LOC106606554 cDNA ORF clone, Salmo salar(Atlantic salmon)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC106606554
Entrez Gene ID	106606554
Full Name	poly [ADP-ribose] polymerase 14-like
Gene Type	protein-coding
Organism	Salmo salar(Atlantic salmon)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014202843.1	XP_014058318.1	poly [ADP-ribose] polymerase 14-like isoform X1
XM_014202844.1	XP_014058319.1	poly [ADP-ribose] polymerase 14-like isoform X2

Pathways from BioSystems
Gene Ontology

The following LOC106606554 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106606554 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
OAt20752	XM_014202843.1 Latest version!	Salmo salar poly [ADP-ribose] polymerase 14-like (LOC106606554), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00
OAt20753	XM_014202844.1 Latest version!	Salmo salar poly [ADP-ribose] polymerase 14-like (LOC106606554), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

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)

LOC106606554 ( XM_014202843.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014058318.1 Salmo salar poly [ADP-ribose] polymerase 14-like (LOC106606554), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAt20752
Clone ID Related Accession (Same CDS sequence)	XM_014202843.1
Accession Version	XM_014202843.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4914bp) 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	poly [ADP-ribose] polymerase 14-like isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012335090.1) and transcript sequence (GBRB01014314.1) 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## assembly gap :: added 374 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGCAGAAT CATACTTATT TTCCATGCTT GTTGAGCTCG AAGGAAACCC AGATATTCCT 
AAACTAAAAA ACAAGTTGGT TAAATATTTT CAAAGTAAAA AGTCATCCAA CGGCGGTGAT 
TGTCTAGTTG AATATGACAT CTCAAAGGGA CAAGGAACAG TTGTGCGGTT CCGGACTGCA 
GAGGCGAGGC AGATGGTTCT TGAAAAGCAA GAACACAAGA TCAAGTTGGA TCAAGGTGTG 
CTTAAACTGA TTCTTCGTCT ACCATCAGAT GAGGTCACAA GTGCACAGGA AATACCATCT 
GCTGTCAACT CAGGCAAACA ATCTGCTGTT GTTCCAAAAG ACTTACCTGA GAGTGGGGAT 
GGAGAAACAG CCTGTCCTGA GGACAGTGCA AGTGCAGCAA CAGATAAGAC AGAGCTGCAA 
TCCACCTCAG CAGTGTTGGG AAACATTCAG GAAAGTATGA ACCAGTCATT TCTGGAGATG 
TTGGTAGAGA ACATCATGAA TGCCCAAACC TCAGCTTCTC CTACTGCATC ACAGAGATTC 
AGTCTGGAAA TCCTGCCTGA CATCAGTATG GCTATAGTGA CTTTCCAAAA TGTAAAAGAT 
ACTGAGTACT TTATATCAAA CTGCACCAGC CACAAGATAT TCAAGCAGAA AGAATTATCA 
GTAAAACTAC TGGAAATCAC AGCAAAAGTG AAAGTTGAAA ACATACCTCC AAATTACAGT 
TCAGACCATC TCCCTCTGTA CTATGAAAAA GAAGGTGAGG TTGTCGACAT TGAAATGTGT 
GAAGAGGACC AATCCGCTAT CATCACTTTC CAAGATCCAC ACGCTGTTCA CAGAGTCACA 
AAAAAGCACC ACGATGAGAA GCAGCCTATC AAAGCTTTCC CATTTTATGA ATCTCTGGGA 
ACGGCCCTGT ATGACAAAGA TCAACCCACA TTGAAACTCC CAGCTGCCTT CACTGAGAAC 
ATCGACCAGT CCATTTGGAG ATACCTTTGT GACAAGCAGG AAGCTACTGC GACCATCAAC 
AAGATTATGG CCGAAAACTT CTGCAAAGTA GACCTGCAAC ACCACACTGT CCAGTTAAGG 
CCCCTACCAT CTCTACTCAA ACAGAAAGAC GTCAAAGCCA AGCATGTCCA GCAGTGGAAG 
GACACTGTCA AGGCTACCTT TACTCAAGCC TTGTCTAAAT TCAAATCCTT GGAGCTGCAT 
GTACAGGACT GTGCATGGGA GGAGTCTGAA AAGGAGATCT GCAAGGCAAT GTCTGGTGAG 
GCAGTGGTTG TAGTCCCTGA TAAGGCCAAA GGTGCACTCA TAGTGGTGGG CTTGGTAGAT 
GAAGTAGATA GGCTCAGTCA GTCACTAAAT GAAATCATGG ACAAGATTGC CAGAATAATT 
GAGAGGGAGA AGACTAGCAA AACAGAGGAG CTCCACCTGC CTCCATCAAT CTACCATGTA 
ATTTCACAAG ATGGTCTGCA AGGCAAGATT GCAGGTGAAT ACCCAGAACT GAAGATGGCA 
TACAACCGTG AGAGCCAGAA TGTGACCTTA ACCGGCTTAA TGCACGAGGT GTGGGGTGCT 
AATAGGAAGA TTATAGATGG GGTGTCGGCA CTGAAACGGA AGAAGGTGGA AGTGAGCAAC 
TACGTCCTTG AGTTTCTGCA GGAGGAAGAC CAAGAAAAGC TTAGCAACTC TCTTTTCACG 
