCCCTCGCTC CCCCTCCCCA GTCACCTCAA CCTCCAACCC 
AGCCCCTCGC TCCCCCTCCC CAGTCACCTC AACCCCCAGC CCAGCCCCTC GCTCCCCCTC 
CCCAGTCACC TCAACCCCCA GCCCAGCCCC TTGCTCCCCC TCCCCAGTCA CCTCAACCCT 
CAGTCCAGAC ACTTTAGCCC AGGACACTGC TTCCTCAGCC CCTACTCCTC CAATCACCTC 
TACTCTGACC CAGGACACAT CCCCCATCAC CCACCCAGCC AAGGGCAGCC CAAGCCAGGC 
TGCATCCGGC CTCTTGCTCC AGCCGACACC CACTTACAGA CCCCCGGTCC CGTCCCAGCT 
CACCCCAGCC ATGAGCACTC TAAACCTGGG CATGCGCAAA CTCAGTCCAG CCTCTCCTTC 
TCCAGCCACC TCCAGCACAG CTACCGGGAT CTGGACTTCA GACTAAATGG ATCATTACTG 
ACCTCCTATG ACAAGACGAG GACCGCCCAA ATAAACTGGG TGCAAGAGGG GGGAGGGGAG 
GACCCCTGTC CTGTCAGACC CCCCAGAGGG GCAACGGACC CCCCTCTGAC CAACGGTCAC 
GCCCACCCTG TGAATGGTGC CTTAAAGCCT CTGGATCTCT CCCCCAACCC CACACGACCC 
ACAGACACAC TCCTGAACCC TGACAGGAAG TCCACGGGGG GGTCTGTGTC CCTGCATCCT 
GCCAGCCCCC TATCCACCTC CCCTTTGAAA TCTGACCCCC CCAAACTTCT CCAGAGCCCC 
CCCAGAAACA CAACCCCTCC CCTTGTGTCT CACCACAGAC AACTGGCCAA TGAACAGAGA 
CCCAAACCCC CGCCGCCCAC CTATCAGGAG GCGACGGCTG CCTTGGCGTC CCGCCCCCTC 
GATCTCCCAC CTCCGAAGCC CCGTCAATCA GATTCCCCTC CTGAGAAGCC CCTCCCCCTT 
GATAACCCAA ACCGCTCCCC TTCCCCTGTC CGTCTGAATG GCAGTCACCA CAATGCCTTT 
GCTCCTAACC CCGCCCCTCT TGAAACCAAC AACTTATCAG CTATTCCCTC AAATCCCACC 
CCTCCAGACA GCGACCACCA ATCAGCACTG GCGAAGACAG GGGGAATCAT CTCAGAGTTC 
TACTCCCACT CTCGTCTACA TCACATCTCC ACATGGAGGA GTGAGTTCTC TGAGTATGTC 
AACACTCTGC AGAGCAGGAG GAGGGCCACA GGGGGCGCCA CATTCCCCGG GAGAGACAGG 
CTCAAACGCC AGAGGAGAGA GGGTTCGTCA GCTGCTCCTG GCCCTCAGTC CTGTATCCTG 
CATGTGGACA TGGACTGTTT CTTTGTCTCT GTGGGGATCA GACACAGGCC CGACCTCAAA 
GGGAAGCCAG TAGCTGTGAC CAGTAACCGT GGTCCAGGCA GAGTCGCCCA GAGGCCTGGT 
GTTGACCGCC AGCTGGAGCT GCAGTACTAC CAGAGGAAAT ACTCCCATGC AGGTGTCTCA 
GAGAGGAAGG ACGGGGACCT GGAGGACATG ACCTCGGCTG AGAGTCACGT CTCCCACGGC 
AATGGCGTGG ACCCGGACAC AACTTGCCTC TCTATGGCTG AGATTGCCTC CTGTAGCTAC 
GAGGCCAGGC AGGCAGGAGT GAGGAATGGG ATGTTTTTTG GCCAGGCCAA ACAGCTGTGT 
CCCTCCCTGC AGTCTGTCCC TTACGACTTC CAGGCCTACA AGGAGGTGGC CCTGGCCATG 
TACGAGACCC TCGCCAGTTA TACTCACAAC ATTGAAGCTC TGAGTTGTGA TGAGGCGTTG 
GTGGATGGCT CTGCCCTGCT GGCTGAGTTG GGTGCTACAC CTGAAGAGTT GGCCAGCGCC 
ATCCGGACAG ATGTCAGGGA GAGGACCGGG TGCACTGCCT CAGTGGGCAT GGGGTCCAAC 
ATCCTGCTGG CGAGGATGGC GACCCGGAAG GCCAAGCCGG ACGGACAGTA CCTCCTGAGG 
TCAGAGGAAG TGGACGACTT CATCAGGGAC CACACGGTCA CTAGCCTGCC AGGTGTGGGC 
