LOC106585729 cDNA ORF clone, Salmo salar(Atlantic salmon)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC106585729
Entrez Gene ID	106585729
Full Name	RNA exonuclease 1 homolog
Gene Type	protein-coding
Organism	Salmo salar(Atlantic salmon)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014172287.1	XP_014027762.1	RNA exonuclease 1 homolog isoform X1
XM_014172288.1	XP_014027763.1	RNA exonuclease 1 homolog isoform X2
XM_014172289.1	XP_014027764.1	RNA exonuclease 1 homolog isoform X3

Pathways from BioSystems
Gene Ontology

The following LOC106585729 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106585729 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)
OAt67086	XM_014172287.1 Latest version!	Salmo salar RNA exonuclease 1 homolog (LOC106585729), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAt67087	XM_014172288.1 Latest version!	Salmo salar RNA exonuclease 1 homolog (LOC106585729), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAt67088	XM_014172289.1 Latest version!	Salmo salar RNA exonuclease 1 homolog (LOC106585729), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

ORF Online Only Promotion

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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)

LOC106585729 ( XM_014172287.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014027762.1 Salmo salar RNA exonuclease 1 homolog (LOC106585729), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAt67086
Clone ID Related Accession (Same CDS sequence)	XM_014172287.1
Accession Version	XM_014172287.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3591bp) 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	RNA exonuclease 1 homolog isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012340663.1) 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##

ATGTTGTCTT CCATTGGGTT CTTCGCTGAA ATAGACTGTC CATTTTTCAG ACGTGACCAC 
TGTAAGCGGC CCCACTGTCT GTACAAGCAT GACAAAGACG AGCGAGGAAT GTTTGACAAC 
ACCCTGTATG GGTCACCGGT AACAGCAGCA GGTGTTTGGA AAACTCATTC CACTTCCATC 
AATGGAGTCC CACAGGTCAA TGAAGCCAAA GACCCTTGCC TTTTGGAGTT GGAGAGGATC 
AACAAAGAAA TTGAGACTGT GAAGAATGAG GTTGAGAAGG AGCAAAGGAG ATTATCTCGT 
TACCAAACTG TGCAGGTGGA CAGTGAAAGG ACAGGGTCCA AGAAAGTCTT GATTGCCAAA 
TCTGAAACAC CAGGTAAAGA TCTGAATGGA AATAGCGTAA AGTCTTCACA CAGGCAGTCA 
ACTACAGCCT ATTCTCCCGC CCGGAGGAAG TATGTGGTTG ACAACTCCAA ACCCAGGACT 
GATTTGGAAT ACGACCCCTT GTCCAACTTC TCAGCTTCTT TGCGATCTAG TGGTTGTTCT 
GAGTACAAAC CAGGTAATGA GCAGAAAGTG AGAAGTGGGC AAGGTGTGAA GAGGACTAGA 
GAGAATGTTT GTAAGGAGGA CCAAACTAAG CCACCTTCTC AAGAGTTCAC TGTCTCACCA 
GCTAGTAGTA ACAAGCTAGT TGATGACTCT GAAGAAGAAG AAGAAGGGGT CCTCATCATT 
GATATTCCAC CTCTGGAGAG CGATAGAAAG AAGTGTCGGG CTCAGAAGCC CTGTAAGATC 
ACCACAAACC AATCACAGGA AATCAAAGAG GAAGTCCACC CTGTTTTTGT TCCTACTGTG 
GCTCATGCTC CACTTAGTAT TCCACTTCCT GTGTCCACTC CTGGTCCTGA AGTAGTCGAA 
GTCCTATCCC CACCTGCAGT GTCTGAGATT GTGAAAGATG ATCACCTCAA CACTTATGGC 
CTATCTAGTG TTTCCGCTAG TCGGGAAAAT GAAGGTGAAC CCAGTGCTGA GAGTATATTC 
GATGACTTGT CCAAATGCTT GGAAAACCTG AGGAGTGAAA GCGAGAGAAT AGTTTATTAC 
CAAGAGGCTG AATCCACTGC GGAAAGCAAC TGTGGCCCAG AACCTGTGTC TCTCAAAATG 
AGTCTTTCAT CCTTACAGAC ACGTCACCAT AATGAGCCAG TTAAGACTGA TGTCAACTTA 
CTGATGGCAA AGCCTGGATT GCTTGAACGT GAGCTTGCCT ACAACTCTGT TGAGAACAGT 
AACCATCTTC AACCCAATGA AGTCTCATAT GGACATATAT CTTCACTACC TCATAATGTT 
TTAGTCCCTC CCTCTGTCTC CTCCCCCCAT AAACTCCCCA TTGAGACCCA GAGAAGTGAG 
CAGCCAGTAG CACAGAGCTC TGCTCAGAGT TACTGGTCAC CTGTACAAAG CGTATCATCA 
GTGCCATGTC TGCAGAAAAT ACCAGGCCAA ACACCAGGGC TTGATTTTGC CCTGCCTAAT 
CCAGTTCCGG TAGCAAACTT TGTAGAGCAA GCGGCCACTA CTGTGGGTTT CCCCCAATGC 
CAGCTGTTAT ATGGGCCAAC TACGTCAGGG ACTAATGAAG TAGAATTACA ATCTGCTCCT 
TTTGAGCAGC CTACTGTGGA AGCAGTGAAT GAACACATTG TTATTGATTC AAGTTCTGAG 
GAGCTCGAGT ATTCAGAGTT ATCTGATAGT GACACAATGG AGGAATGCTA TCGTATCTTC 
ATGGAGGAAG CCAACAAGGG TGAAGAGGGA TCGACAGACC AGGCTTGTAC ACCTGTAGGA 
GCTGTGGATG TGGAGACACC AGGGTTAGCA GTGAAACCCA AACCGTTGCC AGGACCCAGG 
AAGAGGGTGG CCCATGTGTC CAGATATACT GAGCCACCGG TGGGCAAAAG CAAAGCCCAG 
GTCATCGTTC CTTTCCGAGG AGGAGCCCCC CAGTTGTCCA ACCCCTCTAA GATCCAGCAG 
CTGCAGCAGA GGGCCTCCGT TTTGTCCGCT GCTCTGAAAG GAGGCCAGGC ATTCATCTCC 
TCCAACTCAC AGAGAAAAGT GGTGATGCTG CCTTCTCCTG CTCATCAGGC CAGTCATCAG 
GCCACCCACC ATCCAGTTCA ATACCTCATT CACCAGCCAA CTCACCAAAC TACTATGCAA 
AACTCCTGTG TGAACGTCAT ACCTGTGGGA ACAGCCATCC AGGTGGGCAA CAACCTGCAC 
TTCATCCTCC CAGAGGGAAG CTACACTCTG CCCATCACTT CAGCTAATTC TCCAGTCACT 
CCGGTCCATA CCCCGGTCCA TACTCCAGTT ACCCCTGTTC CTGTACAACC TCAGCCTACT 
GCCTATATCC CTGCTAAGCC CATTCCTACC AAACGTAAAG CCAAGATGCG TCCTGAGGTC 
AGCGCCAAAG TCCCACATGA CGTACGGCAG CGCTACGTAA ACCTGTTTGT AGAGGAATTC 
CTCAAAACGT CTGTCACTGT ACAAGATGCT TTTGAAAAGG CTCTTGCTGA GGAGAAGACT 
GTGTATGATC GCAGCATCAA CAAACTCAAG TACCTGAGTG TTGCAGTGAA TGCACTGAAG 
AGGCTGAAGA ACCAGAGCTC CGTCTCTGTC AAAGCTGGAA ATGAAACTAA TGTCCAGCTA 
TCCAAAGGAA ATATTCCACT CAATGAAAAA GCACTTTGGG CAAATGGAGA TGTTGCATTG 
TATGACAGTT TGAAGGAGCA CATTCTGTCA GAGGAGATAT TGACGGAGAA TAACTATCCT 
CTTCAGCACC CAGAGAAATC TGGCAGTGCC ATACTGTACC GTGAAGACTA TAAAAAGGGA 
ATCACTGATC CTTTGAAGAG GATTTGCTGT CGGTGTGGTG CCACTTACTC TGTGAACCAA 
GTGGGAAAGC ACACTCGCAA GGAGGAGTGC AACTACCACT ATGGGAAAGG AGTTGAGAAG 
AAGGTTCCAG GTGGAGTGGA AACACGCTAC AGCTGCTGTG AAGGTGTGGC TGGGTGCCCT 
GGATGCCAAG TCTTCAAGCT GCATGTCCAT GATGCAGTTA GCCTGGATGG CTTTGTCAGT 
ACCCTTCCTA GGCCTGCCTC TGACAAGGGA TGCCCGGGTG TGTTCTCAGT CGACTGTGAA 
ATGTGCTATA CCACTCAAGG TCTGGAGCTG GCCAGAGTGA CTGTTGTCAA CTCCAGTTTG 
CAGGTCATCT ATGACACCTT TGTGAAACCT GATAATGATG TCATTGACTA CAACACCAGG 
TTTTCAGGCA TCAATGAAGC TGATGTGAAA GGAACAAGCT CGTCCATCCG AGACGTTCAG 
GAGACTCTAC TGAGCTTTGT CAGTGCAGAG ACTATACTGA TCGGCTACGG CTTGGAATCT 
GACCTCTGTG CATTAAAGCT GCTCCATGGC ACCGTGGTGG ACACCTCTGT GTCGTTCCCC 
CACCGCCTGG GCCTGCCTCA TAAGATGACC CTCCACAACC TGACAGCAGA CTACCTCAGG 
AGGATCATCC AGGAGAGTGT GGGTGGCCAT GACTCAGCAG AAGATGCTGT TGCCTGTATG 
GAGCTCATGC TGTGGAAAGT CAAAGAAGAT GGCAAAACTA AACGATGGTG A