TCACAGAGTG TTAACGCAGC ACTGGAAATA GATAGAAATG GAGTGGAGCT CCTGGCTGTC 
TCAGACCTGG CCTTGAGCGA AGCAAAAAGC CAACTTGAAA AATGTTTGGT TTCCAAGTAC 
TTAGATGTTG AAGACTCCAA TGTCCTGGAG ATGTCAGGGT GGAAGGACCT TACCTCCCGT 
TTGGAAAAAA CATACAACAT TTTGTCTACG ACTTTCATGG TGAAGACGTC TGGTGTCCAT 
CCAAATATAA AAGTGGTAGT GGCTGGCAAT ACGAACATTG TCAATTCAGT GCAAAAGGAA 
CTTGGTGGCT TCTTATTTCA AAATGCTTCA GTTGATGAAA TTCTTCAGAT TAAGTCAAAC 
GCCATTGTCA AATTCATCCA AGAAAAAAAG AGTGCTTGGT CCGATATAGT CAAAGGTGGA 
GTAAAGGTTT CTTTCCAGGA TGGGGCCATT TGCCTTAGTG GCATCAGGGT TCATGTCTCT 
GACTGCTTGA CCTTATTTAA AGACCTGGTA TCATCAACAT ACTTTGATAC TTTGCAAGTC 
CCCGAACCTG GAGCAAAGAA GTTCTTCCAG GACGCGGAGG CCATGTACGT TGAAGCCGTC 
AAAATGAAGA CAGCTTGTGT AATCCAGCTG GTTGATGAGA TGCATCTGGT GAACAATGAC 
AAGACAGTCC AGGCTATGGA GGAAATGGTG CTGAATGAGT TTGGGAACCA TGGGGAAAAT 
AATCTGCAAC AGCATCTGGC CATATCCACA GAGACCCAGC ATTATAGATG GGAGCAGAGC 
ACAAGTGGGT CAGAGAGAGC GCAGACCAAA GAGGGGCTGA CCATCACACT GATAAAAGGA 
AACATCCAAG ATGCTTTGAC TGAGGTTGTT GTGAATACAG TTGGTGATGA CCTAATACTG 
GATAGTGGAG CAGTCTCAAC TGCACTCCTT AATGCTGCTG GCCCCGAACT TCAGGAACTG 
ATAAACCAAC ATGCCACTGC TGGCAAGGTT GGGGAAGTCA TCATCACCAA AGGCTGCAAC 
CTCAAAAGCA AGCTGGTCTT TCATACCATT GCTCCTAGAT GGAGTAATGG ACAAGGAGCA 
GCACAGAAGA CATTGAGTGA GATCGTGAAG AAGTGCTTGG TTCTGGCGGA GCAGCAGCAA 
CTAATGTCAG TGACCTTCCC CGCCATCGGC ACAGGAAACC TGGGCTTCCC CAGAGACCTG 
GTGGCCTCTC TGATGCTGGA TAAAGTCCTC AAATTCAGCA GTAAGATGAA CCCCAAGCAT 
TTGAAGGAGG TGGTGTTCAT CCTCCACCCA AGTGATGTGC CGACTTTCAA GGCTTTCACT 
GACGAATTTA ACAAAAGGTT CATGACCCAG TCTGCAATTT CAAAGGGCTC AGCATCCACT 
CAACAAGGGA TTTTCTCTAA GATCACTTCA AGCTCAGGGA TGCATGAGAC AACGATGGGA 
GGGGTGGTTA TACAGGTCGT CACAGGAGAC ATAACCAAAG AGACTACTGA CGTCATCGTC 
AACTCCACCA ATAAGACCTT CAACCTTAAG ACAGGGGTCT CAAAAGCCAT TCTGGATGCA 
GCTGGTCCGA CAGTGGAGGC AGAGTGTCAA CAACTATCAG CCCAGCCTAT AAAAGACATG 
ATTTTGACCG AGCCAGGCAA CCTGCAGAGT AAGAAAATCC TTCACCTGGT TGGCATCAAT 
GACCCTCAGA ACATCCAGGA GTGTGTCAAG GGTGCACTTA AAATGTGCTC AAGGAAAGAC 
TTCACATCCA TCTCATTTCC TGCTCTCGGC ACAGGCAAAG GCAATGTGCA GGTGAGCCAG 
GTGGCGGACG CCATGTTAGA TGCGCTAGTG GAAGTGGTGG GCAAGAAGTC AGTGAACACC 
TTGAGGCTGG TCCGGATTGT CATCTTTCAG ACTGCCATGC TGACTGAATT TTACAACAGT 
ATGCTGAAGA AGGAAGACAC AGGTGCTCAG GAAGAGGAGG ACACTGATGC ACACGAGGCG 
GGCACTGACC TGTTTAAAGC CTTTGAAAAC ATTGGCACCA AAATAAAATC ATTGTTCATT 
AGGAGTAAAG TTAATAAGCC ACAAAAGCAT GAGAGATTTG TCTTCATGGA TAAAGAAGTG 
GATCCGACTT GCTTCCACAT CTGTGGGGAT TCTCAGGCTA AAGTAGACGA AGCCAAGCAG 
TGGGTCAAGG ACCTGATCTT GAAGGAGCAA AACAGCATCA GCATCACTGA CGAGGCCATC 
ATCAACTTAT CAAATTCTGA CTGCCAGTGC ATTAGTAACA TGATCAACAC CATGGGAGTG 
AGAGTGGAAC AGGAGTCATC TAAAGCCACG CTGACTATAG AGGGCATCAC CAAAGATGTG 
CTCAAAGTTA CTACTGAAAT CCAGAAGATG CTCCAAAGAG TCCGTAGTGA AGAGGAACTC 
AATAGGAGTG CTGAGCTTGC CAGCACCATG GTGGAATGGC AATACCAGCA CCAGGGGGGC 
CAGTACCAAA GCTTCGACCT CATCCACAAC TTCCATCTGG AGCAGGCAAA TGAGACCAAG 
AAGCAGCATG TGGAGGTCAC TATCCAAGGT CAGATGTACA AGGTCACCCT GCCAAATGGG 
CCTGCGACAG ATAACCATGG CAACAGCCTC GATATCAGAC GCATTGACAA AGCAGCTCAT 
GACAGTCTTC CTCAGTATTG GGATGCCATG CCAGACAACT CTTCATGCCA GTCCTTCCCC 
ATCCAGCCAG GAACCTCTGA GCATGATGAG GTCCTAGGCC TGTTTCAGGC CACTTGCCAA 
AACACTGTTC TAAAGATTGA GAGGATCCAG AACCCAAGCC TGTGGAAGAA TCTCCAGATC 
AAAAAACAAG AAATGGATTC CAAGAACAGG CACCAGAACA ATGAGAAGAG GCTGTTCCAT 
GGAACTTGCC CCCAAATCAT AGATAAAATC AATGCAAATG GGTTCAATCG GAGCTACGCT 
GGGAAAAATG CGGCAGCGTA TGGAAACGGC ACCTACTTTG CAGTTGAGGC CAGCTACTCT 
GCCGATGACA CATACTCAGT CCCAGATTCC CAAGGGCAGA AGCACATGTA CTTGTGCCAT 
GTTCTGACTG GAGATTTCAC AGAAGGAGAA CAATATATGA TCGTGCCTCC AGCTAAAAGC 
AAATCAACTA CTCAACTCTA TGACAGCGTG ACAGACGACC CAACAGCACC ATCCATGTTT 
ATTGTATTCA ACGACATCCA GGCTTATCCT GCGTACTTGA TCACTTTCAT CTAG

