LOC106563918 cDNA ORF clone, Salmo salar(Atlantic salmon)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC106563918
Entrez Gene ID	106563918
Full Name	nuclear pore complex protein Nup155-like
Gene Type	protein-coding
Organism	Salmo salar(Atlantic salmon)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014129879.1	XP_013985354.1	nuclear pore complex protein Nup155-like isoform X1
XM_014129867.1	XP_013985342.1	nuclear pore complex protein Nup155-like isoform X1
XM_014129873.1	XP_013985348.1	nuclear pore complex protein Nup155-like isoform X1
XM_014129888.1	XP_013985363.1	nuclear pore complex protein Nup155-like isoform X2

Pathways from BioSystems
Gene Ontology

The following LOC106563918 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106563918 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)
OAt06957	XM_014129867.1 Latest version!	Salmo salar nuclear pore complex protein Nup155-like (LOC106563918), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OAt06957	XM_014129873.1 Latest version!	Salmo salar nuclear pore complex protein Nup155-like (LOC106563918), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OAt06957	XM_014129879.1 Latest version!	Salmo salar nuclear pore complex protein Nup155-like (LOC106563918), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OAt06958	XM_014129888.1 Latest version!	Salmo salar nuclear pore complex protein Nup155-like (LOC106563918), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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*Business Day

** 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)

LOC106563918 ( XM_014129879.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_013985354.1 Salmo salar nuclear pore complex protein Nup155-like (LOC106563918), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OAt06957
Clone ID Related Accession (Same CDS sequence)	XM_014129879.1 , XM_014129867.1 , XM_014129873.1
Accession Version	XM_014129879.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4176bp) 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	nuclear pore complex protein Nup155-like isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012332742.1) 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 :: 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##

ATGCCGTCCA CCTTGGGACC CAGCAGTCCT GCTGCTGCCC TTGCGGAAGC GCTGGAGAGC 
TCTGGCCGGC TCATAGACAG ACACCTTCAG GATGACCGCT GCTTCCCTGA CCTCTCAGAG 
CTTCTTAATG TCCCCGCACA CAACATGCCA TCTTTGTCTG GGGGGTCGGA CATGGACTAC 
CCTCTTCAAG GACCTGGGCT GATCAGTGTG CCAAACCTCC CTGAGCTCAG TGCAGTCCGA 
AGGGTTCCCC TACCCCCTGA GCTGGTGGAG CAATTCAGCC ATATGCAGTG CAATTGTATG 
ATGGGAGTTT TTCCTGAAAT CTGTCGAGCA TGGCTCACCA TTGACAACGA TATCTTCATG 
TGGAATTATG AGGATGGGGG GGACGTTGCA TATTTTGACG GGCTCAGTGA AACCATCCTG 
TCCGTGGGGC TGGTCAAACC TAAAGCAGGG ATTTTCCAGC CACACATCCA CTTCCTGTTG 
GTCTTAGCCA CTCCTGTGGA TGTAGTGATC CTGGGGCTCA GCTTCCCTAA AGCTCAGGCA 
GGGTTGAATG ACAGCATGTC TGGAGGGATG CAGTTACTAC CAGACCCGCT GTACTCCATC 
CCCACAGACA ACACCTATCT CCTGGCCATT ACCTCCACCG ACCTGGGCCG CATCTTCCTG 
GCAGGGAAAG ATGGCTGCCT GTATGAGGTA GCCTACCAGG CCGAGGCAGG CTGGTTCAGC 
CAACGCTGTA AGAAGATTAA CCACTCCAAA AGCAGCCTGT CCTTCCTAGT CCCCTCTCTG 
CTCCAGTTCT CCTTCTCTGA GGACGACCCG GTAGTGCAGA TTGCCATTGA CAACTCCCGT 
AACACACTCT TCACCCGCTC AGAGAAGGGG GTTCTACAGG TGTATGATCT GGGTGTAGAC 
GGGCAGGGTA TGAGCCGTGT GGCGGCCATG TCACAGAGTT CCATCGTGGC TGCAGCAGGA 
AACGTTGCCA GGACCATAGA TCGCTCTGTG TTTAAACCCA TCATAGAGAT CTCTGTGATA 
GACAGATCGG AGTCGTCCGA CTGCCACCTG CTGGCTGTCA CTCATGCAGG AGTGCGTCTC 