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

RefSeq	XP_014027762.1
CDS	112..3702
Translation	MLSSIGFFAEIDCPFFRRDHCKRPHCLYKHDKDERGMFDNTLYGSPVTAAGVWKTHSTSINGVPQVNEAKDPCLLELERINKEIETVKNEVEKEQRRLSRYQTVQVDSERTGSKKVLIAKSETPGKDLNGNSVKSSHRQSTTAYSPARRKYVVDNSKPRTDLEYDPLSNFSASLRSSGCSEYKPGNEQKVRSGQGVKRTRENVCKEDQTKPPSQEFTVSPASSNKLVDDSEEEEEGVLIIDIPPLESDRKKCRAQKPCKITTNQSQEIKEEVHPVFVPTVAHAPLSIPLPVSTPGPEVVEVLSPPAVSEIVKDDHLNTYGLSSVSASRENEGEPSAESIFDDLSKCLENLRSESERIVYYQEAESTAESNCGPEPVSLKMSLSSLQTRHHNEPVKTDVNLLMAKPGLLERELAYNSVENSNHLQPNEVSYGHISSLPHNVLVPPSVSSPHKLPIETQRSEQPVAQSSAQSYWSPVQSVSSVPCLQKIPGQTPGLDFALPNPVPVANFVEQAATTVGFPQCQLLYGPTTSGTNEVELQSAPFEQPTVEAVNEHIVIDSSSEELEYSELSDSDTMEECYRIFMEEANKGEEGSTDQACTPVGAVDVETPGLAVKPKPLPGPRKRVAHVSRYTEPPVGKSKAQVIVPFRGGAPQLSNPSKIQQLQQRASVLSAALKGGQAFISSNSQRKVVMLPSPAHQASHQATHHPVQYLIHQPTHQTTMQNSCVNVIPVGTAIQVGNNLHFILPEGSYTLPITSANSPVTPVHTPVHTPVTPVPVQPQPTAYIPAKPIPTKRKAKMRPEVSAKVPHDVRQRYVNLFVEEFLKTSVTVQDAFEKALAEEKTVYDRSINKLKYLSVAVNALKRLKNQSSVSVKAGNETNVQLSKGNIPLNEKALWANGDVALYDSLKEHILSEEILTENNYPLQHPEKSGSAILYREDYKKGITDPLKRICCRCGATYSVNQVGKHTRKEECNYHYGKGVEKKVPGGVETRYSCCEGVAGCPGCQVFKLHVHDAVSLDGFVSTLPRPASDKGCPGVFSVDCEMCYTTQGLELARVTVVNSSLQVIYDTFVKPDNDVIDYNTRFSGINEADVKGTSSSIRDVQETLLSFVSAETILIGYGLESDLCALKLLHGTVVDTSVSFPHRLGLPHKMTLHNLTADYLRRIIQESVGGHDSAEDAVACMELMLWKVKEDGKTKRW

Target ORF information:

RefSeq Version	XM_014172287.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar RNA exonuclease 1 homolog (LOC106585729), transcript variant X1, mRNA.

Target ORF information:

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

XM_014172287.1

ORF Insert Sequence:

ATGTTGTCTT CCATTGGGTT CTTCGCTGAA ATAGACTGTC CATTTTTCAG ACGTGACCAC 
TGTAAGCGGC CCCACTGTCT GTACAAGCAT GACAAAGACG AGCGAGGAAT GTTTGACAAC 
ACCCTGTATG GGTCACCGGT AACAGCAGCA GGTGTTTGGA AAACTCATTC CACTTCCATC 
AATGGAGTCC CACAGGTCAA TGAAGCCAAA GACCCTTGCC TTTTGGAGTT GGAGAGGATC 
AACAAAGAAA TTGAGACTGT GAAGAATGAG GTTGAGAAGG AGCAAAGGAG ATTATCTCGT 
TACCAAACTG TGCAGGTGGA CAGTGAAAGG ACAGGGTCCA AGAAAGTCTT GATTGCCAAA 
TCTGAAACAC CAGGTAAAGA TCTGAATGGA AATAGCGTAA AGTCTTCACA CAGGCAGTCA 
ACTACAGCCT ATTCTCCCGC CCGGAGGAAG TATGTGGTTG ACAACTCCAA ACCCAGGACT 
GATTTGGAAT ACGACCCCTT GTCCAACTTC TCAGCTTCTT TGCGATCTAG TGGTTGTTCT 
GAGTACAAAC CAGGTAATGA GCAGAAAGTG AGAAGTGGGC AAGGTGTGAA GAGGACTAGA 
GAGAATGTTT GTAAGGAGGA CCAAACTAAG CCACCTTCTC AAGAGTTCAC TGTCTCACCA 
GCTAGTAGTA ACAAGCTAGT TGATGACTCT GAAGAAGAAG AAGAAGGGGT CCTCATCATT 
GATATTCCAC CTCTGGAGAG CGATAGAAAG AAGTGTCGGG CTCAGAAGCC CTGTAAGATC 
ACCACAAACC AATCACAGGA AATCAAAGAG GAAGTCCACC CTGTTTTTGT TCCTACTGTG 
GCTCATGCTC CACTTAGTAT TCCACTTCCT GTGTCCACTC CTGGTCCTGA AGTAGTCGAA 
GTCCTATCCC CACCTGCAGT GTCTGAGATT GTGAAAGATG ATCACCTCAA CACTTATGGC 
CTATCTAGTG TTTCCGCTAG TCGGGAAAAT GAAGGTGAAC CCAGTGCTGA GAGTATATTC 
GATGACTTGT CCAAATGCTT GGAAAACCTG AGGAGTGAAA GCGAGAGAAT AGTTTATTAC 
CAAGAGGCTG AATCCACTGC GGAAAGCAAC TGTGGCCCAG AACCTGTGTC TCTCAAAATG 
AGTCTTTCAT CCTTACAGAC ACGTCACCAT AATGAGCCAG TTAAGACTGA TGTCAACTTA 
CTGATGGCAA AGCCTGGATT GCTTGAACGT GAGCTTGCCT ACAACTCTGT TGAGAACAGT 
AACCATCTTC AACCCAATGA AGTCTCATAT GGACATATAT CTTCACTACC TCATAATGTT 
TTAGTCCCTC CCTCTGTCTC CTCCCCCCAT AAACTCCCCA TTGAGACCCA GAGAAGTGAG 
CAGCCAGTAG CACAGAGCTC TGCTCAGAGT TACTGGTCAC CTGTACAAAG CGTATCATCA 
GTGCCATGTC TGCAGAAAAT ACCAGGCCAA ACACCAGGGC TTGATTTTGC CCTGCCTAAT 
CCAGTTCCGG TAGCAAACTT TGTAGAGCAA GCGGCCACTA CTGTGGGTTT CCCCCAATGC 
CAGCTGTTAT ATGGGCCAAC TACGTCAGGG ACTAATGAAG TAGAATTACA ATCTGCTCCT 
TTTGAGCAGC CTACTGTGGA AGCAGTGAAT GAACACATTG TTATTGATTC AAGTTCTGAG 
GAGCTCGAGT ATTCAGAGTT ATCTGATAGT GACACAATGG AGGAATGCTA TCGTATCTTC 
ATGGAGGAAG CCAACAAGGG TGAAGAGGGA TCGACAGACC AGGCTTGTAC ACCTGTAGGA 
GCTGTGGATG TGGAGACACC AGGGTTAGCA GTGAAACCCA AACCGTTGCC AGGACCCAGG 
AAGAGGGTGG CCCATGTGTC CAGATATACT GAGCCACCGG TGGGCAAAAG CAAAGCCCAG 
GTCATCGTTC CTTTCCGAGG AGGAGCCCCC CAGTTGTCCA ACCCCTCTAA GATCCAGCAG 
CTGCAGCAGA GGGCCTCCGT TTTGTCCGCT GCTCTGAAAG GAGGCCAGGC ATTCATCTCC 
TCCAACTCAC AGAGAAAAGT GGTGATGCTG CCTTCTCCTG CTCATCAGGC CAGTCATCAG 
GCCACCCACC ATCCAGTTCA ATACCTCATT CACCAGCCAA CTCACCAAAC TACTATGCAA 
AACTCCTGTG TGAACGTCAT ACCTGTGGGA ACAGCCATCC AGGTGGGCAA CAACCTGCAC 
TTCATCCTCC CAGAGGGAAG CTACACTCTG CCCATCACTT CAGCTAATTC TCCAGTCACT 
CCGGTCCATA CCCCGGTCCA TACTCCAGTT ACCCCTGTTC CTGTACAACC TCAGCCTACT 
GCCTATATCC CTGCTAAGCC CATTCCTACC AAACGTAAAG CCAAGATGCG TCCTGAGGTC 
AGCGCCAAAG TCCCACATGA CGTACGGCAG CGCTACGTAA ACCTGTTTGT AGAGGAATTC 
CTCAAAACGT CTGTCACTGT ACAAGATGCT TTTGAAAAGG CTCTTGCTGA GGAGAAGACT 
GTGTATGATC GCAGCATCAA CAAACTCAAG TACCTGAGTG TTGCAGTGAA TGCACTGAAG 
AGGCTGAAGA ACCAGAGCTC CGTCTCTGTC AAAGCTGGAA ATGAAACTAA TGTCCAGCTA 
TCCAAAGGAA ATATTCCACT CAATGAAAAA GCACTTTGGG CAAATGGAGA TGTTGCATTG 
TATGACAGTT TGAAGGAGCA CATTCTGTCA GAGGAGATAT TGACGGAGAA TAACTATCCT 
CTTCAGCACC CAGAGAAATC TGGCAGTGCC ATACTGTACC GTGAAGACTA TAAAAAGGGA 
ATCACTGATC CTTTGAAGAG GATTTGCTGT CGGTGTGGTG CCACTTACTC TGTGAACCAA 
GTGGGAAAGC ACACTCGCAA GGAGGAGTGC AACTACCACT ATGGGAAAGG AGTTGAGAAG 
AAGGTTCCAG GTGGAGTGGA AACACGCTAC AGCTGCTGTG AAGGTGTGGC TGGGTGCCCT 
GGATGCCAAG TCTTCAAGCT GCATGTCCAT GATGCAGTTA GCCTGGATGG CTTTGTCAGT 
ACCCTTCCTA GGCCTGCCTC TGACAAGGGA TGCCCGGGTG TGTTCTCAGT CGACTGTGAA 
ATGTGCTATA CCACTCAAGG TCTGGAGCTG GCCAGAGTGA CTGTTGTCAA CTCCAGTTTG 
CAGGTCATCT ATGACACCTT TGTGAAACCT GATAATGATG TCATTGACTA CAACACCAGG 
TTTTCAGGCA TCAATGAAGC TGATGTGAAA GGAACAAGCT CGTCCATCCG AGACGTTCAG 
GAGACTCTAC TGAGCTTTGT CAGTGCAGAG ACTATACTGA TCGGCTACGG CTTGGAATCT 
GACCTCTGTG CATTAAAGCT GCTCCATGGC ACCGTGGTGG ACACCTCTGT GTCGTTCCCC 
CACCGCCTGG GCCTGCCTCA TAAGATGACC CTCCACAACC TGACAGCAGA CTACCTCAGG 
AGGATCATCC AGGAGAGTGT GGGTGGCCAT GACTCAGCAG AAGATGCTGT TGCCTGTATG 
GAGCTCATGC TGTGGAAAGT CAAAGAAGAT GGCAAAACTA AACGATGGTG A

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

LOC106585729 ( XM_014172288.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014027763.1 Salmo salar RNA exonuclease 1 homolog (LOC106585729), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAt67087
Clone ID Related Accession (Same CDS sequence)	XM_014172288.1
Accession Version	XM_014172288.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3591bp) 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	RNA exonuclease 1 homolog isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012340663.1) 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##