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

RefSeq	XP_014058318.1
CDS	53..4966
Translation	MAESYLFSMLVELEGNPDIPKLKNKLVKYFQSKKSSNGGDCLVEYDISKGQGTVVRFRTAEARQMVLEKQEHKIKLDQGVLKLILRLPSDEVTSAQEIPSAVNSGKQSAVVPKDLPESGDGETACPEDSASAATDKTELQSTSAVLGNIQESMNQSFLEMLVENIMNAQTSASPTASQRFSLEILPDISMAIVTFQNVKDTEYFISNCTSHKIFKQKELSVKLLEITAKVKVENIPPNYSSDHLPLYYEKEGEVVDIEMCEEDQSAIITFQDPHAVHRVTKKHHDEKQPIKAFPFYESLGTALYDKDQPTLKLPAAFTENIDQSIWRYLCDKQEATATINKIMAENFCKVDLQHHTVQLRPLPSLLKQKDVKAKHVQQWKDTVKATFTQALSKFKSLELHVQDCAWEESEKEICKAMSGEAVVVVPDKAKGALIVVGLVDEVDRLSQSLNEIMDKIARIIEREKTSKTEELHLPPSIYHVISQDGLQGKIAGEYPELKMAYNRESQNVTLTGLMHEVWGANRKIIDGVSALKRKKVEVSNYVLEFLQEEDQEKLSNSLFTSQSVNAALEIDRNGVELLAVSDLALSEAKSQLEKCLVSKYLDVEDSNVLEMSGWKDLTSRLEKTYNILSTTFMVKTSGVHPNIKVVVAGNTNIVNSVQKELGGFLFQNASVDEILQIKSNAIVKFIQEKKSAWSDIVKGGVKVSFQDGAICLSGIRVHVSDCLTLFKDLVSSTYFDTLQVPEPGAKKFFQDAEAMYVEAVKMKTACVIQLVDEMHLVNNDKTVQAMEEMVLNEFGNHGENNLQQHLAISTETQHYRWEQSTSGSERAQTKEGLTITLIKGNIQDALTEVVVNTVGDDLILDSGAVSTALLNAAGPELQELINQHATAGKVGEVIITKGCNLKSKLVFHTIAPRWSNGQGAAQKTLSEIVKKCLVLAEQQQLMSVTFPAIGTGNLGFPRDLVASLMLDKVLKFSSKMNPKHLKEVVFILHPSDVPTFKAFTDEFNKRFMTQSAISKGSASTQQGIFSKITSSSGMHETTMGGVVIQVVTGDITKETTDVIVNSTNKTFNLKTGVSKAILDAAGPTVEAECQQLSAQPIKDMILTEPGNLQSKKILHLVGINDPQNIQECVKGALKMCSRKDFTSISFPALGTGKGNVQVSQVADAMLDALVEVVGKKSVNTLRLVRIVIFQTAMLTEFYNSMLKKEDTGAQEEEDTDAHEAGTDLFKAFENIGTKIKSLFIRSKVNKPQKHERFVFMDKEVDPTCFHICGDSQAKVDEAKQWVKDLILKEQNSISITDEAIINLSNSDCQCISNMINTMGVRVEQESSKATLTIEGITKDVLKVTTEIQKMLQRVRSEEELNRSAELASTMVEWQYQHQGGQYQSFDLIHNFHLEQANETKKQHVEVTIQGQMYKVTLPNGPATDNHGNSLDIRRIDKAAHDSLPQYWDAMPDNSSCQSFPIQPGTSEHDEVLGLFQATCQNTVLKIERIQNPSLWKNLQIKKQEMDSKNRHQNNEKRLFHGTCPQIIDKINANGFNRSYAGKNAAAYGNGTYFAVEASYSADDTYSVPDSQGQKHMYLCHVLTGDFTEGEQYMIVPPAKSKSTTQLYDSVTDDPTAPSMFIVFNDIQAYPAYLITFI

Target ORF information:

RefSeq Version	XM_014202843.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar poly [ADP-ribose] polymerase 14-like (LOC106606554), transcript variant X1, mRNA.

Target ORF information:

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

XM_014202843.1

ORF Insert Sequence:

ATGGCAGAAT CATACTTATT TTCCATGCTT GTTGAGCTCG AAGGAAACCC AGATATTCCT 
AAACTAAAAA ACAAGTTGGT TAAATATTTT CAAAGTAAAA AGTCATCCAA CGGCGGTGAT 
TGTCTAGTTG AATATGACAT CTCAAAGGGA CAAGGAACAG TTGTGCGGTT CCGGACTGCA 
GAGGCGAGGC AGATGGTTCT TGAAAAGCAA GAACACAAGA TCAAGTTGGA TCAAGGTGTG 
CTTAAACTGA TTCTTCGTCT ACCATCAGAT GAGGTCACAA GTGCACAGGA AATACCATCT 
GCTGTCAACT CAGGCAAACA ATCTGCTGTT GTTCCAAAAG ACTTACCTGA GAGTGGGGAT 
GGAGAAACAG CCTGTCCTGA GGACAGTGCA AGTGCAGCAA CAGATAAGAC AGAGCTGCAA 
TCCACCTCAG CAGTGTTGGG AAACATTCAG GAAAGTATGA ACCAGTCATT TCTGGAGATG 
TTGGTAGAGA ACATCATGAA TGCCCAAACC TCAGCTTCTC CTACTGCATC ACAGAGATTC 
AGTCTGGAAA TCCTGCCTGA CATCAGTATG GCTATAGTGA CTTTCCAAAA TGTAAAAGAT 
ACTGAGTACT TTATATCAAA CTGCACCAGC CACAAGATAT TCAAGCAGAA AGAATTATCA 
GTAAAACTAC TGGAAATCAC AGCAAAAGTG AAAGTTGAAA ACATACCTCC AAATTACAGT 
TCAGACCATC TCCCTCTGTA CTATGAAAAA GAAGGTGAGG TTGTCGACAT TGAAATGTGT 
GAAGAGGACC AATCCGCTAT CATCACTTTC CAAGATCCAC ACGCTGTTCA CAGAGTCACA 
AAAAAGCACC ACGATGAGAA GCAGCCTATC AAAGCTTTCC CATTTTATGA ATCTCTGGGA 
ACGGCCCTGT ATGACAAAGA TCAACCCACA TTGAAACTCC CAGCTGCCTT CACTGAGAAC 
ATCGACCAGT CCATTTGGAG ATACCTTTGT GACAAGCAGG AAGCTACTGC GACCATCAAC 
AAGATTATGG CCGAAAACTT CTGCAAAGTA GACCTGCAAC ACCACACTGT CCAGTTAAGG 
CCCCTACCAT CTCTACTCAA ACAGAAAGAC GTCAAAGCCA AGCATGTCCA GCAGTGGAAG 
GACACTGTCA AGGCTACCTT TACTCAAGCC TTGTCTAAAT TCAAATCCTT GGAGCTGCAT 
GTACAGGACT GTGCATGGGA GGAGTCTGAA AAGGAGATCT GCAAGGCAAT GTCTGGTGAG 
GCAGTGGTTG TAGTCCCTGA TAAGGCCAAA GGTGCACTCA TAGTGGTGGG CTTGGTAGAT 
GAAGTAGATA GGCTCAGTCA GTCACTAAAT GAAATCATGG ACAAGATTGC CAGAATAATT 
GAGAGGGAGA AGACTAGCAA AACAGAGGAG CTCCACCTGC CTCCATCAAT CTACCATGTA 
ATTTCACAAG ATGGTCTGCA AGGCAAGATT GCAGGTGAAT ACCCAGAACT GAAGATGGCA 
TACAACCGTG AGAGCCAGAA TGTGACCTTA ACCGGCTTAA TGCACGAGGT GTGGGGTGCT 
AATAGGAAGA TTATAGATGG GGTGTCGGCA CTGAAACGGA AGAAGGTGGA AGTGAGCAAC 
TACGTCCTTG AGTTTCTGCA GGAGGAAGAC CAAGAAAAGC TTAGCAACTC TCTTTTCACG 
TCACAGAGTG TTAACGCAGC ACTGGAAATA GATAGAAATG GAGTGGAGCT CCTGGCTGTC 
TCAGACCTGG CCTTGAGCGA AGCAAAAAGC CAACTTGAAA AATGTTTGGT TTCCAAGTAC 
TTAGATGTTG AAGACTCCAA TGTCCTGGAG ATGTCAGGGT GGAAGGACCT TACCTCCCGT 
TTGGAAAAAA CATACAACAT TTTGTCTACG ACTTTCATGG TGAAGACGTC TGGTGTCCAT 
CCAAATATAA AAGTGGTAGT GGCTGGCAAT ACGAACATTG TCAATTCAGT GCAAAAGGAA 
CTTGGTGGCT TCTTATTTCA AAATGCTTCA GTTGATGAAA TTCTTCAGAT TAAGTCAAAC 
GCCATTGTCA AATTCATCCA AGAAAAAAAG AGTGCTTGGT CCGATATAGT CAAAGGTGGA 
GTAAAGGTTT CTTTCCAGGA TGGGGCCATT TGCCTTAGTG GCATCAGGGT TCATGTCTCT 
GACTGCTTGA CCTTATTTAA AGACCTGGTA TCATCAACAT ACTTTGATAC TTTGCAAGTC 
CCCGAACCTG GAGCAAAGAA GTTCTTCCAG GACGCGGAGG CCATGTACGT TGAAGCCGTC 
AAAATGAAGA CAGCTTGTGT AATCCAGCTG GTTGATGAGA TGCATCTGGT GAACAATGAC 
AAGACAGTCC AGGCTATGGA GGAAATGGTG CTGAATGAGT TTGGGAACCA TGGGGAAAAT 
AATCTGCAAC AGCATCTGGC CATATCCACA GAGACCCAGC ATTATAGATG GGAGCAGAGC 
ACAAGTGGGT CAGAGAGAGC GCAGACCAAA GAGGGGCTGA CCATCACACT GATAAAAGGA 
AACATCCAAG ATGCTTTGAC TGAGGTTGTT GTGAATACAG TTGGTGATGA CCTAATACTG 
GATAGTGGAG CAGTCTCAAC TGCACTCCTT AATGCTGCTG GCCCCGAACT TCAGGAACTG 
ATAAACCAAC ATGCCACTGC TGGCAAGGTT GGGGAAGTCA TCATCACCAA AGGCTGCAAC 
CTCAAAAGCA AGCTGGTCTT TCATACCATT GCTCCTAGAT GGAGTAATGG ACAAGGAGCA 
GCACAGAAGA CATTGAGTGA GATCGTGAAG AAGTGCTTGG TTCTGGCGGA GCAGCAGCAA 
CTAATGTCAG TGACCTTCCC CGCCATCGGC ACAGGAAACC TGGGCTTCCC CAGAGACCTG 
GTGGCCTCTC TGATGCTGGA TAAAGTCCTC AAATTCAGCA GTAAGATGAA CCCCAAGCAT 
TTGAAGGAGG TGGTGTTCAT CCTCCACCCA AGTGATGTGC CGACTTTCAA GGCTTTCACT 
GACGAATTTA ACAAAAGGTT CATGACCCAG TCTGCAATTT CAAAGGGCTC AGCATCCACT 
CAACAAGGGA TTTTCTCTAA GATCACTTCA AGCTCAGGGA TGCATGAGAC AACGATGGGA 
GGGGTGGTTA TACAGGTCGT CACAGGAGAC ATAACCAAAG AGACTACTGA CGTCATCGTC 
AACTCCACCA ATAAGACCTT CAACCTTAAG ACAGGGGTCT CAAAAGCCAT TCTGGATGCA 
GCTGGTCCGA CAGTGGAGGC AGAGTGTCAA CAACTATCAG CCCAGCCTAT AAAAGACATG 
ATTTTGACCG AGCCAGGCAA CCTGCAGAGT AAGAAAATCC TTCACCTGGT TGGCATCAAT 
GACCCTCAGA ACATCCAGGA GTGTGTCAAG GGTGCACTTA AAATGTGCTC AAGGAAAGAC 
TTCACATCCA TCTCATTTCC TGCTCTCGGC ACAGGCAAAG GCAATGTGCA GGTGAGCCAG 
GTGGCGGACG CCATGTTAGA TGCGCTAGTG GAAGTGGTGG GCAAGAAGTC AGTGAACACC 
TTGAGGCTGG TCCGGATTGT CATCTTTCAG ACTGCCATGC TGACTGAATT TTACAACAGT 
ATGCTGAAGA AGGAAGACAC AGGTGCTCAG GAAGAGGAGG ACACTGATGC ACACGAGGCG 
GGCACTGACC TGTTTAAAGC CTTTGAAAAC ATTGGCACCA AAATAAAATC ATTGTTCATT 
AGGAGTAAAG TTAATAAGCC ACAAAAGCAT GAGAGATTTG TCTTCATGGA TAAAGAAGTG 
GATCCGACTT GCTTCCACAT CTGTGGGGAT TCTCAGGCTA AAGTAGACGA AGCCAAGCAG 
TGGGTCAAGG ACCTGATCTT GAAGGAGCAA AACAGCATCA GCATCACTGA CGAGGCCATC 
ATCAACTTAT CAAATTCTGA CTGCCAGTGC ATTAGTAACA TGATCAACAC CATGGGAGTG 
AGAGTGGAAC AGGAGTCATC TAAAGCCACG CTGACTATAG AGGGCATCAC CAAAGATGTG 
CTCAAAGTTA CTACTGAAAT CCAGAAGATG CTCCAAAGAG TCCGTAGTGA AGAGGAACTC 
AATAGGAGTG CTGAGCTTGC CAGCACCATG GTGGAATGGC AATACCAGCA CCAGGGGGGC 
CAGTACCAAA GCTTCGACCT CATCCACAAC TTCCATCTGG AGCAGGCAAA TGAGACCAAG 
AAGCAGCATG TGGAGGTCAC TATCCAAGGT CAGATGTACA AGGTCACCCT GCCAAATGGG 
CCTGCGACAG ATAACCATGG CAACAGCCTC GATATCAGAC GCATTGACAA AGCAGCTCAT 
GACAGTCTTC CTCAGTATTG GGATGCCATG CCAGACAACT CTTCATGCCA GTCCTTCCCC 
ATCCAGCCAG GAACCTCTGA GCATGATGAG GTCCTAGGCC TGTTTCAGGC CACTTGCCAA 
AACACTGTTC TAAAGATTGA GAGGATCCAG AACCCAAGCC TGTGGAAGAA TCTCCAGATC 
AAAAAACAAG AAATGGATTC CAAGAACAGG CACCAGAACA ATGAGAAGAG GCTGTTCCAT 
GGAACTTGCC CCCAAATCAT AGATAAAATC AATGCAAATG GGTTCAATCG GAGCTACGCT 
GGGAAAAATG CGGCAGCGTA TGGAAACGGC ACCTACTTTG CAGTTGAGGC CAGCTACTCT 
GCCGATGACA CATACTCAGT CCCAGATTCC CAAGGGCAGA AGCACATGTA CTTGTGCCAT 
GTTCTGACTG GAGATTTCAC AGAAGGAGAA CAATATATGA TCGTGCCTCC AGCTAAAAGC 
AAATCAACTA CTCAACTCTA TGACAGCGTG ACAGACGACC CAACAGCACC ATCCATGTTT 
ATTGTATTCA ACGACATCCA GGCTTATCCT GCGTACTTGA TCACTTTCAT CTAG