TACTTCAGCA CCACTCCCTT TGCCCCACAA CACGCCAAGC AGCCAGCGGC ACGCCCTTGT 
CTGCTTGCTC TGGTCCATGT CCGCCTGCCT CCAGGCTTCT CTGCCTCCTC CACCCTGCAG 
AAGCCTGCCA AGGTCCACAA GGCTCTGCAC AGCAAAGGAG TTCTCCTGAT GGCAGCGTCT 
GAGACTGAGG ACAGTGACAT CCTGTGGTGC ATCAACCATG ACTCCTTCCC CTTTAAGAAA 
CCCCTGATGG AGGCTCAGAT GATGTCCAAT GTAGATGGCC ACTCCTGGGC GCTTTGTGCC 
ATCAAGGAGG AGAAGACACC TAAAATCTCT ACCCCCCTGA ATAAGGATCA GGTTCCCCTC 
ACTGACTCTC CTGTCGTGGT ACAGCAACAC AATGTCCCTC CGCAGAAATT TGTCCTTCTC 
TCTGCCAAGG GAAGTCACAT CTTCCACAAG TTGCGGCCGG TGGACCAGCT GCGCCACCTA 
CTGGTGAGCG GTACTGGTGG AGAGAGTGAA GAAGTCGAAC GCTTCTTCAA ACTGCACAGG 
GAGGAGCAGG CGTGTGCCAC TGCTCTGATA GTAGCCTGTT CCAGTGCTGC CTGCGACAGA 
GAGGTGTCTC AGTGGGCCAC CAGAGCCTTC TTTAGGTATG GAGGAGAGGC TCAGATGAGG 
TTCCCCTCGG CTCATTCTGC TCCTAGCAAC GTCGGAGCGC TGTTCGGCTC TCCTGTACCA 
GGGTCCCCAA TGCCGGTTGG TAGCAGTCCA ATGCCTAACC CTAGTTTCTT AGCAACACCT 
GTTCCAGGTA TGATGCCCCA GAGTGTGTCT ACGCCCTATA TACCTGCCAC GCCCATGCCC 
TCCGCCCCCA TCACTGGCAT GTCTTCTGGG CCAGAGGTGG TCTTCTCAGG GAAACACAAT 
GGCATCAGTG TCTACTTCGC ACGCATAATG GGTAATATCT GGGACGGGAG TCTTGCTGTT 
GAGAAGACCA TCAGTAAAGG AAATCAGGCT GTCAGTATTT TGGAGAGCAC AGCCAGCTCG 
TCTGATCTGG AGTCAGTTCT TCTGGAGCTC CGTGGTCTGA AGGACTTCCT GGATAAGAAC 
TCCCAGTTCA GCCCCTCGTC TCTGGGGGCA GCCAGTTTCA GCTCTCCAGC CAATCTGCAG 
CAGCGTCTGC TGGGCTTCAT GCGGCCTGAT GGAGGAGCCA GTTCTCAGCA GGTCCAGCAG 
GAGCTCCAGA GGAAGTACCA CACCGAGGCT CAGGCCTATG AGAAGATGTC CCTGCAGGGT 
ATCCAGCAGC TGGTGCATCG GTCCTGTCAG ACCCTGGCCC TGTGGAAGCT GCTGTGTGAC 
CACCAGTTCA GCCTCATCAT CTCTGAACTA CCCATGGAGT TCCAGGACCA GATGAAGGGG 
GCGAGTTTTA AGGACGTGGT GATCCGGGGT CGAGAGCTGA CTGGAGCTCT GATCACAGCC 
CTCATCAACG TCTACATCAA AGACTCCGCC TCTGTAGATG CCATCAGCAA CCACCTTAGA 
GACATCTGTC CTTTGCTGTA CAGCAGCGAC GACAGCGTCT GCTCAAAGGC TAATGAGTTG 
CTGCAGGGCT CCAGACAGAT CCAGACTAAG ATCGATAAGG AGAGAACACT GAGAGAGTCA 
CTACAACTCT ACCAGCTGAT CAGCCAACAC ACAGACCTGC CACTGGTCTG CTCCCAGTAC 
AGACAGGTGC GCTTTTATGA GGGGGTGCTT GAGCTGTGCC TGACTGCAGC GGATAAGAAG 
GATCCTCAGA GGCTGGGACC TCACTTCTAT AAGAACGGAG AACCAGAGGA GGACCAGGCT 
GGAGCGCTGG CCTTCCAGGA GAGGTTGTCA TGTTATAAGT GCATCACAGA CACCATGCAG 
GAGCTGGTGA ACCAGAGTAA AGCTGCTCCT CAGTCTCCCA GTGTCCCTAA GCAGCCAGGA 
CCCCCTGTTA TGACCTCTGA CCCTAACATG CTGAGTAATG AGGACGCCAC CGCCCACTTT 
GAGCAGGTCA TTGGTCTGGC CCAGAGGTCA CAGGATGAAC TCTTCCACAT AGCCCTCTAC 
AACTGGCTGA TACAGGCTGA CCTCACCGAC AAGCTTCTGG AGGTGAACTC TCCATACCTG 
GAGGAACACC TGATGCACAT GATCAAGCAG GACCAGAGTA AGGTGCGGAA CATGGACCTG 
CTGTGGCGGT ACTATGAGAA GAGCCGTAGC TTTGGCAAGG CAGCGCACGT CCTGGCCAGG 
CTCGCTGACA TGCACAGTAC TGAGATCTCC CTGAAGCAGA GGCTGGAGTA CATCTCCAGG 
GCCATCCTGT CAGCCAAGAG CTCCTCCTGC ATCTCTGCTC AAGGAGCTGA AGGGGAGTTC 
CTGCATGAGC TGGAGGAGAA GATGGAGGTG GTGCGTATTC AGGTCCAGAT CCAGGAGACT 
CTGAGCAGAC GTTACTCCCA GCATCCCTCT GTACAGGGAG CCATGTCACA ACTGGATTCC 
GAGCTTATGG ACATCACCAA GCTGTACGGG GAGTTTGCAG ATCACTTCCG GTTGTCTGAA 
TGCAAACTGG CCATCATCCA CTGTGCTGGT CACTCTGACC CCATCCTGGT GCACTCTCTG 
TGGCAGGAGA TCATGGAGAA AGAGCTAGGT GACAGTGTGG CCATGAGTCC AGCTGACAGG 
ATGAGAGCTC TGAGTCTCAA ACTGGTGTCT CTGGGGAAAA TCTATGCAGG AACACCTAGA 
TACTTCCCAC TGGAATTCCT GGTGAAGTTT TTGGAGCAGG AGGTGTGTCA TCTGAATTGG 
GACGTGGGCT TTGTCACCTT CACCATGCAG GAGATAGGAG TCCAGCTCCC CCGTCTGCTG 
GAGGTCTACG ACCAACTTTT CAAGACACGG GATCCGTGTT GGCAGCGTCT GAAGAAACCT 
CTCCACCTGG TAGAGTGTAT ACATGTGCTG CTGTCAGGAT ATGTAGAGGA CCCCAGCAGA 
GTACCAACAT ATGACCGACG GCGGTTCACT AATGTGTGTC TGGATAACAT CTGTGGTTAC 
CTGGTGGAGC TGCAGTCCCT GAGTCCTAAC TCTACCCTGC GGCTCACTAT CGGCAACTTC 
AAGGCCCTGC AGGCCAAGCT GGAGAAAGTT CACTGA