ATGGACAGAA TGACATCAGC AACTCTGAAT GGAGGAAAGC ACAGAGACAG ACGTGACCAC 
TGTAAGCGGC CCCACTGTCT GTACAAGCAT GACAAAGACG AGCGAGGAAT GTTTGACAAC 
ACCCTGTATG GGTCACCGGT AACAGCAGCA GGTGTTTGGA AAACTCATTC CACTTCCATC 
AATGGAGTCC CACAGGTCAA TGAAGCCAAA GACCCTTGCC TTTTGGAGTT GGAGAGGATC 
AACAAAGAAA TTGAGACTGT GAAGAATGAG GTTGAGAAGG AGCAAAGGAG ATTATCTCGT 
TACCAAACTG TGCAGGTGGA CAGTGAAAGG ACAGGGTCCA AGAAAGTCTT GATTGCCAAA 
TCTGAAACAC CAGGTAAAGA TCTGAATGGA AATAGCGTAA AGTCTTCACA CAGGCAGTCA 
ACTACAGCCT ATTCTCCCGC CCGGAGGAAG TATGTGGTTG ACAACTCCAA ACCCAGGACT 
GATTTGGAAT ACGACCCCTT GTCCAACTTC TCAGCTTCTT TGCGATCTAG TGGTTGTTCT 
GAGTACAAAC CAGGTAATGA GCAGAAAGTG AGAAGTGGGC AAGGTGTGAA GAGGACTAGA 
GAGAATGTTT GTAAGGAGGA CCAAACTAAG CCACCTTCTC AAGAGTTCAC TGTCTCACCA 
GCTAGTAGTA ACAAGCTAGT TGATGACTCT GAAGAAGAAG AAGAAGGGGT CCTCATCATT 
GATATTCCAC CTCTGGAGAG CGATAGAAAG AAGTGTCGGG CTCAGAAGCC CTGTAAGATC 
ACCACAAACC AATCACAGGA AATCAAAGAG GAAGTCCACC CTGTTTTTGT TCCTACTGTG 
GCTCATGCTC CACTTAGTAT TCCACTTCCT GTGTCCACTC CTGGTCCTGA AGTAGTCGAA 
GTCCTATCCC CACCTGCAGT GTCTGAGATT GTGAAAGATG ATCACCTCAA CACTTATGGC 
CTATCTAGTG TTTCCGCTAG TCGGGAAAAT GAAGGTGAAC CCAGTGCTGA GAGTATATTC 
GATGACTTGT CCAAATGCTT GGAAAACCTG AGGAGTGAAA GCGAGAGAAT AGTTTATTAC 
CAAGAGGCTG AATCCACTGC GGAAAGCAAC TGTGGCCCAG AACCTGTGTC TCTCAAAATG 
AGTCTTTCAT CCTTACAGAC ACGTCACCAT AATGAGCCAG TTAAGACTGA TGTCAACTTA 
CTGATGGCAA AGCCTGGATT GCTTGAACGT GAGCTTGCCT ACAACTCTGT TGAGAACAGT 
AACCATCTTC AACCCAATGA AGTCTCATAT GGACATATAT CTTCACTACC TCATAATGTT 
TTAGTCCCTC CCTCTGTCTC CTCCCCCCAT AAACTCCCCA TTGAGACCCA GAGAAGTGAG 
CAGCCAGTAG CACAGAGCTC TGCTCAGAGT TACTGGTCAC CTGTACAAAG CGTATCATCA 
GTGCCATGTC TGCAGAAAAT ACCAGGCCAA ACACCAGGGC TTGATTTTGC CCTGCCTAAT 
CCAGTTCCGG TAGCAAACTT TGTAGAGCAA GCGGCCACTA CTGTGGGTTT CCCCCAATGC 
CAGCTGTTAT ATGGGCCAAC TACGTCAGGG ACTAATGAAG TAGAATTACA ATCTGCTCCT 
TTTGAGCAGC CTACTGTGGA AGCAGTGAAT GAACACATTG TTATTGATTC AAGTTCTGAG 
GAGCTCGAGT ATTCAGAGTT ATCTGATAGT GACACAATGG AGGAATGCTA TCGTATCTTC 
ATGGAGGAAG CCAACAAGGG TGAAGAGGGA TCGACAGACC AGGCTTGTAC ACCTGTAGGA 
GCTGTGGATG TGGAGACACC AGGGTTAGCA GTGAAACCCA AACCGTTGCC AGGACCCAGG 
AAGAGGGTGG CCCATGTGTC CAGATATACT GAGCCACCGG TGGGCAAAAG CAAAGCCCAG 
GTCATCGTTC CTTTCCGAGG AGGAGCCCCC CAGTTGTCCA ACCCCTCTAA GATCCAGCAG 
CTGCAGCAGA GGGCCTCCGT TTTGTCCGCT GCTCTGAAAG GAGGCCAGGC ATTCATCTCC 
TCCAACTCAC AGAGAAAAGT GGTGATGCTG CCTTCTCCTG CTCATCAGGC CAGTCATCAG 
GCCACCCACC ATCCAGTTCA ATACCTCATT CACCAGCCAA CTCACCAAAC TACTATGCAA 
AACTCCTGTG TGAACGTCAT ACCTGTGGGA ACAGCCATCC AGGTGGGCAA CAACCTGCAC 
TTCATCCTCC CAGAGGGAAG CTACACTCTG CCCATCACTT CAGCTAATTC TCCAGTCACT 
CCGGTCCATA CCCCGGTCCA TACTCCAGTT ACCCCTGTTC CTGTACAACC TCAGCCTACT 
GCCTATATCC CTGCTAAGCC CATTCCTACC AAACGTAAAG CCAAGATGCG TCCTGAGGTC 
AGCGCCAAAG TCCCACATGA CGTACGGCAG CGCTACGTAA ACCTGTTTGT AGAGGAATTC 
CTCAAAACGT CTGTCACTGT ACAAGATGCT TTTGAAAAGG CTCTTGCTGA GGAGAAGACT 
GTGTATGATC GCAGCATCAA CAAACTCAAG TACCTGAGTG TTGCAGTGAA TGCACTGAAG 
AGGCTGAAGA ACCAGAGCTC CGTCTCTGTC AAAGCTGGAA ATGAAACTAA TGTCCAGCTA 
TCCAAAGGAA ATATTCCACT CAATGAAAAA GCACTTTGGG CAAATGGAGA TGTTGCATTG 
TATGACAGTT TGAAGGAGCA CATTCTGTCA GAGGAGATAT TGACGGAGAA TAACTATCCT 
CTTCAGCACC CAGAGAAATC TGGCAGTGCC ATACTGTACC GTGAAGACTA TAAAAAGGGA 
ATCACTGATC CTTTGAAGAG GATTTGCTGT CGGTGTGGTG CCACTTACTC TGTGAACCAA 
GTGGGAAAGC ACACTCGCAA GGAGGAGTGC AACTACCACT ATGGGAAAGG AGTTGAGAAG 
AAGGTTCCAG GTGGAGTGGA AACACGCTAC AGCTGCTGTG AAGGTGTGGC TGGGTGCCCT 
GGATGCCAAG TCTTCAAGCT GCATGTCCAT GATGCAGTTA GCCTGGATGG CTTTGTCAGT 
ACCCTTCCTA GGCCTGCCTC TGACAAGGGA TGCCCGGGTG TGTTCTCAGT CGACTGTGAA 
ATGTGCTATA CCACTCAAGG TCTGGAGCTG GCCAGAGTGA CTGTTGTCAA CTCCAGTTTG 
CAGGTCATCT ATGACACCTT TGTGAAACCT GATAATGATG TCATTGACTA CAACACCAGG 
TTTTCAGGCA TCAATGAAGC TGATGTGAAA GGAACAAGCT CGTCCATCCG AGACGTTCAG 
GAGACTCTAC TGAGCTTTGT CAGTGCAGAG ACTATACTGA TCGGCTACGG CTTGGAATCT 
GACCTCTGTG CATTAAAGCT GCTCCATGGC ACCGTGGTGG ACACCTCTGT GTCGTTCCCC 
CACCGCCTGG GCCTGCCTCA TAAGATGACC CTCCACAACC TGACAGCAGA CTACCTCAGG 
AGGATCATCC AGGAGAGTGT GGGTGGCCAT GACTCAGCAG AAGATGCTGT TGCCTGTATG 
GAGCTCATGC TGTGGAAAGT CAAAGAAGAT GGCAAAACTA AACGATGGTG A