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

LOC106606554 ( XM_014202844.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014058319.1 Salmo salar poly [ADP-ribose] polymerase 14-like (LOC106606554), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAt20753
Clone ID Related Accession (Same CDS sequence)	XM_014202844.1
Accession Version	XM_014202844.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4911bp) 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	poly [ADP-ribose] polymerase 14-like isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012335090.1) and transcript sequence (GBRB01014314.1) 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## assembly gap :: added 374 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGGCAGAAT CATACTTATT TTCCATGCTT GTTGAGCTCG AAGGAAACCC AGATATTCCT 
AAACTAAAAA ACAAGTTGGT TAAATATTTT CAAAGTAAAA AGTCATCCAA CGGCGGTGAT 
TGTCTAGTTG AATATGACAT CTCAAAGGGA CAAGGAACAG TTGTGCGGTT CCGGACTGCA 
GAGGCGAGGC AGATGGTTCT TGAAAAGCAA GAACACAAGA TCAAGTTGGA TCAAGGTGTG 
CTTAAACTGA TTCTTCGTCT ACCATCAGAT GAGGTCACAA GTGCACAGGA AATACCATCT 
GCTGTCAACT CAGGCAAACA ATCTGCTGTT GTTCCAAAAG ACTTACCTGA GAGTGGGGAT 
GGAGAAACAG CCTGTCCTGA GGACAGTGCA AGTGCAGCAA CAGATAAGAC AGAGCTGCAA 
TCCACCTCAG CAGTGTTGGG AAACATTCAG GAAAGTATGA ACCAGTCATT TCTGGAGATG 
TTGGTAGAGA ACATCATGAA TGCCCAAACC TCAGCTTCTC CTACTGCATC ACAGAGATTC 
AGTCTGGAAA TCCTGCCTGA CATCAGTATG GCTATAGTGA CTTTCCAAAA TGTAAAAGAT 
ACTGAGTACT TTATATCAAA CTGCACCAGC CACAAGATAT TCAAGCAGAA AGAATTATCA 
GTAAAACTAC TGGAAATCAC AGCAAAAGTG AAAGTTGAAA ACATACCTCC AAATTACAGT 
TCAGACCATC TCCCTCTGTA CTATGAAAAA GAAGGTGAGG TTGTCGACAT TGAAATGTGT 
GAAGAGGACC AATCCGCTAT CATCACTTTC CAAGATCCAC ACGCTGTTCA CAGAGTCACA 
AAAAAGCACC ACGATGAGAA GCAGCCTATC AAAGCTTTCC CATTTTATGA ATCTCTGGGA 
ACGGCCCTGT ATGACAAAGA TCAACCCACA TTGAAACTCC CAGCTGCCTT CACTGAGAAC 
ATCGACCAGT CCATTTGGAG ATACCTTTGT GACAAGCAGG AAGCTACTGC GACCATCAAC 
AAGATTATGG CCGAAAACTT CTGCAAAGTA GACCTGCAAC ACCACACTGT CCAGTTAAGG 
CCCCTACCAT CTCTACTCAA ACAGAAAGAC GTCAAAGCCA AGCATGTCCA GCAGTGGAAG 
GACACTGTCA AGGCTACCTT TACTCAAGCC TTGTCTAAAT TCAAATCCTT GGAGCTGCAT 
GTACAGGACT GTGCATGGGA GGAGTCTGAA AAGGAGATCT GCAAGGCAAT GTCTGGTGAG 
GCAGTGGTTG TAGTCCCTGA TAAGGCCAAA GGTGCACTCA TAGTGGTGGG CTTGGTAGAT 
GAAGTAGATA GGCTCAGTCA GTCACTAAAT GAAATCATGG ACAAGATTGC CAGAATAATT 
GAGAGGGAGA AGACTAGCAA AACAGAGGAG CTCCACCTGC CTCCATCAAT CTACCATGTA 
ATTTCACAAG ATGGTCTGCA AGGCAAGATT GCAGGTGAAT ACCCAGAACT GAAGATGGCA 
TACAACCGTG AGAGCCAGAA TGTGACCTTA ACCGGCTTAA TGCACGAGGT GTGGGGTGCT 
AATAGGAAGA TTATAGATGG GGTGTCGGCA CTGAAACGGA AGAAGGTGGA AGTGAGCAAC 
TACGTCCTTG AGTTTCTGCA GGAGGAAGAC CAAGAAAAGC TTAGCAACTC TCTTTTCACG 
TCACAGAGTG TTAACGCAGC ACTGGAAATA GATAGAAATG GAGTGGAGCT CCTGGCTGTC 
TCAGACCTGG CCTTGAGCGA AGCAAAAAGC CAACTTGAAA AATGTTTGGT TTCCAAGTAC 
TTAGATGTTG AAGACTCCAA TGTCCTGGAG ATGTCAGGGT GGAAGGACCT TACCTCCCGT 
TTGGAAAAAA CATACAACAT TTTGTCTACG ACTTTCATGG TGAAGACGTC TGGTGTCCAT 
CCAAATATAA AAGTGGTAGT GGCTGGCAAT ACGAACATTG TCAATTCAGT GCAAAAGGAA 
CTTGGTGGCT TCTTATTTCA AAATGCTTCA GTTGATGAAA TTCTTCAGAT TAAGTCAAAC 
GCCATTGTCA AATTCATCCA AGAAAAAAAG AGTGCTTGGT CCGATATAGT CAAAGGTGGA 