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

RefSeq	XP_013985354.1
CDS	157..4332
Translation	MPSTLGPSSPAAALAEALESSGRLIDRHLQDDRCFPDLSELLNVPAHNMPSLSGGSDMDYPLQGPGLISVPNLPELSAVRRVPLPPELVEQFSHMQCNCMMGVFPEICRAWLTIDNDIFMWNYEDGGDVAYFDGLSETILSVGLVKPKAGIFQPHIHFLLVLATPVDVVILGLSFPKAQAGLNDSMSGGMQLLPDPLYSIPTDNTYLLAITSTDLGRIFLAGKDGCLYEVAYQAEAGWFSQRCKKINHSKSSLSFLVPSLLQFSFSEDDPVVQIAIDNSRNTLFTRSEKGVLQVYDLGVDGQGMSRVAAMSQSSIVAAAGNVARTIDRSVFKPIIEISVIDRSESSDCHLLAVTHAGVRLYFSTTPFAPQHAKQPAARPCLLALVHVRLPPGFSASSTLQKPAKVHKALHSKGVLLMAASETEDSDILWCINHDSFPFKKPLMEAQMMSNVDGHSWALCAIKEEKTPKISTPLNKDQVPLTDSPVVVQQHNVPPQKFVLLSAKGSHIFHKLRPVDQLRHLLVSGTGGESEEVERFFKLHREEQACATALIVACSSAACDREVSQWATRAFFRYGGEAQMRFPSAHSAPSNVGALFGSPVPGSPMPVGSSPMPNPSFLATPVPGMMPQSVSTPYIPATPMPSAPITGMSSGPEVVFSGKHNGISVYFARIMGNIWDGSLAVEKTISKGNQAVSILESTASSSDLESVLLELRGLKDFLDKNSQFSPSSLGAASFSSPANLQQRLLGFMRPDGGASSQQVQQELQRKYHTEAQAYEKMSLQGIQQLVHRSCQTLALWKLLCDHQFSLIISELPMEFQDQMKGASFKDVVIRGRELTGALITALINVYIKDSASVDAISNHLRDICPLLYSSDDSVCSKANELLQGSRQIQTKIDKERTLRESLQLYQLISQHTDLPLVCSQYRQVRFYEGVLELCLTAADKKDPQRLGPHFYKNGEPEEDQAGALAFQERLSCYKCITDTMQELVNQSKAAPQSPSVPKQPGPPVMTSDPNMLSNEDATAHFEQVIGLAQRSQDELFHIALYNWLIQADLTDKLLEVNSPYLEEHLMHMIKQDQSKVRNMDLLWRYYEKSRSFGKAAHVLARLADMHSTEISLKQRLEYISRAILSAKSSSCISAQGAEGEFLHELEEKMEVVRIQVQIQETLSRRYSQHPSVQGAMSQLDSELMDITKLYGEFADHFRLSECKLAIIHCAGHSDPILVHSLWQEIMEKELGDSVAMSPADRMRALSLKLVSLGKIYAGTPRYFPLEFLVKFLEQEVCHLNWDVGFVTFTMQEIGVQLPRLLEVYDQLFKTRDPCWQRLKKPLHLVECIHVLLSGYVEDPSRVPTYDRRRFTNVCLDNICGYLVELQSLSPNSTLRLTIGNFKALQAKLEKVH