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

RefSeq	XP_014027763.1
CDS	6..3596
Translation	MDRMTSATLNGGKHRDRRDHCKRPHCLYKHDKDERGMFDNTLYGSPVTAAGVWKTHSTSINGVPQVNEAKDPCLLELERINKEIETVKNEVEKEQRRLSRYQTVQVDSERTGSKKVLIAKSETPGKDLNGNSVKSSHRQSTTAYSPARRKYVVDNSKPRTDLEYDPLSNFSASLRSSGCSEYKPGNEQKVRSGQGVKRTRENVCKEDQTKPPSQEFTVSPASSNKLVDDSEEEEEGVLIIDIPPLESDRKKCRAQKPCKITTNQSQEIKEEVHPVFVPTVAHAPLSIPLPVSTPGPEVVEVLSPPAVSEIVKDDHLNTYGLSSVSASRENEGEPSAESIFDDLSKCLENLRSESERIVYYQEAESTAESNCGPEPVSLKMSLSSLQTRHHNEPVKTDVNLLMAKPGLLERELAYNSVENSNHLQPNEVSYGHISSLPHNVLVPPSVSSPHKLPIETQRSEQPVAQSSAQSYWSPVQSVSSVPCLQKIPGQTPGLDFALPNPVPVANFVEQAATTVGFPQCQLLYGPTTSGTNEVELQSAPFEQPTVEAVNEHIVIDSSSEELEYSELSDSDTMEECYRIFMEEANKGEEGSTDQACTPVGAVDVETPGLAVKPKPLPGPRKRVAHVSRYTEPPVGKSKAQVIVPFRGGAPQLSNPSKIQQLQQRASVLSAALKGGQAFISSNSQRKVVMLPSPAHQASHQATHHPVQYLIHQPTHQTTMQNSCVNVIPVGTAIQVGNNLHFILPEGSYTLPITSANSPVTPVHTPVHTPVTPVPVQPQPTAYIPAKPIPTKRKAKMRPEVSAKVPHDVRQRYVNLFVEEFLKTSVTVQDAFEKALAEEKTVYDRSINKLKYLSVAVNALKRLKNQSSVSVKAGNETNVQLSKGNIPLNEKALWANGDVALYDSLKEHILSEEILTENNYPLQHPEKSGSAILYREDYKKGITDPLKRICCRCGATYSVNQVGKHTRKEECNYHYGKGVEKKVPGGVETRYSCCEGVAGCPGCQVFKLHVHDAVSLDGFVSTLPRPASDKGCPGVFSVDCEMCYTTQGLELARVTVVNSSLQVIYDTFVKPDNDVIDYNTRFSGINEADVKGTSSSIRDVQETLLSFVSAETILIGYGLESDLCALKLLHGTVVDTSVSFPHRLGLPHKMTLHNLTADYLRRIIQESVGGHDSAEDAVACMELMLWKVKEDGKTKRW

Target ORF information:

RefSeq Version	XM_014172288.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar RNA exonuclease 1 homolog (LOC106585729), transcript variant X2, mRNA.

Target ORF information:

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

XM_014172288.1

ORF Insert Sequence:

ATGGACAGAA TGACATCAGC AACTCTGAAT GGAGGAAAGC ACAGAGACAG ACGTGACCAC 
TGTAAGCGGC CCCACTGTCT GTACAAGCAT GACAAAGACG AGCGAGGAAT GTTTGACAAC 
ACCCTGTATG GGTCACCGGT AACAGCAGCA GGTGTTTGGA AAACTCATTC CACTTCCATC 
AATGGAGTCC CACAGGTCAA TGAAGCCAAA GACCCTTGCC TTTTGGAGTT GGAGAGGATC 
AACAAAGAAA TTGAGACTGT GAAGAATGAG GTTGAGAAGG AGCAAAGGAG ATTATCTCGT 
TACCAAACTG TGCAGGTGGA CAGTGAAAGG ACAGGGTCCA AGAAAGTCTT GATTGCCAAA 
TCTGAAACAC CAGGTAAAGA TCTGAATGGA AATAGCGTAA AGTCTTCACA CAGGCAGTCA 
ACTACAGCCT ATTCTCCCGC CCGGAGGAAG TATGTGGTTG ACAACTCCAA ACCCAGGACT 
GATTTGGAAT ACGACCCCTT GTCCAACTTC TCAGCTTCTT TGCGATCTAG TGGTTGTTCT 
GAGTACAAAC CAGGTAATGA GCAGAAAGTG AGAAGTGGGC AAGGTGTGAA GAGGACTAGA 
GAGAATGTTT GTAAGGAGGA CCAAACTAAG CCACCTTCTC AAGAGTTCAC TGTCTCACCA 
GCTAGTAGTA ACAAGCTAGT TGATGACTCT GAAGAAGAAG AAGAAGGGGT CCTCATCATT 
GATATTCCAC CTCTGGAGAG CGATAGAAAG AAGTGTCGGG CTCAGAAGCC CTGTAAGATC 
ACCACAAACC AATCACAGGA AATCAAAGAG GAAGTCCACC CTGTTTTTGT TCCTACTGTG 
GCTCATGCTC CACTTAGTAT TCCACTTCCT GTGTCCACTC CTGGTCCTGA AGTAGTCGAA 
GTCCTATCCC CACCTGCAGT GTCTGAGATT GTGAAAGATG ATCACCTCAA CACTTATGGC 
CTATCTAGTG TTTCCGCTAG TCGGGAAAAT GAAGGTGAAC CCAGTGCTGA GAGTATATTC 
GATGACTTGT CCAAATGCTT GGAAAACCTG AGGAGTGAAA GCGAGAGAAT AGTTTATTAC 
CAAGAGGCTG AATCCACTGC GGAAAGCAAC TGTGGCCCAG AACCTGTGTC TCTCAAAATG 
AGTCTTTCAT CCTTACAGAC ACGTCACCAT AATGAGCCAG TTAAGACTGA TGTCAACTTA 
CTGATGGCAA AGCCTGGATT GCTTGAACGT GAGCTTGCCT ACAACTCTGT TGAGAACAGT 
AACCATCTTC AACCCAATGA AGTCTCATAT GGACATATAT CTTCACTACC TCATAATGTT 
TTAGTCCCTC CCTCTGTCTC CTCCCCCCAT AAACTCCCCA TTGAGACCCA GAGAAGTGAG 
CAGCCAGTAG CACAGAGCTC TGCTCAGAGT TACTGGTCAC CTGTACAAAG CGTATCATCA 
GTGCCATGTC TGCAGAAAAT ACCAGGCCAA ACACCAGGGC TTGATTTTGC CCTGCCTAAT 
CCAGTTCCGG TAGCAAACTT TGTAGAGCAA GCGGCCACTA CTGTGGGTTT CCCCCAATGC 
CAGCTGTTAT ATGGGCCAAC TACGTCAGGG ACTAATGAAG TAGAATTACA ATCTGCTCCT 
TTTGAGCAGC CTACTGTGGA AGCAGTGAAT GAACACATTG TTATTGATTC AAGTTCTGAG 
GAGCTCGAGT ATTCAGAGTT ATCTGATAGT GACACAATGG AGGAATGCTA TCGTATCTTC 
ATGGAGGAAG CCAACAAGGG TGAAGAGGGA TCGACAGACC AGGCTTGTAC ACCTGTAGGA 
GCTGTGGATG TGGAGACACC AGGGTTAGCA GTGAAACCCA AACCGTTGCC AGGACCCAGG 
AAGAGGGTGG CCCATGTGTC CAGATATACT GAGCCACCGG TGGGCAAAAG CAAAGCCCAG 
GTCATCGTTC CTTTCCGAGG AGGAGCCCCC CAGTTGTCCA ACCCCTCTAA GATCCAGCAG 
CTGCAGCAGA GGGCCTCCGT TTTGTCCGCT GCTCTGAAAG GAGGCCAGGC ATTCATCTCC 
TCCAACTCAC AGAGAAAAGT GGTGATGCTG CCTTCTCCTG CTCATCAGGC CAGTCATCAG 
GCCACCCACC ATCCAGTTCA ATACCTCATT CACCAGCCAA CTCACCAAAC TACTATGCAA 
AACTCCTGTG TGAACGTCAT ACCTGTGGGA ACAGCCATCC AGGTGGGCAA CAACCTGCAC 
TTCATCCTCC CAGAGGGAAG CTACACTCTG CCCATCACTT CAGCTAATTC TCCAGTCACT 
CCGGTCCATA CCCCGGTCCA TACTCCAGTT ACCCCTGTTC CTGTACAACC TCAGCCTACT 
GCCTATATCC CTGCTAAGCC CATTCCTACC AAACGTAAAG CCAAGATGCG TCCTGAGGTC 
AGCGCCAAAG TCCCACATGA CGTACGGCAG CGCTACGTAA ACCTGTTTGT AGAGGAATTC 
CTCAAAACGT CTGTCACTGT ACAAGATGCT TTTGAAAAGG CTCTTGCTGA GGAGAAGACT 
GTGTATGATC GCAGCATCAA CAAACTCAAG TACCTGAGTG TTGCAGTGAA TGCACTGAAG 
AGGCTGAAGA ACCAGAGCTC CGTCTCTGTC AAAGCTGGAA ATGAAACTAA TGTCCAGCTA 
TCCAAAGGAA ATATTCCACT CAATGAAAAA GCACTTTGGG CAAATGGAGA TGTTGCATTG 
TATGACAGTT TGAAGGAGCA CATTCTGTCA GAGGAGATAT TGACGGAGAA TAACTATCCT 
CTTCAGCACC CAGAGAAATC TGGCAGTGCC ATACTGTACC GTGAAGACTA TAAAAAGGGA 
ATCACTGATC CTTTGAAGAG GATTTGCTGT CGGTGTGGTG CCACTTACTC TGTGAACCAA 
GTGGGAAAGC ACACTCGCAA GGAGGAGTGC AACTACCACT ATGGGAAAGG AGTTGAGAAG 
AAGGTTCCAG GTGGAGTGGA AACACGCTAC AGCTGCTGTG AAGGTGTGGC TGGGTGCCCT 
GGATGCCAAG TCTTCAAGCT GCATGTCCAT GATGCAGTTA GCCTGGATGG CTTTGTCAGT 
ACCCTTCCTA GGCCTGCCTC TGACAAGGGA TGCCCGGGTG TGTTCTCAGT CGACTGTGAA 
ATGTGCTATA CCACTCAAGG TCTGGAGCTG GCCAGAGTGA CTGTTGTCAA CTCCAGTTTG 
CAGGTCATCT ATGACACCTT TGTGAAACCT GATAATGATG TCATTGACTA CAACACCAGG 
TTTTCAGGCA TCAATGAAGC TGATGTGAAA GGAACAAGCT CGTCCATCCG AGACGTTCAG 
GAGACTCTAC TGAGCTTTGT CAGTGCAGAG ACTATACTGA TCGGCTACGG CTTGGAATCT 
GACCTCTGTG CATTAAAGCT GCTCCATGGC ACCGTGGTGG ACACCTCTGT GTCGTTCCCC 
CACCGCCTGG GCCTGCCTCA TAAGATGACC CTCCACAACC TGACAGCAGA CTACCTCAGG 
AGGATCATCC AGGAGAGTGT GGGTGGCCAT GACTCAGCAG AAGATGCTGT TGCCTGTATG 
GAGCTCATGC TGTGGAAAGT CAAAGAAGAT GGCAAAACTA AACGATGGTG A