GTAAAGGTTT CTTTCCAGGA TGGGGCCATT TGCCTTAGTG GCATCAGGGT TCATGTCTCT 
GACTGCTTGA CCTTATTTAA AGACCTGGTA TCATCAACAT ACTTTGATAC TTTGCAAGTC 
CCCGAACCTG GAGCAAAGAA GTTCTTCCAG GACGCGGAGG CCATGTACGT TGAAGCCGTC 
AAAATGAAGA CAGCTTGTGT AATCCAGCTG GTTGATGAGA TGCATCTGGT GAACAATGAC 
AAGACAGTCC AGGCTATGGA GGAAATGGTG CTGAATGAGT TTGGGAACCA TGGGGAAAAT 
AATCTGCAAC AGCATCTGGC CATATCCACA GAGACCCAGC ATTATAGATG GGAGCAGAGC 
ACAAGTGGGT CAGAGAGAGC GCAGACCAAA GAGGGGCTGA CCATCACACT GATAAAAGGA 
AACATCCAAG ATGCTTTGAC TGAGGTTGTT GTGAATACAG TTGGTGATGA CCTAATACTG 
GATAGTGGAG CAGTCTCAAC TGCACTCCTT AATGCTGCTG GCCCCGAACT TCAGGAACTG 
ATAAACCAAC ATGCCACTGC TGGCAAGGTT GGGGAAGTCA TCATCACCAA AGGCTGCAAC 
CTCAAAAGCA AGCTGGTCTT TCATACCATT GCTCCTAGAT GGAGTAATGG ACAAGGAGCA 
GCACAGAAGA CATTGAGTGA GATCGTGAAG AAGTGCTTGG TTCTGGCGGA GCAGCAGCAA 
CTAATGTCAG TGACCTTCCC CGCCATCGGC ACAGGAAACC TGGGCTTCCC CAGAGACCTG 
GTGGCCTCTC TGATGCTGGA TAAAGTCCTC AAATTCAGCA GTAAGATGAA CCCCAAGCAT 
TTGAAGGAGG TGGTGTTCAT CCTCCACCCA AGTGATGTGC CGACTTTCAA GGCTTTCACT 
GACGAATTTA ACAAAAGGTT CATGACCCAG TCTGCAATTT CAAAGGGCTC AGCATCCACT 
CAACAAGGGA TTTTCTCTAA GATCACTTCA AGCTCAGGGA TGCATGAGAC AACGATGGGA 
GGGGTGGTTA TACAGGTCGT CACAGGAGAC ATAACCAAAG AGACTACTGA CGTCATCGTC 
AACTCCACCA ATAAGACCTT CAACCTTAAG ACAGGGGTCT CAAAAGCCAT TCTGGATGCA 
GCTGGTCCGA CAGTGGAGGC AGAGTGTCAA CAACTATCCC AGCCTATAAA AGACATGATT 
TTGACCGAGC CAGGCAACCT GCAGAGTAAG AAAATCCTTC ACCTGGTTGG CATCAATGAC 
CCTCAGAACA TCCAGGAGTG TGTCAAGGGT GCACTTAAAA TGTGCTCAAG GAAAGACTTC 
ACATCCATCT CATTTCCTGC TCTCGGCACA GGCAAAGGCA ATGTGCAGGT GAGCCAGGTG 
GCGGACGCCA TGTTAGATGC GCTAGTGGAA GTGGTGGGCA AGAAGTCAGT GAACACCTTG 
AGGCTGGTCC GGATTGTCAT CTTTCAGACT GCCATGCTGA CTGAATTTTA CAACAGTATG 
CTGAAGAAGG AAGACACAGG TGCTCAGGAA GAGGAGGACA CTGATGCACA CGAGGCGGGC 
ACTGACCTGT TTAAAGCCTT TGAAAACATT GGCACCAAAA TAAAATCATT GTTCATTAGG 
AGTAAAGTTA ATAAGCCACA AAAGCATGAG AGATTTGTCT TCATGGATAA AGAAGTGGAT 
CCGACTTGCT TCCACATCTG TGGGGATTCT CAGGCTAAAG TAGACGAAGC CAAGCAGTGG 
GTCAAGGACC TGATCTTGAA GGAGCAAAAC AGCATCAGCA TCACTGACGA GGCCATCATC 
AACTTATCAA ATTCTGACTG CCAGTGCATT AGTAACATGA TCAACACCAT GGGAGTGAGA 
GTGGAACAGG AGTCATCTAA AGCCACGCTG ACTATAGAGG GCATCACCAA AGATGTGCTC 
AAAGTTACTA CTGAAATCCA GAAGATGCTC CAAAGAGTCC GTAGTGAAGA GGAACTCAAT 
AGGAGTGCTG AGCTTGCCAG CACCATGGTG GAATGGCAAT ACCAGCACCA GGGGGGCCAG 
TACCAAAGCT TCGACCTCAT CCACAACTTC CATCTGGAGC AGGCAAATGA GACCAAGAAG 
CAGCATGTGG AGGTCACTAT CCAAGGTCAG ATGTACAAGG TCACCCTGCC AAATGGGCCT 
GCGACAGATA ACCATGGCAA CAGCCTCGAT ATCAGACGCA TTGACAAAGC AGCTCATGAC 
AGTCTTCCTC AGTATTGGGA TGCCATGCCA GACAACTCTT CATGCCAGTC CTTCCCCATC 
CAGCCAGGAA CCTCTGAGCA TGATGAGGTC CTAGGCCTGT TTCAGGCCAC TTGCCAAAAC 
ACTGTTCTAA AGATTGAGAG GATCCAGAAC CCAAGCCTGT GGAAGAATCT CCAGATCAAA 
AAACAAGAAA TGGATTCCAA GAACAGGCAC CAGAACAATG AGAAGAGGCT GTTCCATGGA 
ACTTGCCCCC AAATCATAGA TAAAATCAAT GCAAATGGGT TCAATCGGAG CTACGCTGGG 
AAAAATGCGG CAGCGTATGG AAACGGCACC TACTTTGCAG TTGAGGCCAG CTACTCTGCC 
GATGACACAT ACTCAGTCCC AGATTCCCAA GGGCAGAAGC ACATGTACTT GTGCCATGTT 
CTGACTGGAG ATTTCACAGA AGGAGAACAA TATATGATCG TGCCTCCAGC TAAAAGCAAA 
TCAACTACTC AACTCTATGA CAGCGTGACA GACGACCCAA CAGCACCATC CATGTTTATT 
GTATTCAACG ACATCCAGGC TTATCCTGCG TACTTGATCA CTTTCATCTA G