Target ORF information:

RefSeq Version	XM_014129879.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar nuclear pore complex protein Nup155-like (LOC106563918), transcript variant X3, mRNA.

Target ORF information:

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

XM_014129879.1

ORF Insert Sequence:

ATGCCGTCCA CCTTGGGACC CAGCAGTCCT GCTGCTGCCC TTGCGGAAGC GCTGGAGAGC 
TCTGGCCGGC TCATAGACAG ACACCTTCAG GATGACCGCT GCTTCCCTGA CCTCTCAGAG 
CTTCTTAATG TCCCCGCACA CAACATGCCA TCTTTGTCTG GGGGGTCGGA CATGGACTAC 
CCTCTTCAAG GACCTGGGCT GATCAGTGTG CCAAACCTCC CTGAGCTCAG TGCAGTCCGA 
AGGGTTCCCC TACCCCCTGA GCTGGTGGAG CAATTCAGCC ATATGCAGTG CAATTGTATG 
ATGGGAGTTT TTCCTGAAAT CTGTCGAGCA TGGCTCACCA TTGACAACGA TATCTTCATG 
TGGAATTATG AGGATGGGGG GGACGTTGCA TATTTTGACG GGCTCAGTGA AACCATCCTG 
TCCGTGGGGC TGGTCAAACC TAAAGCAGGG ATTTTCCAGC CACACATCCA CTTCCTGTTG 
GTCTTAGCCA CTCCTGTGGA TGTAGTGATC CTGGGGCTCA GCTTCCCTAA AGCTCAGGCA 
GGGTTGAATG ACAGCATGTC TGGAGGGATG CAGTTACTAC CAGACCCGCT GTACTCCATC 
CCCACAGACA ACACCTATCT CCTGGCCATT ACCTCCACCG ACCTGGGCCG CATCTTCCTG 
GCAGGGAAAG ATGGCTGCCT GTATGAGGTA GCCTACCAGG CCGAGGCAGG CTGGTTCAGC 
CAACGCTGTA AGAAGATTAA CCACTCCAAA AGCAGCCTGT CCTTCCTAGT CCCCTCTCTG 
CTCCAGTTCT CCTTCTCTGA GGACGACCCG GTAGTGCAGA TTGCCATTGA CAACTCCCGT 
AACACACTCT TCACCCGCTC AGAGAAGGGG GTTCTACAGG TGTATGATCT GGGTGTAGAC 
GGGCAGGGTA TGAGCCGTGT GGCGGCCATG TCACAGAGTT CCATCGTGGC TGCAGCAGGA 
AACGTTGCCA GGACCATAGA TCGCTCTGTG TTTAAACCCA TCATAGAGAT CTCTGTGATA 
GACAGATCGG AGTCGTCCGA CTGCCACCTG CTGGCTGTCA CTCATGCAGG AGTGCGTCTC 
TACTTCAGCA CCACTCCCTT TGCCCCACAA CACGCCAAGC AGCCAGCGGC ACGCCCTTGT 
CTGCTTGCTC TGGTCCATGT CCGCCTGCCT CCAGGCTTCT CTGCCTCCTC CACCCTGCAG 
AAGCCTGCCA AGGTCCACAA GGCTCTGCAC AGCAAAGGAG TTCTCCTGAT GGCAGCGTCT 
GAGACTGAGG ACAGTGACAT CCTGTGGTGC ATCAACCATG ACTCCTTCCC CTTTAAGAAA 
CCCCTGATGG AGGCTCAGAT GATGTCCAAT GTAGATGGCC ACTCCTGGGC GCTTTGTGCC 
ATCAAGGAGG AGAAGACACC TAAAATCTCT ACCCCCCTGA ATAAGGATCA GGTTCCCCTC 
ACTGACTCTC CTGTCGTGGT ACAGCAACAC AATGTCCCTC CGCAGAAATT TGTCCTTCTC 
TCTGCCAAGG GAAGTCACAT CTTCCACAAG TTGCGGCCGG TGGACCAGCT GCGCCACCTA 
CTGGTGAGCG GTACTGGTGG AGAGAGTGAA GAAGTCGAAC GCTTCTTCAA ACTGCACAGG 
GAGGAGCAGG CGTGTGCCAC TGCTCTGATA GTAGCCTGTT CCAGTGCTGC CTGCGACAGA 
GAGGTGTCTC AGTGGGCCAC CAGAGCCTTC TTTAGGTATG GAGGAGAGGC TCAGATGAGG 
TTCCCCTCGG CTCATTCTGC TCCTAGCAAC GTCGGAGCGC TGTTCGGCTC TCCTGTACCA 
GGGTCCCCAA TGCCGGTTGG TAGCAGTCCA ATGCCTAACC CTAGTTTCTT AGCAACACCT 
GTTCCAGGTA TGATGCCCCA GAGTGTGTCT ACGCCCTATA TACCTGCCAC GCCCATGCCC 
TCCGCCCCCA TCACTGGCAT GTCTTCTGGG CCAGAGGTGG TCTTCTCAGG GAAACACAAT 
GGCATCAGTG TCTACTTCGC ACGCATAATG GGTAATATCT GGGACGGGAG TCTTGCTGTT 
GAGAAGACCA TCAGTAAAGG AAATCAGGCT GTCAGTATTT TGGAGAGCAC AGCCAGCTCG 
TCTGATCTGG AGTCAGTTCT TCTGGAGCTC CGTGGTCTGA AGGACTTCCT GGATAAGAAC 
TCCCAGTTCA GCCCCTCGTC TCTGGGGGCA GCCAGTTTCA GCTCTCCAGC CAATCTGCAG 
CAGCGTCTGC TGGGCTTCAT GCGGCCTGAT GGAGGAGCCA GTTCTCAGCA GGTCCAGCAG 
GAGCTCCAGA GGAAGTACCA CACCGAGGCT CAGGCCTATG AGAAGATGTC CCTGCAGGGT 
ATCCAGCAGC TGGTGCATCG GTCCTGTCAG ACCCTGGCCC TGTGGAAGCT GCTGTGTGAC 
CACCAGTTCA GCCTCATCAT CTCTGAACTA CCCATGGAGT TCCAGGACCA GATGAAGGGG 
GCGAGTTTTA AGGACGTGGT GATCCGGGGT CGAGAGCTGA CTGGAGCTCT GATCACAGCC 
CTCATCAACG TCTACATCAA AGACTCCGCC TCTGTAGATG CCATCAGCAA CCACCTTAGA 
GACATCTGTC CTTTGCTGTA CAGCAGCGAC GACAGCGTCT GCTCAAAGGC TAATGAGTTG 
CTGCAGGGCT CCAGACAGAT CCAGACTAAG ATCGATAAGG AGAGAACACT GAGAGAGTCA 
CTACAACTCT ACCAGCTGAT CAGCCAACAC ACAGACCTGC CACTGGTCTG CTCCCAGTAC 
AGACAGGTGC GCTTTTATGA GGGGGTGCTT GAGCTGTGCC TGACTGCAGC GGATAAGAAG 
GATCCTCAGA GGCTGGGACC TCACTTCTAT AAGAACGGAG AACCAGAGGA GGACCAGGCT 
GGAGCGCTGG CCTTCCAGGA GAGGTTGTCA TGTTATAAGT GCATCACAGA CACCATGCAG 
GAGCTGGTGA ACCAGAGTAA AGCTGCTCCT CAGTCTCCCA GTGTCCCTAA GCAGCCAGGA 
CCCCCTGTTA TGACCTCTGA CCCTAACATG CTGAGTAATG AGGACGCCAC CGCCCACTTT 
GAGCAGGTCA TTGGTCTGGC CCAGAGGTCA CAGGATGAAC TCTTCCACAT AGCCCTCTAC 
AACTGGCTGA TACAGGCTGA CCTCACCGAC AAGCTTCTGG AGGTGAACTC TCCATACCTG 
GAGGAACACC TGATGCACAT GATCAAGCAG GACCAGAGTA AGGTGCGGAA CATGGACCTG 
CTGTGGCGGT ACTATGAGAA GAGCCGTAGC TTTGGCAAGG CAGCGCACGT CCTGGCCAGG 
CTCGCTGACA TGCACAGTAC TGAGATCTCC CTGAAGCAGA GGCTGGAGTA CATCTCCAGG 
GCCATCCTGT CAGCCAAGAG CTCCTCCTGC ATCTCTGCTC AAGGAGCTGA AGGGGAGTTC 
CTGCATGAGC TGGAGGAGAA GATGGAGGTG GTGCGTATTC AGGTCCAGAT CCAGGAGACT 
CTGAGCAGAC GTTACTCCCA GCATCCCTCT GTACAGGGAG CCATGTCACA ACTGGATTCC 
GAGCTTATGG ACATCACCAA GCTGTACGGG GAGTTTGCAG ATCACTTCCG GTTGTCTGAA 
TGCAAACTGG CCATCATCCA CTGTGCTGGT CACTCTGACC CCATCCTGGT GCACTCTCTG 
TGGCAGGAGA TCATGGAGAA AGAGCTAGGT GACAGTGTGG CCATGAGTCC AGCTGACAGG 
ATGAGAGCTC TGAGTCTCAA ACTGGTGTCT CTGGGGAAAA TCTATGCAGG AACACCTAGA 
TACTTCCCAC TGGAATTCCT GGTGAAGTTT TTGGAGCAGG AGGTGTGTCA TCTGAATTGG 
GACGTGGGCT TTGTCACCTT CACCATGCAG GAGATAGGAG TCCAGCTCCC CCGTCTGCTG 
GAGGTCTACG ACCAACTTTT CAAGACACGG GATCCGTGTT GGCAGCGTCT GAAGAAACCT 
CTCCACCTGG TAGAGTGTAT ACATGTGCTG CTGTCAGGAT ATGTAGAGGA CCCCAGCAGA 
GTACCAACAT ATGACCGACG GCGGTTCACT AATGTGTGTC TGGATAACAT CTGTGGTTAC 
CTGGTGGAGC TGCAGTCCCT GAGTCCTAAC TCTACCCTGC GGCTCACTAT CGGCAACTTC 
AAGGCCCTGC AGGCCAAGCT GGAGAAAGTT CACTGA