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

LOC106585729 ( XM_014172289.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014027764.1 Salmo salar RNA exonuclease 1 homolog (LOC106585729), transcript variant X3, mRNA.

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CloneID	OAt67088
Clone ID Related Accession (Same CDS sequence)	XM_014172289.1
Accession Version	XM_014172289.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3573bp) 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	RNA exonuclease 1 homolog isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012340663.1) 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##

ATGACCAAGG AGTGGTACAG TAACCGAAAA AGACGTGACC ACTGTAAGCG GCCCCACTGT 
CTGTACAAGC ATGACAAAGA CGAGCGAGGA ATGTTTGACA ACACCCTGTA TGGGTCACCG 
GTAACAGCAG CAGGTGTTTG GAAAACTCAT TCCACTTCCA TCAATGGAGT CCCACAGGTC 
AATGAAGCCA AAGACCCTTG CCTTTTGGAG TTGGAGAGGA TCAACAAAGA AATTGAGACT 
GTGAAGAATG AGGTTGAGAA GGAGCAAAGG AGATTATCTC GTTACCAAAC TGTGCAGGTG 
GACAGTGAAA GGACAGGGTC CAAGAAAGTC TTGATTGCCA AATCTGAAAC ACCAGGTAAA 
GATCTGAATG GAAATAGCGT AAAGTCTTCA CACAGGCAGT CAACTACAGC CTATTCTCCC 
GCCCGGAGGA AGTATGTGGT TGACAACTCC AAACCCAGGA CTGATTTGGA ATACGACCCC 
TTGTCCAACT TCTCAGCTTC TTTGCGATCT AGTGGTTGTT CTGAGTACAA ACCAGGTAAT 
GAGCAGAAAG TGAGAAGTGG GCAAGGTGTG AAGAGGACTA GAGAGAATGT TTGTAAGGAG 
GACCAAACTA AGCCACCTTC TCAAGAGTTC ACTGTCTCAC CAGCTAGTAG TAACAAGCTA 
GTTGATGACT CTGAAGAAGA AGAAGAAGGG GTCCTCATCA TTGATATTCC ACCTCTGGAG 
AGCGATAGAA AGAAGTGTCG GGCTCAGAAG CCCTGTAAGA TCACCACAAA CCAATCACAG 
GAAATCAAAG AGGAAGTCCA CCCTGTTTTT GTTCCTACTG TGGCTCATGC TCCACTTAGT 
ATTCCACTTC CTGTGTCCAC TCCTGGTCCT GAAGTAGTCG AAGTCCTATC CCCACCTGCA 
GTGTCTGAGA TTGTGAAAGA TGATCACCTC AACACTTATG GCCTATCTAG TGTTTCCGCT 
AGTCGGGAAA ATGAAGGTGA ACCCAGTGCT GAGAGTATAT TCGATGACTT GTCCAAATGC 
TTGGAAAACC TGAGGAGTGA AAGCGAGAGA ATAGTTTATT ACCAAGAGGC TGAATCCACT 
GCGGAAAGCA ACTGTGGCCC AGAACCTGTG TCTCTCAAAA TGAGTCTTTC ATCCTTACAG 
ACACGTCACC ATAATGAGCC AGTTAAGACT GATGTCAACT TACTGATGGC AAAGCCTGGA 
TTGCTTGAAC GTGAGCTTGC CTACAACTCT GTTGAGAACA GTAACCATCT TCAACCCAAT 
GAAGTCTCAT ATGGACATAT ATCTTCACTA CCTCATAATG TTTTAGTCCC TCCCTCTGTC 
TCCTCCCCCC ATAAACTCCC CATTGAGACC CAGAGAAGTG AGCAGCCAGT AGCACAGAGC 
TCTGCTCAGA GTTACTGGTC ACCTGTACAA AGCGTATCAT CAGTGCCATG TCTGCAGAAA 
ATACCAGGCC AAACACCAGG GCTTGATTTT GCCCTGCCTA ATCCAGTTCC GGTAGCAAAC 
TTTGTAGAGC AAGCGGCCAC TACTGTGGGT TTCCCCCAAT GCCAGCTGTT ATATGGGCCA 
ACTACGTCAG GGACTAATGA AGTAGAATTA CAATCTGCTC CTTTTGAGCA GCCTACTGTG 
GAAGCAGTGA ATGAACACAT TGTTATTGAT TCAAGTTCTG AGGAGCTCGA GTATTCAGAG 
TTATCTGATA GTGACACAAT GGAGGAATGC TATCGTATCT TCATGGAGGA AGCCAACAAG 
GGTGAAGAGG GATCGACAGA CCAGGCTTGT ACACCTGTAG GAGCTGTGGA TGTGGAGACA 
CCAGGGTTAG CAGTGAAACC CAAACCGTTG CCAGGACCCA GGAAGAGGGT GGCCCATGTG 
TCCAGATATA CTGAGCCACC GGTGGGCAAA AGCAAAGCCC AGGTCATCGT TCCTTTCCGA 
GGAGGAGCCC CCCAGTTGTC CAACCCCTCT AAGATCCAGC AGCTGCAGCA GAGGGCCTCC 
GTTTTGTCCG CTGCTCTGAA AGGAGGCCAG GCATTCATCT CCTCCAACTC ACAGAGAAAA 
GTGGTGATGC TGCCTTCTCC TGCTCATCAG GCCAGTCATC AGGCCACCCA CCATCCAGTT 
CAATACCTCA TTCACCAGCC AACTCACCAA ACTACTATGC AAAACTCCTG TGTGAACGTC 
ATACCTGTGG GAACAGCCAT CCAGGTGGGC AACAACCTGC ACTTCATCCT CCCAGAGGGA 
AGCTACACTC TGCCCATCAC TTCAGCTAAT TCTCCAGTCA CTCCGGTCCA TACCCCGGTC 
CATACTCCAG TTACCCCTGT TCCTGTACAA CCTCAGCCTA CTGCCTATAT CCCTGCTAAG 
CCCATTCCTA CCAAACGTAA AGCCAAGATG CGTCCTGAGG TCAGCGCCAA AGTCCCACAT 
GACGTACGGC AGCGCTACGT AAACCTGTTT GTAGAGGAAT TCCTCAAAAC GTCTGTCACT 
GTACAAGATG CTTTTGAAAA GGCTCTTGCT GAGGAGAAGA CTGTGTATGA TCGCAGCATC 
AACAAACTCA AGTACCTGAG TGTTGCAGTG AATGCACTGA AGAGGCTGAA GAACCAGAGC 
TCCGTCTCTG TCAAAGCTGG AAATGAAACT AATGTCCAGC TATCCAAAGG AAATATTCCA 
CTCAATGAAA AAGCACTTTG GGCAAATGGA GATGTTGCAT TGTATGACAG TTTGAAGGAG 
CACATTCTGT CAGAGGAGAT ATTGACGGAG AATAACTATC CTCTTCAGCA CCCAGAGAAA 
TCTGGCAGTG CCATACTGTA CCGTGAAGAC TATAAAAAGG GAATCACTGA TCCTTTGAAG 
AGGATTTGCT GTCGGTGTGG TGCCACTTAC TCTGTGAACC AAGTGGGAAA GCACACTCGC 
AAGGAGGAGT GCAACTACCA CTATGGGAAA GGAGTTGAGA AGAAGGTTCC AGGTGGAGTG 
GAAACACGCT ACAGCTGCTG TGAAGGTGTG GCTGGGTGCC CTGGATGCCA AGTCTTCAAG 
CTGCATGTCC ATGATGCAGT TAGCCTGGAT GGCTTTGTCA GTACCCTTCC TAGGCCTGCC 
TCTGACAAGG GATGCCCGGG TGTGTTCTCA GTCGACTGTG AAATGTGCTA TACCACTCAA 
GGTCTGGAGC TGGCCAGAGT GACTGTTGTC AACTCCAGTT TGCAGGTCAT CTATGACACC 
TTTGTGAAAC CTGATAATGA TGTCATTGAC TACAACACCA GGTTTTCAGG CATCAATGAA 
GCTGATGTGA AAGGAACAAG CTCGTCCATC CGAGACGTTC AGGAGACTCT ACTGAGCTTT 
GTCAGTGCAG AGACTATACT GATCGGCTAC GGCTTGGAAT CTGACCTCTG TGCATTAAAG 
CTGCTCCATG GCACCGTGGT GGACACCTCT GTGTCGTTCC CCCACCGCCT GGGCCTGCCT 
CATAAGATGA CCCTCCACAA CCTGACAGCA GACTACCTCA GGAGGATCAT CCAGGAGAGT 
GTGGGTGGCC ATGACTCAGC AGAAGATGCT GTTGCCTGTA TGGAGCTCAT GCTGTGGAAA 
GTCAAAGAAG ATGGCAAAAC TAAACGATGG TGA