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

RefSeq	XP_014058319.1
CDS	53..4963
Translation	MAESYLFSMLVELEGNPDIPKLKNKLVKYFQSKKSSNGGDCLVEYDISKGQGTVVRFRTAEARQMVLEKQEHKIKLDQGVLKLILRLPSDEVTSAQEIPSAVNSGKQSAVVPKDLPESGDGETACPEDSASAATDKTELQSTSAVLGNIQESMNQSFLEMLVENIMNAQTSASPTASQRFSLEILPDISMAIVTFQNVKDTEYFISNCTSHKIFKQKELSVKLLEITAKVKVENIPPNYSSDHLPLYYEKEGEVVDIEMCEEDQSAIITFQDPHAVHRVTKKHHDEKQPIKAFPFYESLGTALYDKDQPTLKLPAAFTENIDQSIWRYLCDKQEATATINKIMAENFCKVDLQHHTVQLRPLPSLLKQKDVKAKHVQQWKDTVKATFTQALSKFKSLELHVQDCAWEESEKEICKAMSGEAVVVVPDKAKGALIVVGLVDEVDRLSQSLNEIMDKIARIIEREKTSKTEELHLPPSIYHVISQDGLQGKIAGEYPELKMAYNRESQNVTLTGLMHEVWGANRKIIDGVSALKRKKVEVSNYVLEFLQEEDQEKLSNSLFTSQSVNAALEIDRNGVELLAVSDLALSEAKSQLEKCLVSKYLDVEDSNVLEMSGWKDLTSRLEKTYNILSTTFMVKTSGVHPNIKVVVAGNTNIVNSVQKELGGFLFQNASVDEILQIKSNAIVKFIQEKKSAWSDIVKGGVKVSFQDGAICLSGIRVHVSDCLTLFKDLVSSTYFDTLQVPEPGAKKFFQDAEAMYVEAVKMKTACVIQLVDEMHLVNNDKTVQAMEEMVLNEFGNHGENNLQQHLAISTETQHYRWEQSTSGSERAQTKEGLTITLIKGNIQDALTEVVVNTVGDDLILDSGAVSTALLNAAGPELQELINQHATAGKVGEVIITKGCNLKSKLVFHTIAPRWSNGQGAAQKTLSEIVKKCLVLAEQQQLMSVTFPAIGTGNLGFPRDLVASLMLDKVLKFSSKMNPKHLKEVVFILHPSDVPTFKAFTDEFNKRFMTQSAISKGSASTQQGIFSKITSSSGMHETTMGGVVIQVVTGDITKETTDVIVNSTNKTFNLKTGVSKAILDAAGPTVEAECQQLSQPIKDMILTEPGNLQSKKILHLVGINDPQNIQECVKGALKMCSRKDFTSISFPALGTGKGNVQVSQVADAMLDALVEVVGKKSVNTLRLVRIVIFQTAMLTEFYNSMLKKEDTGAQEEEDTDAHEAGTDLFKAFENIGTKIKSLFIRSKVNKPQKHERFVFMDKEVDPTCFHICGDSQAKVDEAKQWVKDLILKEQNSISITDEAIINLSNSDCQCISNMINTMGVRVEQESSKATLTIEGITKDVLKVTTEIQKMLQRVRSEEELNRSAELASTMVEWQYQHQGGQYQSFDLIHNFHLEQANETKKQHVEVTIQGQMYKVTLPNGPATDNHGNSLDIRRIDKAAHDSLPQYWDAMPDNSSCQSFPIQPGTSEHDEVLGLFQATCQNTVLKIERIQNPSLWKNLQIKKQEMDSKNRHQNNEKRLFHGTCPQIIDKINANGFNRSYAGKNAAAYGNGTYFAVEASYSADDTYSVPDSQGQKHMYLCHVLTGDFTEGEQYMIVPPAKSKSTTQLYDSVTDDPTAPSMFIVFNDIQAYPAYLITFI

Target ORF information:

RefSeq Version	XM_014202844.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar poly [ADP-ribose] polymerase 14-like (LOC106606554), transcript variant X2, mRNA.

Target ORF information:

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

XM_014202844.1

ORF Insert Sequence:

ATGGCAGAAT CATACTTATT TTCCATGCTT GTTGAGCTCG AAGGAAACCC AGATATTCCT 
AAACTAAAAA ACAAGTTGGT TAAATATTTT CAAAGTAAAA AGTCATCCAA CGGCGGTGAT 
TGTCTAGTTG AATATGACAT CTCAAAGGGA CAAGGAACAG TTGTGCGGTT CCGGACTGCA 
GAGGCGAGGC AGATGGTTCT TGAAAAGCAA GAACACAAGA TCAAGTTGGA TCAAGGTGTG 
CTTAAACTGA TTCTTCGTCT ACCATCAGAT GAGGTCACAA GTGCACAGGA AATACCATCT 
GCTGTCAACT CAGGCAAACA ATCTGCTGTT GTTCCAAAAG ACTTACCTGA GAGTGGGGAT 
GGAGAAACAG CCTGTCCTGA GGACAGTGCA AGTGCAGCAA CAGATAAGAC AGAGCTGCAA 
TCCACCTCAG CAGTGTTGGG AAACATTCAG GAAAGTATGA ACCAGTCATT TCTGGAGATG 
TTGGTAGAGA ACATCATGAA TGCCCAAACC TCAGCTTCTC CTACTGCATC ACAGAGATTC 
AGTCTGGAAA TCCTGCCTGA CATCAGTATG GCTATAGTGA CTTTCCAAAA TGTAAAAGAT 
ACTGAGTACT TTATATCAAA CTGCACCAGC CACAAGATAT TCAAGCAGAA AGAATTATCA 
GTAAAACTAC TGGAAATCAC AGCAAAAGTG AAAGTTGAAA ACATACCTCC AAATTACAGT 
TCAGACCATC TCCCTCTGTA CTATGAAAAA GAAGGTGAGG TTGTCGACAT TGAAATGTGT 
GAAGAGGACC AATCCGCTAT CATCACTTTC CAAGATCCAC ACGCTGTTCA CAGAGTCACA 
AAAAAGCACC ACGATGAGAA GCAGCCTATC AAAGCTTTCC CATTTTATGA ATCTCTGGGA 
ACGGCCCTGT ATGACAAAGA TCAACCCACA TTGAAACTCC CAGCTGCCTT CACTGAGAAC 
ATCGACCAGT CCATTTGGAG ATACCTTTGT GACAAGCAGG AAGCTACTGC GACCATCAAC 
AAGATTATGG CCGAAAACTT CTGCAAAGTA GACCTGCAAC ACCACACTGT CCAGTTAAGG 
CCCCTACCAT CTCTACTCAA ACAGAAAGAC GTCAAAGCCA AGCATGTCCA GCAGTGGAAG 
GACACTGTCA AGGCTACCTT TACTCAAGCC TTGTCTAAAT TCAAATCCTT GGAGCTGCAT 
GTACAGGACT GTGCATGGGA GGAGTCTGAA AAGGAGATCT GCAAGGCAAT GTCTGGTGAG 
GCAGTGGTTG TAGTCCCTGA TAAGGCCAAA GGTGCACTCA TAGTGGTGGG CTTGGTAGAT 
GAAGTAGATA GGCTCAGTCA GTCACTAAAT GAAATCATGG ACAAGATTGC CAGAATAATT 
GAGAGGGAGA AGACTAGCAA AACAGAGGAG CTCCACCTGC CTCCATCAAT CTACCATGTA 
ATTTCACAAG ATGGTCTGCA AGGCAAGATT GCAGGTGAAT ACCCAGAACT GAAGATGGCA 
TACAACCGTG AGAGCCAGAA TGTGACCTTA ACCGGCTTAA TGCACGAGGT GTGGGGTGCT 
AATAGGAAGA TTATAGATGG GGTGTCGGCA CTGAAACGGA AGAAGGTGGA AGTGAGCAAC 
TACGTCCTTG AGTTTCTGCA GGAGGAAGAC CAAGAAAAGC TTAGCAACTC TCTTTTCACG 
TCACAGAGTG TTAACGCAGC ACTGGAAATA GATAGAAATG GAGTGGAGCT CCTGGCTGTC 
TCAGACCTGG CCTTGAGCGA AGCAAAAAGC CAACTTGAAA AATGTTTGGT TTCCAAGTAC 
TTAGATGTTG AAGACTCCAA TGTCCTGGAG ATGTCAGGGT GGAAGGACCT TACCTCCCGT 
TTGGAAAAAA CATACAACAT TTTGTCTACG ACTTTCATGG TGAAGACGTC TGGTGTCCAT 
CCAAATATAA AAGTGGTAGT GGCTGGCAAT ACGAACATTG TCAATTCAGT GCAAAAGGAA 
CTTGGTGGCT TCTTATTTCA AAATGCTTCA GTTGATGAAA TTCTTCAGAT TAAGTCAAAC 
GCCATTGTCA AATTCATCCA AGAAAAAAAG AGTGCTTGGT CCGATATAGT CAAAGGTGGA 
GTAAAGGTTT CTTTCCAGGA TGGGGCCATT TGCCTTAGTG GCATCAGGGT TCATGTCTCT 
GACTGCTTGA CCTTATTTAA AGACCTGGTA TCATCAACAT ACTTTGATAC TTTGCAAGTC 
CCCGAACCTG GAGCAAAGAA GTTCTTCCAG GACGCGGAGG CCATGTACGT TGAAGCCGTC 
AAAATGAAGA CAGCTTGTGT AATCCAGCTG GTTGATGAGA TGCATCTGGT GAACAATGAC 
AAGACAGTCC AGGCTATGGA GGAAATGGTG CTGAATGAGT TTGGGAACCA TGGGGAAAAT 
AATCTGCAAC AGCATCTGGC CATATCCACA GAGACCCAGC ATTATAGATG GGAGCAGAGC 
ACAAGTGGGT CAGAGAGAGC GCAGACCAAA GAGGGGCTGA CCATCACACT GATAAAAGGA 
AACATCCAAG ATGCTTTGAC TGAGGTTGTT GTGAATACAG TTGGTGATGA CCTAATACTG 
GATAGTGGAG CAGTCTCAAC TGCACTCCTT AATGCTGCTG GCCCCGAACT TCAGGAACTG 
ATAAACCAAC ATGCCACTGC TGGCAAGGTT GGGGAAGTCA TCATCACCAA AGGCTGCAAC 
CTCAAAAGCA AGCTGGTCTT TCATACCATT GCTCCTAGAT GGAGTAATGG ACAAGGAGCA 
GCACAGAAGA CATTGAGTGA GATCGTGAAG AAGTGCTTGG TTCTGGCGGA GCAGCAGCAA 
CTAATGTCAG TGACCTTCCC CGCCATCGGC ACAGGAAACC TGGGCTTCCC CAGAGACCTG 
GTGGCCTCTC TGATGCTGGA TAAAGTCCTC AAATTCAGCA GTAAGATGAA CCCCAAGCAT 
TTGAAGGAGG TGGTGTTCAT CCTCCACCCA AGTGATGTGC CGACTTTCAA GGCTTTCACT 
GACGAATTTA ACAAAAGGTT CATGACCCAG TCTGCAATTT CAAAGGGCTC AGCATCCACT 
CAACAAGGGA TTTTCTCTAA GATCACTTCA AGCTCAGGGA TGCATGAGAC AACGATGGGA 
GGGGTGGTTA TACAGGTCGT CACAGGAGAC ATAACCAAAG AGACTACTGA CGTCATCGTC 
AACTCCACCA ATAAGACCTT CAACCTTAAG ACAGGGGTCT CAAAAGCCAT TCTGGATGCA 
GCTGGTCCGA CAGTGGAGGC AGAGTGTCAA CAACTATCCC AGCCTATAAA AGACATGATT 
TTGACCGAGC CAGGCAACCT GCAGAGTAAG AAAATCCTTC ACCTGGTTGG CATCAATGAC 
CCTCAGAACA TCCAGGAGTG TGTCAAGGGT GCACTTAAAA TGTGCTCAAG GAAAGACTTC 
ACATCCATCT CATTTCCTGC TCTCGGCACA GGCAAAGGCA ATGTGCAGGT GAGCCAGGTG 
GCGGACGCCA TGTTAGATGC GCTAGTGGAA GTGGTGGGCA AGAAGTCAGT GAACACCTTG 
AGGCTGGTCC GGATTGTCAT CTTTCAGACT GCCATGCTGA CTGAATTTTA CAACAGTATG 
CTGAAGAAGG AAGACACAGG TGCTCAGGAA GAGGAGGACA CTGATGCACA CGAGGCGGGC 
ACTGACCTGT TTAAAGCCTT TGAAAACATT GGCACCAAAA TAAAATCATT GTTCATTAGG 
AGTAAAGTTA ATAAGCCACA AAAGCATGAG AGATTTGTCT TCATGGATAA AGAAGTGGAT 
CCGACTTGCT TCCACATCTG TGGGGATTCT CAGGCTAAAG TAGACGAAGC CAAGCAGTGG 
GTCAAGGACC TGATCTTGAA GGAGCAAAAC AGCATCAGCA TCACTGACGA GGCCATCATC 
AACTTATCAA ATTCTGACTG CCAGTGCATT AGTAACATGA TCAACACCAT GGGAGTGAGA 
GTGGAACAGG AGTCATCTAA AGCCACGCTG ACTATAGAGG GCATCACCAA AGATGTGCTC 
AAAGTTACTA CTGAAATCCA GAAGATGCTC CAAAGAGTCC GTAGTGAAGA GGAACTCAAT 
AGGAGTGCTG AGCTTGCCAG CACCATGGTG GAATGGCAAT ACCAGCACCA GGGGGGCCAG 
TACCAAAGCT TCGACCTCAT CCACAACTTC CATCTGGAGC AGGCAAATGA GACCAAGAAG 
CAGCATGTGG AGGTCACTAT CCAAGGTCAG ATGTACAAGG TCACCCTGCC AAATGGGCCT 
GCGACAGATA ACCATGGCAA CAGCCTCGAT ATCAGACGCA TTGACAAAGC AGCTCATGAC 
AGTCTTCCTC AGTATTGGGA TGCCATGCCA GACAACTCTT CATGCCAGTC CTTCCCCATC 
CAGCCAGGAA CCTCTGAGCA TGATGAGGTC CTAGGCCTGT TTCAGGCCAC TTGCCAAAAC 
ACTGTTCTAA AGATTGAGAG GATCCAGAAC CCAAGCCTGT GGAAGAATCT CCAGATCAAA 
AAACAAGAAA TGGATTCCAA GAACAGGCAC CAGAACAATG AGAAGAGGCT GTTCCATGGA 
ACTTGCCCCC AAATCATAGA TAAAATCAAT GCAAATGGGT TCAATCGGAG CTACGCTGGG 
AAAAATGCGG CAGCGTATGG AAACGGCACC TACTTTGCAG TTGAGGCCAG CTACTCTGCC 
GATGACACAT ACTCAGTCCC AGATTCCCAA GGGCAGAAGC ACATGTACTT GTGCCATGTT 
CTGACTGGAG ATTTCACAGA AGGAGAACAA TATATGATCG TGCCTCCAGC TAAAAGCAAA 
TCAACTACTC AACTCTATGA CAGCGTGACA GACGACCCAA CAGCACCATC CATGTTTATT 
GTATTCAACG ACATCCAGGC TTATCCTGCG TACTTGATCA CTTTCATCTA G

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

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LOC106606554 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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