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

LOC106563918 ( XM_014129867.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_013985342.1 Salmo salar nuclear pore complex protein Nup155-like (LOC106563918), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAt06957
Clone ID Related Accession (Same CDS sequence)	XM_014129879.1 , XM_014129867.1 , XM_014129873.1
Accession Version	XM_014129867.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4176bp) 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	nuclear pore complex protein Nup155-like isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012332742.1) 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##

ATGCCGTCCA CCTTGGGACC CAGCAGTCCT GCTGCTGCCC TTGCGGAAGC GCTGGAGAGC 
TCTGGCCGGC TCATAGACAG ACACCTTCAG GATGACCGCT GCTTCCCTGA CCTCTCAGAG 
CTTCTTAATG TCCCCGCACA CAACATGCCA TCTTTGTCTG GGGGGTCGGA CATGGACTAC 
CCTCTTCAAG GACCTGGGCT GATCAGTGTG CCAAACCTCC CTGAGCTCAG TGCAGTCCGA 
AGGGTTCCCC TACCCCCTGA GCTGGTGGAG CAATTCAGCC ATATGCAGTG CAATTGTATG 
ATGGGAGTTT TTCCTGAAAT CTGTCGAGCA TGGCTCACCA TTGACAACGA TATCTTCATG 
TGGAATTATG AGGATGGGGG GGACGTTGCA TATTTTGACG GGCTCAGTGA AACCATCCTG 
TCCGTGGGGC TGGTCAAACC TAAAGCAGGG ATTTTCCAGC CACACATCCA CTTCCTGTTG 
GTCTTAGCCA CTCCTGTGGA TGTAGTGATC CTGGGGCTCA GCTTCCCTAA AGCTCAGGCA 
GGGTTGAATG ACAGCATGTC TGGAGGGATG CAGTTACTAC CAGACCCGCT GTACTCCATC 
CCCACAGACA ACACCTATCT CCTGGCCATT ACCTCCACCG ACCTGGGCCG CATCTTCCTG 
GCAGGGAAAG ATGGCTGCCT GTATGAGGTA GCCTACCAGG CCGAGGCAGG CTGGTTCAGC 
CAACGCTGTA AGAAGATTAA CCACTCCAAA AGCAGCCTGT CCTTCCTAGT CCCCTCTCTG 
CTCCAGTTCT CCTTCTCTGA GGACGACCCG GTAGTGCAGA TTGCCATTGA CAACTCCCGT 
AACACACTCT TCACCCGCTC AGAGAAGGGG GTTCTACAGG TGTATGATCT GGGTGTAGAC 
GGGCAGGGTA TGAGCCGTGT GGCGGCCATG TCACAGAGTT CCATCGTGGC TGCAGCAGGA 
AACGTTGCCA GGACCATAGA TCGCTCTGTG TTTAAACCCA TCATAGAGAT CTCTGTGATA 
GACAGATCGG AGTCGTCCGA CTGCCACCTG CTGGCTGTCA CTCATGCAGG AGTGCGTCTC 
TACTTCAGCA CCACTCCCTT TGCCCCACAA CACGCCAAGC AGCCAGCGGC ACGCCCTTGT 
CTGCTTGCTC TGGTCCATGT CCGCCTGCCT CCAGGCTTCT CTGCCTCCTC CACCCTGCAG 
AAGCCTGCCA AGGTCCACAA GGCTCTGCAC AGCAAAGGAG TTCTCCTGAT GGCAGCGTCT 
GAGACTGAGG ACAGTGACAT CCTGTGGTGC ATCAACCATG ACTCCTTCCC CTTTAAGAAA 
CCCCTGATGG AGGCTCAGAT GATGTCCAAT GTAGATGGCC ACTCCTGGGC GCTTTGTGCC 
ATCAAGGAGG AGAAGACACC TAAAATCTCT ACCCCCCTGA ATAAGGATCA GGTTCCCCTC 
ACTGACTCTC CTGTCGTGGT ACAGCAACAC AATGTCCCTC CGCAGAAATT TGTCCTTCTC 
TCTGCCAAGG GAAGTCACAT CTTCCACAAG TTGCGGCCGG TGGACCAGCT GCGCCACCTA 
CTGGTGAGCG GTACTGGTGG AGAGAGTGAA GAAGTCGAAC GCTTCTTCAA ACTGCACAGG 
GAGGAGCAGG CGTGTGCCAC TGCTCTGATA GTAGCCTGTT CCAGTGCTGC CTGCGACAGA 
GAGGTGTCTC AGTGGGCCAC CAGAGCCTTC TTTAGGTATG GAGGAGAGGC TCAGATGAGG 
TTCCCCTCGG CTCATTCTGC TCCTAGCAAC GTCGGAGCGC TGTTCGGCTC TCCTGTACCA 
GGGTCCCCAA TGCCGGTTGG TAGCAGTCCA ATGCCTAACC CTAGTTTCTT AGCAACACCT 
GTTCCAGGTA TGATGCCCCA GAGTGTGTCT ACGCCCTATA TACCTGCCAC GCCCATGCCC 
TCCGCCCCCA TCACTGGCAT GTCTTCTGGG CCAGAGGTGG TCTTCTCAGG GAAACACAAT 
GGCATCAGTG TCTACTTCGC ACGCATAATG GGTAATATCT GGGACGGGAG TCTTGCTGTT 
GAGAAGACCA TCAGTAAAGG AAATCAGGCT GTCAGTATTT TGGAGAGCAC AGCCAGCTCG 
TCTGATCTGG AGTCAGTTCT TCTGGAGCTC CGTGGTCTGA AGGACTTCCT GGATAAGAAC 
TCCCAGTTCA GCCCCTCGTC TCTGGGGGCA GCCAGTTTCA GCTCTCCAGC CAATCTGCAG 
CAGCGTCTGC TGGGCTTCAT GCGGCCTGAT GGAGGAGCCA GTTCTCAGCA GGTCCAGCAG 
GAGCTCCAGA GGAAGTACCA CACCGAGGCT CAGGCCTATG AGAAGATGTC CCTGCAGGGT 
ATCCAGCAGC TGGTGCATCG GTCCTGTCAG ACCCTGGCCC TGTGGAAGCT GCTGTGTGAC 
CACCAGTTCA GCCTCATCAT CTCTGAACTA CCCATGGAGT TCCAGGACCA GATGAAGGGG 
GCGAGTTTTA AGGACGTGGT GATCCGGGGT CGAGAGCTGA CTGGAGCTCT GATCACAGCC 
CTCATCAACG TCTACATCAA AGACTCCGCC TCTGTAGATG CCATCAGCAA CCACCTTAGA 
GACATCTGTC CTTTGCTGTA CAGCAGCGAC GACAGCGTCT GCTCAAAGGC TAATGAGTTG 
CTGCAGGGCT CCAGACAGAT CCAGACTAAG ATCGATAAGG AGAGAACACT GAGAGAGTCA 
CTACAACTCT ACCAGCTGAT CAGCCAACAC ACAGACCTGC CACTGGTCTG CTCCCAGTAC 
AGACAGGTGC GCTTTTATGA GGGGGTGCTT GAGCTGTGCC TGACTGCAGC GGATAAGAAG 
GATCCTCAGA GGCTGGGACC TCACTTCTAT AAGAACGGAG AACCAGAGGA GGACCAGGCT 
GGAGCGCTGG CCTTCCAGGA GAGGTTGTCA TGTTATAAGT GCATCACAGA CACCATGCAG 
GAGCTGGTGA ACCAGAGTAA AGCTGCTCCT CAGTCTCCCA GTGTCCCTAA GCAGCCAGGA 
CCCCCTGTTA TGACCTCTGA CCCTAACATG CTGAGTAATG AGGACGCCAC CGCCCACTTT 
GAGCAGGTCA TTGGTCTGGC CCAGAGGTCA CAGGATGAAC TCTTCCACAT AGCCCTCTAC 
AACTGGCTGA TACAGGCTGA CCTCACCGAC AAGCTTCTGG AGGTGAACTC TCCATACCTG 
GAGGAACACC TGATGCACAT GATCAAGCAG GACCAGAGTA AGGTGCGGAA CATGGACCTG 
CTGTGGCGGT ACTATGAGAA GAGCCGTAGC TTTGGCAAGG CAGCGCACGT CCTGGCCAGG 
CTCGCTGACA TGCACAGTAC TGAGATCTCC CTGAAGCAGA GGCTGGAGTA CATCTCCAGG 
GCCATCCTGT CAGCCAAGAG CTCCTCCTGC ATCTCTGCTC AAGGAGCTGA AGGGGAGTTC 
CTGCATGAGC TGGAGGAGAA GATGGAGGTG GTGCGTATTC AGGTCCAGAT CCAGGAGACT 
CTGAGCAGAC GTTACTCCCA GCATCCCTCT GTACAGGGAG CCATGTCACA ACTGGATTCC 
GAGCTTATGG ACATCACCAA GCTGTACGGG GAGTTTGCAG ATCACTTCCG GTTGTCTGAA 
TGCAAACTGG CCATCATCCA CTGTGCTGGT CACTCTGACC CCATCCTGGT GCACTCTCTG 
TGGCAGGAGA TCATGGAGAA AGAGCTAGGT GACAGTGTGG CCATGAGTCC AGCTGACAGG 
ATGAGAGCTC TGAGTCTCAA ACTGGTGTCT CTGGGGAAAA TCTATGCAGG AACACCTAGA 
TACTTCCCAC TGGAATTCCT GGTGAAGTTT TTGGAGCAGG AGGTGTGTCA TCTGAATTGG 
GACGTGGGCT TTGTCACCTT CACCATGCAG GAGATAGGAG TCCAGCTCCC CCGTCTGCTG 
GAGGTCTACG ACCAACTTTT CAAGACACGG GATCCGTGTT GGCAGCGTCT GAAGAAACCT 
CTCCACCTGG TAGAGTGTAT ACATGTGCTG CTGTCAGGAT ATGTAGAGGA CCCCAGCAGA 
GTACCAACAT ATGACCGACG GCGGTTCACT AATGTGTGTC TGGATAACAT CTGTGGTTAC 
CTGGTGGAGC TGCAGTCCCT GAGTCCTAAC TCTACCCTGC GGCTCACTAT CGGCAACTTC 
AAGGCCCTGC AGGCCAAGCT GGAGAAAGTT CACTGA