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

RefSeq	XP_014027764.1
CDS	252..3824
Translation	MTKEWYSNRKRRDHCKRPHCLYKHDKDERGMFDNTLYGSPVTAAGVWKTHSTSINGVPQVNEAKDPCLLELERINKEIETVKNEVEKEQRRLSRYQTVQVDSERTGSKKVLIAKSETPGKDLNGNSVKSSHRQSTTAYSPARRKYVVDNSKPRTDLEYDPLSNFSASLRSSGCSEYKPGNEQKVRSGQGVKRTRENVCKEDQTKPPSQEFTVSPASSNKLVDDSEEEEEGVLIIDIPPLESDRKKCRAQKPCKITTNQSQEIKEEVHPVFVPTVAHAPLSIPLPVSTPGPEVVEVLSPPAVSEIVKDDHLNTYGLSSVSASRENEGEPSAESIFDDLSKCLENLRSESERIVYYQEAESTAESNCGPEPVSLKMSLSSLQTRHHNEPVKTDVNLLMAKPGLLERELAYNSVENSNHLQPNEVSYGHISSLPHNVLVPPSVSSPHKLPIETQRSEQPVAQSSAQSYWSPVQSVSSVPCLQKIPGQTPGLDFALPNPVPVANFVEQAATTVGFPQCQLLYGPTTSGTNEVELQSAPFEQPTVEAVNEHIVIDSSSEELEYSELSDSDTMEECYRIFMEEANKGEEGSTDQACTPVGAVDVETPGLAVKPKPLPGPRKRVAHVSRYTEPPVGKSKAQVIVPFRGGAPQLSNPSKIQQLQQRASVLSAALKGGQAFISSNSQRKVVMLPSPAHQASHQATHHPVQYLIHQPTHQTTMQNSCVNVIPVGTAIQVGNNLHFILPEGSYTLPITSANSPVTPVHTPVHTPVTPVPVQPQPTAYIPAKPIPTKRKAKMRPEVSAKVPHDVRQRYVNLFVEEFLKTSVTVQDAFEKALAEEKTVYDRSINKLKYLSVAVNALKRLKNQSSVSVKAGNETNVQLSKGNIPLNEKALWANGDVALYDSLKEHILSEEILTENNYPLQHPEKSGSAILYREDYKKGITDPLKRICCRCGATYSVNQVGKHTRKEECNYHYGKGVEKKVPGGVETRYSCCEGVAGCPGCQVFKLHVHDAVSLDGFVSTLPRPASDKGCPGVFSVDCEMCYTTQGLELARVTVVNSSLQVIYDTFVKPDNDVIDYNTRFSGINEADVKGTSSSIRDVQETLLSFVSAETILIGYGLESDLCALKLLHGTVVDTSVSFPHRLGLPHKMTLHNLTADYLRRIIQESVGGHDSAEDAVACMELMLWKVKEDGKTKRW

Target ORF information:

RefSeq Version	XM_014172289.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar RNA exonuclease 1 homolog (LOC106585729), transcript variant X3, mRNA.