CGGTCTATGG GCGCAAAGCT GGGGTCTCTG GGTGTGAGGT CGTGTGGGGA CCTGCAGCAG 
GTGTCTCTAC AGCAACTGCA GAAGGAGTTT GGCCCTCGCA CCGGGCAGAC CCTGTTCAGG 
TTCTGCCGAG GTCTGGACGA CCGGCCCGTC CGCAGCGAGA AGGAGAGGAA GTCTGTCTCG 
GCCGAGATGA ACTACAACAT CCGCTTCACA CAGGTGGACG AGGCGGAGTC CTTCCTGACC 
AACCTGTCCA TGGAGGTGCA GAAGCGTCTT CAGGGGGCGG GGCTCAGGGG TCGCAGACTG 
ACCCTAAAGG TCATGGTGCG TAAGGTGGGG GCCCCTGTGG AGCCATCCAA ATATGGTGGT 
CACGGCATCT GTGACAATCT GGCCAGGTCA GTGACCCTGG CCCAGTCGAC AGACAGTGGT 
CAGCTGATAG CCAGTGAGGT CATCAAGCTG TTCCACGCAA TGAGGCTGGA GGTGCAGGAC 
CTGAGGGGGG TGGGCCTTCA GGTGCAGCTC CTTGATGGGG CCCACTCAGC CCCCCATGAC 
CCCTCCGGCC CTAAAACGCG CTCCATCAGA GACATGCTTC TGGCCCAGCG GCCCCCCGCC 
CAACACAACC ACACAGATTT GCTACCTGAT GCTCCTGTTG CTGACTCGAC CACCAATCAG 
GAGAGGAGTT CCTCTGCCAG AGTCCCGCCC CCCTTCTCCA CTCTCCGCCC TCCTTCGCCT 
GCTGATCCAA TCCCAGGGAC GAGTAAAGAA GAGCCGCTGC CCACTACACG CACACCTAAC 
CATGTCCGGA CGCACCTCAA CCTCAGCATC GAGGTCCCCT CTCCTTCACA GGTGGACAGG 
TCAGTGTTGG ACGCCTTGCC TGCGGAATTG AGAGAACAGG TGGAGCGCTC ATGGACCCAC 
AGAGAGACAG AGAGATCCCA CAACGGGTCA CACCACCACC CCTCTTCCCT TCTTTCTTCC 
CCCTCCTCTC CTCCTCCCCC CGCTGCCCTT CCTGTAGGAA CACTGGTGCT TCAGATCCCC 
AACCAGCCTG GACAGCCCGG CTCCACGGGC ATCATCCTGG AACTGCCTGA CTTCTCCCAG 
GTTGACCCGG AGGTGTTTGC AGCGCTCCCC AGAGAGCTCC AGGAGGAACT GCGTTCAGCG 
TACGGCCGCA GAGAGACCGC CCAGGCACAA GGGATCATCA TGGCAGAGCA GAGGAACCCC 
CTGTTGCAGC TGAAGCAGGT TGGAGCGGGT CGGGTGAAGA GGCGCTACAA GAAGAAGAAC 
GCCAACTCCA GCCCCACTAA GAAAGGCCCC TCCCCTCTAA AGAGGCCCCA CCCACCAGGA 
AACAGCCCTG CCAAAGCCCT ACAGCACCCG CTCAGACCGA GGGACCTATC CAACGGCCTC 
AAGCTGGAGA ATGGACCTTC CACATCCTCC CTAAAGCAGG ATGTCCCAGA GACTCTGTCT 
AAGTTCACTC CTCGCCCTGA ACCCACCTTG GCTGGAGCCT GTGATTTCAC GGACATCCGA 
ACACTACTCA GAGAATGGGT CACTACCATC TCAGAACCCA TGGAGGAGGA CATTCTGCAG 
GTGGTCAAGT ACTGCACTGA TCTGATCGAG GACAAAGACC TGGAGAAACT TGACCTGGTC 
ATCAAGTACA TGAAGAGGTT GATGCAGCAG TCTGTGGAGT CTGTGTGGAG CATGGCCTTT 
GACTTCATCC TGGACAACGT GCAGGTGGTG GTACAGCAGA CCTACGGCAG CACTCTGAAG 
ATCACATAG

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

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rev1 cDNA ORF clone, Salmo salar(Atlantic salmon)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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