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

RefSeq	XP_013985342.1
CDS	1..4176
Translation	MPSTLGPSSPAAALAEALESSGRLIDRHLQDDRCFPDLSELLNVPAHNMPSLSGGSDMDYPLQGPGLISVPNLPELSAVRRVPLPPELVEQFSHMQCNCMMGVFPEICRAWLTIDNDIFMWNYEDGGDVAYFDGLSETILSVGLVKPKAGIFQPHIHFLLVLATPVDVVILGLSFPKAQAGLNDSMSGGMQLLPDPLYSIPTDNTYLLAITSTDLGRIFLAGKDGCLYEVAYQAEAGWFSQRCKKINHSKSSLSFLVPSLLQFSFSEDDPVVQIAIDNSRNTLFTRSEKGVLQVYDLGVDGQGMSRVAAMSQSSIVAAAGNVARTIDRSVFKPIIEISVIDRSESSDCHLLAVTHAGVRLYFSTTPFAPQHAKQPAARPCLLALVHVRLPPGFSASSTLQKPAKVHKALHSKGVLLMAASETEDSDILWCINHDSFPFKKPLMEAQMMSNVDGHSWALCAIKEEKTPKISTPLNKDQVPLTDSPVVVQQHNVPPQKFVLLSAKGSHIFHKLRPVDQLRHLLVSGTGGESEEVERFFKLHREEQACATALIVACSSAACDREVSQWATRAFFRYGGEAQMRFPSAHSAPSNVGALFGSPVPGSPMPVGSSPMPNPSFLATPVPGMMPQSVSTPYIPATPMPSAPITGMSSGPEVVFSGKHNGISVYFARIMGNIWDGSLAVEKTISKGNQAVSILESTASSSDLESVLLELRGLKDFLDKNSQFSPSSLGAASFSSPANLQQRLLGFMRPDGGASSQQVQQELQRKYHTEAQAYEKMSLQGIQQLVHRSCQTLALWKLLCDHQFSLIISELPMEFQDQMKGASFKDVVIRGRELTGALITALINVYIKDSASVDAISNHLRDICPLLYSSDDSVCSKANELLQGSRQIQTKIDKERTLRESLQLYQLISQHTDLPLVCSQYRQVRFYEGVLELCLTAADKKDPQRLGPHFYKNGEPEEDQAGALAFQERLSCYKCITDTMQELVNQSKAAPQSPSVPKQPGPPVMTSDPNMLSNEDATAHFEQVIGLAQRSQDELFHIALYNWLIQADLTDKLLEVNSPYLEEHLMHMIKQDQSKVRNMDLLWRYYEKSRSFGKAAHVLARLADMHSTEISLKQRLEYISRAILSAKSSSCISAQGAEGEFLHELEEKMEVVRIQVQIQETLSRRYSQHPSVQGAMSQLDSELMDITKLYGEFADHFRLSECKLAIIHCAGHSDPILVHSLWQEIMEKELGDSVAMSPADRMRALSLKLVSLGKIYAGTPRYFPLEFLVKFLEQEVCHLNWDVGFVTFTMQEIGVQLPRLLEVYDQLFKTRDPCWQRLKKPLHLVECIHVLLSGYVEDPSRVPTYDRRRFTNVCLDNICGYLVELQSLSPNSTLRLTIGNFKALQAKLEKVH

Target ORF information:

RefSeq Version	XM_014129867.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar nuclear pore complex protein Nup155-like (LOC106563918), transcript variant X1, mRNA.

Target ORF information:

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

XM_014129867.1

ORF Insert Sequence:

ATGCCGTCCA CCTTGGGACC CAGCAGTCCT GCTGCTGCCC TTGCGGAAGC GCTGGAGAGC 
TCTGGCCGGC TCATAGACAG ACACCTTCAG GATGACCGCT GCTTCCCTGA CCTCTCAGAG 
CTTCTTAATG TCCCCGCACA CAACATGCCA TCTTTGTCTG GGGGGTCGGA CATGGACTAC 
CCTCTTCAAG GACCTGGGCT GATCAGTGTG CCAAACCTCC CTGAGCTCAG TGCAGTCCGA 
AGGGTTCCCC TACCCCCTGA GCTGGTGGAG CAATTCAGCC ATATGCAGTG CAATTGTATG 
ATGGGAGTTT TTCCTGAAAT CTGTCGAGCA TGGCTCACCA TTGACAACGA TATCTTCATG 
TGGAATTATG AGGATGGGGG GGACGTTGCA TATTTTGACG GGCTCAGTGA AACCATCCTG 
TCCGTGGGGC TGGTCAAACC TAAAGCAGGG ATTTTCCAGC CACACATCCA CTTCCTGTTG 
GTCTTAGCCA CTCCTGTGGA TGTAGTGATC CTGGGGCTCA GCTTCCCTAA AGCTCAGGCA 
GGGTTGAATG ACAGCATGTC TGGAGGGATG CAGTTACTAC CAGACCCGCT GTACTCCATC 
CCCACAGACA ACACCTATCT CCTGGCCATT ACCTCCACCG ACCTGGGCCG CATCTTCCTG 
GCAGGGAAAG ATGGCTGCCT GTATGAGGTA GCCTACCAGG CCGAGGCAGG CTGGTTCAGC 
CAACGCTGTA AGAAGATTAA CCACTCCAAA AGCAGCCTGT CCTTCCTAGT CCCCTCTCTG 
CTCCAGTTCT CCTTCTCTGA GGACGACCCG GTAGTGCAGA TTGCCATTGA CAACTCCCGT 
AACACACTCT TCACCCGCTC AGAGAAGGGG GTTCTACAGG TGTATGATCT GGGTGTAGAC 
GGGCAGGGTA TGAGCCGTGT GGCGGCCATG TCACAGAGTT CCATCGTGGC TGCAGCAGGA 
AACGTTGCCA GGACCATAGA TCGCTCTGTG TTTAAACCCA TCATAGAGAT CTCTGTGATA 
GACAGATCGG AGTCGTCCGA CTGCCACCTG CTGGCTGTCA CTCATGCAGG AGTGCGTCTC 
TACTTCAGCA CCACTCCCTT TGCCCCACAA CACGCCAAGC AGCCAGCGGC ACGCCCTTGT 
CTGCTTGCTC TGGTCCATGT CCGCCTGCCT CCAGGCTTCT CTGCCTCCTC CACCCTGCAG 
AAGCCTGCCA AGGTCCACAA GGCTCTGCAC AGCAAAGGAG TTCTCCTGAT GGCAGCGTCT 
GAGACTGAGG ACAGTGACAT CCTGTGGTGC ATCAACCATG ACTCCTTCCC CTTTAAGAAA 
CCCCTGATGG AGGCTCAGAT GATGTCCAAT GTAGATGGCC ACTCCTGGGC GCTTTGTGCC 
ATCAAGGAGG AGAAGACACC TAAAATCTCT ACCCCCCTGA ATAAGGATCA GGTTCCCCTC 
ACTGACTCTC CTGTCGTGGT ACAGCAACAC AATGTCCCTC CGCAGAAATT TGTCCTTCTC 
TCTGCCAAGG GAAGTCACAT CTTCCACAAG TTGCGGCCGG TGGACCAGCT GCGCCACCTA 
CTGGTGAGCG GTACTGGTGG AGAGAGTGAA GAAGTCGAAC GCTTCTTCAA ACTGCACAGG 
GAGGAGCAGG CGTGTGCCAC TGCTCTGATA GTAGCCTGTT CCAGTGCTGC CTGCGACAGA 
GAGGTGTCTC AGTGGGCCAC CAGAGCCTTC TTTAGGTATG GAGGAGAGGC TCAGATGAGG 
TTCCCCTCGG CTCATTCTGC TCCTAGCAAC GTCGGAGCGC TGTTCGGCTC TCCTGTACCA 
GGGTCCCCAA TGCCGGTTGG TAGCAGTCCA ATGCCTAACC CTAGTTTCTT AGCAACACCT 
GTTCCAGGTA TGATGCCCCA GAGTGTGTCT ACGCCCTATA TACCTGCCAC GCCCATGCCC 
TCCGCCCCCA TCACTGGCAT GTCTTCTGGG CCAGAGGTGG TCTTCTCAGG GAAACACAAT 
GGCATCAGTG TCTACTTCGC ACGCATAATG GGTAATATCT GGGACGGGAG TCTTGCTGTT 
GAGAAGACCA TCAGTAAAGG AAATCAGGCT GTCAGTATTT TGGAGAGCAC AGCCAGCTCG 
TCTGATCTGG AGTCAGTTCT TCTGGAGCTC CGTGGTCTGA AGGACTTCCT GGATAAGAAC 
TCCCAGTTCA GCCCCTCGTC TCTGGGGGCA GCCAGTTTCA GCTCTCCAGC CAATCTGCAG 
CAGCGTCTGC TGGGCTTCAT GCGGCCTGAT GGAGGAGCCA GTTCTCAGCA GGTCCAGCAG 
GAGCTCCAGA GGAAGTACCA CACCGAGGCT CAGGCCTATG AGAAGATGTC CCTGCAGGGT 
ATCCAGCAGC TGGTGCATCG GTCCTGTCAG ACCCTGGCCC TGTGGAAGCT GCTGTGTGAC 
CACCAGTTCA GCCTCATCAT CTCTGAACTA CCCATGGAGT TCCAGGACCA GATGAAGGGG 
GCGAGTTTTA AGGACGTGGT GATCCGGGGT CGAGAGCTGA CTGGAGCTCT GATCACAGCC 
CTCATCAACG TCTACATCAA AGACTCCGCC TCTGTAGATG CCATCAGCAA CCACCTTAGA 
GACATCTGTC CTTTGCTGTA CAGCAGCGAC GACAGCGTCT GCTCAAAGGC TAATGAGTTG 
CTGCAGGGCT CCAGACAGAT CCAGACTAAG ATCGATAAGG AGAGAACACT GAGAGAGTCA 
CTACAACTCT ACCAGCTGAT CAGCCAACAC ACAGACCTGC CACTGGTCTG CTCCCAGTAC 
AGACAGGTGC GCTTTTATGA GGGGGTGCTT GAGCTGTGCC TGACTGCAGC GGATAAGAAG 
GATCCTCAGA GGCTGGGACC TCACTTCTAT AAGAACGGAG AACCAGAGGA GGACCAGGCT 
GGAGCGCTGG CCTTCCAGGA GAGGTTGTCA TGTTATAAGT GCATCACAGA CACCATGCAG 
GAGCTGGTGA ACCAGAGTAA AGCTGCTCCT CAGTCTCCCA GTGTCCCTAA GCAGCCAGGA 
CCCCCTGTTA TGACCTCTGA CCCTAACATG CTGAGTAATG AGGACGCCAC CGCCCACTTT 
GAGCAGGTCA TTGGTCTGGC CCAGAGGTCA CAGGATGAAC TCTTCCACAT AGCCCTCTAC 
AACTGGCTGA TACAGGCTGA CCTCACCGAC AAGCTTCTGG AGGTGAACTC TCCATACCTG 
GAGGAACACC TGATGCACAT GATCAAGCAG GACCAGAGTA AGGTGCGGAA CATGGACCTG 
CTGTGGCGGT ACTATGAGAA GAGCCGTAGC TTTGGCAAGG CAGCGCACGT CCTGGCCAGG 
CTCGCTGACA TGCACAGTAC TGAGATCTCC CTGAAGCAGA GGCTGGAGTA CATCTCCAGG 
GCCATCCTGT CAGCCAAGAG CTCCTCCTGC ATCTCTGCTC AAGGAGCTGA AGGGGAGTTC 
CTGCATGAGC TGGAGGAGAA GATGGAGGTG GTGCGTATTC AGGTCCAGAT CCAGGAGACT 
CTGAGCAGAC GTTACTCCCA GCATCCCTCT GTACAGGGAG CCATGTCACA ACTGGATTCC 
GAGCTTATGG ACATCACCAA GCTGTACGGG GAGTTTGCAG ATCACTTCCG GTTGTCTGAA 
TGCAAACTGG CCATCATCCA CTGTGCTGGT CACTCTGACC CCATCCTGGT GCACTCTCTG 
TGGCAGGAGA TCATGGAGAA AGAGCTAGGT GACAGTGTGG CCATGAGTCC AGCTGACAGG 
ATGAGAGCTC TGAGTCTCAA ACTGGTGTCT CTGGGGAAAA TCTATGCAGG AACACCTAGA 
TACTTCCCAC TGGAATTCCT GGTGAAGTTT TTGGAGCAGG AGGTGTGTCA TCTGAATTGG 
GACGTGGGCT TTGTCACCTT CACCATGCAG GAGATAGGAG TCCAGCTCCC CCGTCTGCTG 
GAGGTCTACG ACCAACTTTT CAAGACACGG GATCCGTGTT GGCAGCGTCT GAAGAAACCT 
CTCCACCTGG TAGAGTGTAT ACATGTGCTG CTGTCAGGAT ATGTAGAGGA CCCCAGCAGA 
GTACCAACAT ATGACCGACG GCGGTTCACT AATGTGTGTC TGGATAACAT CTGTGGTTAC 
CTGGTGGAGC TGCAGTCCCT GAGTCCTAAC TCTACCCTGC GGCTCACTAT CGGCAACTTC 
AAGGCCCTGC AGGCCAAGCT GGAGAAAGTT CACTGA