Target ORF information:

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

XM_014172289.1

ORF Insert Sequence:

ATGACCAAGG AGTGGTACAG TAACCGAAAA AGACGTGACC ACTGTAAGCG GCCCCACTGT 
CTGTACAAGC ATGACAAAGA CGAGCGAGGA ATGTTTGACA ACACCCTGTA TGGGTCACCG 
GTAACAGCAG CAGGTGTTTG GAAAACTCAT TCCACTTCCA TCAATGGAGT CCCACAGGTC 
AATGAAGCCA AAGACCCTTG CCTTTTGGAG TTGGAGAGGA TCAACAAAGA AATTGAGACT 
GTGAAGAATG AGGTTGAGAA GGAGCAAAGG AGATTATCTC GTTACCAAAC TGTGCAGGTG 
GACAGTGAAA GGACAGGGTC CAAGAAAGTC TTGATTGCCA AATCTGAAAC ACCAGGTAAA 
GATCTGAATG GAAATAGCGT AAAGTCTTCA CACAGGCAGT CAACTACAGC CTATTCTCCC 
GCCCGGAGGA AGTATGTGGT TGACAACTCC AAACCCAGGA CTGATTTGGA ATACGACCCC 
TTGTCCAACT TCTCAGCTTC TTTGCGATCT AGTGGTTGTT CTGAGTACAA ACCAGGTAAT 
GAGCAGAAAG TGAGAAGTGG GCAAGGTGTG AAGAGGACTA GAGAGAATGT TTGTAAGGAG 
GACCAAACTA AGCCACCTTC TCAAGAGTTC ACTGTCTCAC CAGCTAGTAG TAACAAGCTA 
GTTGATGACT CTGAAGAAGA AGAAGAAGGG GTCCTCATCA TTGATATTCC ACCTCTGGAG 
AGCGATAGAA AGAAGTGTCG GGCTCAGAAG CCCTGTAAGA TCACCACAAA CCAATCACAG 
GAAATCAAAG AGGAAGTCCA CCCTGTTTTT GTTCCTACTG TGGCTCATGC TCCACTTAGT 
ATTCCACTTC CTGTGTCCAC TCCTGGTCCT GAAGTAGTCG AAGTCCTATC CCCACCTGCA 
GTGTCTGAGA TTGTGAAAGA TGATCACCTC AACACTTATG GCCTATCTAG TGTTTCCGCT 
AGTCGGGAAA ATGAAGGTGA ACCCAGTGCT GAGAGTATAT TCGATGACTT GTCCAAATGC 
TTGGAAAACC TGAGGAGTGA AAGCGAGAGA ATAGTTTATT ACCAAGAGGC TGAATCCACT 
GCGGAAAGCA ACTGTGGCCC AGAACCTGTG TCTCTCAAAA TGAGTCTTTC ATCCTTACAG 
ACACGTCACC ATAATGAGCC AGTTAAGACT GATGTCAACT TACTGATGGC AAAGCCTGGA 
TTGCTTGAAC GTGAGCTTGC CTACAACTCT GTTGAGAACA GTAACCATCT TCAACCCAAT 
GAAGTCTCAT ATGGACATAT ATCTTCACTA CCTCATAATG TTTTAGTCCC TCCCTCTGTC 
TCCTCCCCCC ATAAACTCCC CATTGAGACC CAGAGAAGTG AGCAGCCAGT AGCACAGAGC 
TCTGCTCAGA GTTACTGGTC ACCTGTACAA AGCGTATCAT CAGTGCCATG TCTGCAGAAA 
ATACCAGGCC AAACACCAGG GCTTGATTTT GCCCTGCCTA ATCCAGTTCC GGTAGCAAAC 
TTTGTAGAGC AAGCGGCCAC TACTGTGGGT TTCCCCCAAT GCCAGCTGTT ATATGGGCCA 
ACTACGTCAG GGACTAATGA AGTAGAATTA CAATCTGCTC CTTTTGAGCA GCCTACTGTG 
GAAGCAGTGA ATGAACACAT TGTTATTGAT TCAAGTTCTG AGGAGCTCGA GTATTCAGAG 
TTATCTGATA GTGACACAAT GGAGGAATGC TATCGTATCT TCATGGAGGA AGCCAACAAG 
GGTGAAGAGG GATCGACAGA CCAGGCTTGT ACACCTGTAG GAGCTGTGGA TGTGGAGACA 
CCAGGGTTAG CAGTGAAACC CAAACCGTTG CCAGGACCCA GGAAGAGGGT GGCCCATGTG 
TCCAGATATA CTGAGCCACC GGTGGGCAAA AGCAAAGCCC AGGTCATCGT TCCTTTCCGA 
GGAGGAGCCC CCCAGTTGTC CAACCCCTCT AAGATCCAGC AGCTGCAGCA GAGGGCCTCC 
GTTTTGTCCG CTGCTCTGAA AGGAGGCCAG GCATTCATCT CCTCCAACTC ACAGAGAAAA 
GTGGTGATGC TGCCTTCTCC TGCTCATCAG GCCAGTCATC AGGCCACCCA CCATCCAGTT 
CAATACCTCA TTCACCAGCC AACTCACCAA ACTACTATGC AAAACTCCTG TGTGAACGTC 
ATACCTGTGG GAACAGCCAT CCAGGTGGGC AACAACCTGC ACTTCATCCT CCCAGAGGGA 
AGCTACACTC TGCCCATCAC TTCAGCTAAT TCTCCAGTCA CTCCGGTCCA TACCCCGGTC 
CATACTCCAG TTACCCCTGT TCCTGTACAA CCTCAGCCTA CTGCCTATAT CCCTGCTAAG 
CCCATTCCTA CCAAACGTAA AGCCAAGATG CGTCCTGAGG TCAGCGCCAA AGTCCCACAT 
GACGTACGGC AGCGCTACGT AAACCTGTTT GTAGAGGAAT TCCTCAAAAC GTCTGTCACT 
GTACAAGATG CTTTTGAAAA GGCTCTTGCT GAGGAGAAGA CTGTGTATGA TCGCAGCATC 
AACAAACTCA AGTACCTGAG TGTTGCAGTG AATGCACTGA AGAGGCTGAA GAACCAGAGC 
TCCGTCTCTG TCAAAGCTGG AAATGAAACT AATGTCCAGC TATCCAAAGG AAATATTCCA 
CTCAATGAAA AAGCACTTTG GGCAAATGGA GATGTTGCAT TGTATGACAG TTTGAAGGAG 
CACATTCTGT CAGAGGAGAT ATTGACGGAG AATAACTATC CTCTTCAGCA CCCAGAGAAA 
TCTGGCAGTG CCATACTGTA CCGTGAAGAC TATAAAAAGG GAATCACTGA TCCTTTGAAG 
AGGATTTGCT GTCGGTGTGG TGCCACTTAC TCTGTGAACC AAGTGGGAAA GCACACTCGC 
AAGGAGGAGT GCAACTACCA CTATGGGAAA GGAGTTGAGA AGAAGGTTCC AGGTGGAGTG 
GAAACACGCT ACAGCTGCTG TGAAGGTGTG GCTGGGTGCC CTGGATGCCA AGTCTTCAAG 
CTGCATGTCC ATGATGCAGT TAGCCTGGAT GGCTTTGTCA GTACCCTTCC TAGGCCTGCC 
TCTGACAAGG GATGCCCGGG TGTGTTCTCA GTCGACTGTG AAATGTGCTA TACCACTCAA 
GGTCTGGAGC TGGCCAGAGT GACTGTTGTC AACTCCAGTT TGCAGGTCAT CTATGACACC 
TTTGTGAAAC CTGATAATGA TGTCATTGAC TACAACACCA GGTTTTCAGG CATCAATGAA 
GCTGATGTGA AAGGAACAAG CTCGTCCATC CGAGACGTTC AGGAGACTCT ACTGAGCTTT 
GTCAGTGCAG AGACTATACT GATCGGCTAC GGCTTGGAAT CTGACCTCTG TGCATTAAAG 
CTGCTCCATG GCACCGTGGT GGACACCTCT GTGTCGTTCC CCCACCGCCT GGGCCTGCCT 
CATAAGATGA CCCTCCACAA CCTGACAGCA GACTACCTCA GGAGGATCAT CCAGGAGAGT 
GTGGGTGGCC ATGACTCAGC AGAAGATGCT GTTGCCTGTA TGGAGCTCAT GCTGTGGAAA 
GTCAAAGAAG ATGGCAAAAC TAAACGATGG TGA

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

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LOC106585729 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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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