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

LOC106563918 ( XM_014129873.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_013985348.1 Salmo salar nuclear pore complex protein Nup155-like (LOC106563918), transcript variant X2, mRNA.

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CloneID	OAt06957
Clone ID Related Accession (Same CDS sequence)	XM_014129879.1 , XM_014129867.1 , XM_014129873.1
Accession Version	XM_014129873.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4176bp) 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	nuclear pore complex protein Nup155-like isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012332742.1) 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 :: 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##

ATGCCGTCCA CCTTGGGACC CAGCAGTCCT GCTGCTGCCC TTGCGGAAGC GCTGGAGAGC 
TCTGGCCGGC TCATAGACAG ACACCTTCAG GATGACCGCT GCTTCCCTGA CCTCTCAGAG 
CTTCTTAATG TCCCCGCACA CAACATGCCA TCTTTGTCTG GGGGGTCGGA CATGGACTAC 
CCTCTTCAAG GACCTGGGCT GATCAGTGTG CCAAACCTCC CTGAGCTCAG TGCAGTCCGA 
AGGGTTCCCC TACCCCCTGA GCTGGTGGAG CAATTCAGCC ATATGCAGTG CAATTGTATG 
ATGGGAGTTT TTCCTGAAAT CTGTCGAGCA TGGCTCACCA TTGACAACGA TATCTTCATG 
TGGAATTATG AGGATGGGGG GGACGTTGCA TATTTTGACG GGCTCAGTGA AACCATCCTG 
TCCGTGGGGC TGGTCAAACC TAAAGCAGGG ATTTTCCAGC CACACATCCA CTTCCTGTTG 
GTCTTAGCCA CTCCTGTGGA TGTAGTGATC CTGGGGCTCA GCTTCCCTAA AGCTCAGGCA 
GGGTTGAATG ACAGCATGTC TGGAGGGATG CAGTTACTAC CAGACCCGCT GTACTCCATC 
CCCACAGACA ACACCTATCT CCTGGCCATT ACCTCCACCG ACCTGGGCCG CATCTTCCTG 
GCAGGGAAAG ATGGCTGCCT GTATGAGGTA GCCTACCAGG CCGAGGCAGG CTGGTTCAGC 
CAACGCTGTA AGAAGATTAA CCACTCCAAA AGCAGCCTGT CCTTCCTAGT CCCCTCTCTG 
CTCCAGTTCT CCTTCTCTGA GGACGACCCG GTAGTGCAGA TTGCCATTGA CAACTCCCGT 
AACACACTCT TCACCCGCTC AGAGAAGGGG GTTCTACAGG TGTATGATCT GGGTGTAGAC 
GGGCAGGGTA TGAGCCGTGT GGCGGCCATG TCACAGAGTT CCATCGTGGC TGCAGCAGGA 
AACGTTGCCA GGACCATAGA TCGCTCTGTG TTTAAACCCA TCATAGAGAT CTCTGTGATA 
GACAGATCGG AGTCGTCCGA CTGCCACCTG CTGGCTGTCA CTCATGCAGG AGTGCGTCTC 
TACTTCAGCA CCACTCCCTT TGCCCCACAA CACGCCAAGC AGCCAGCGGC ACGCCCTTGT 
CTGCTTGCTC TGGTCCATGT CCGCCTGCCT CCAGGCTTCT CTGCCTCCTC CACCCTGCAG 
AAGCCTGCCA AGGTCCACAA GGCTCTGCAC AGCAAAGGAG TTCTCCTGAT GGCAGCGTCT 
GAGACTGAGG ACAGTGACAT CCTGTGGTGC ATCAACCATG ACTCCTTCCC CTTTAAGAAA 
CCCCTGATGG AGGCTCAGAT GATGTCCAAT GTAGATGGCC ACTCCTGGGC GCTTTGTGCC 
ATCAAGGAGG AGAAGACACC TAAAATCTCT ACCCCCCTGA ATAAGGATCA GGTTCCCCTC 
ACTGACTCTC CTGTCGTGGT ACAGCAACAC AATGTCCCTC CGCAGAAATT TGTCCTTCTC 
TCTGCCAAGG GAAGTCACAT CTTCCACAAG TTGCGGCCGG TGGACCAGCT GCGCCACCTA 
CTGGTGAGCG GTACTGGTGG AGAGAGTGAA GAAGTCGAAC GCTTCTTCAA ACTGCACAGG 
GAGGAGCAGG CGTGTGCCAC TGCTCTGATA GTAGCCTGTT CCAGTGCTGC CTGCGACAGA 
GAGGTGTCTC AGTGGGCCAC CAGAGCCTTC TTTAGGTATG GAGGAGAGGC TCAGATGAGG 
TTCCCCTCGG CTCATTCTGC TCCTAGCAAC GTCGGAGCGC TGTTCGGCTC TCCTGTACCA 
GGGTCCCCAA TGCCGGTTGG TAGCAGTCCA ATGCCTAACC CTAGTTTCTT AGCAACACCT 
GTTCCAGGTA TGATGCCCCA GAGTGTGTCT ACGCCCTATA TACCTGCCAC GCCCATGCCC 
TCCGCCCCCA TCACTGGCAT GTCTTCTGGG CCAGAGGTGG TCTTCTCAGG GAAACACAAT 
GGCATCAGTG TCTACTTCGC ACGCATAATG GGTAATATCT GGGACGGGAG TCTTGCTGTT 
GAGAAGACCA TCAGTAAAGG AAATCAGGCT GTCAGTATTT TGGAGAGCAC AGCCAGCTCG 
TCTGATCTGG AGTCAGTTCT TCTGGAGCTC CGTGGTCTGA AGGACTTCCT GGATAAGAAC 
TCCCAGTTCA GCCCCTCGTC TCTGGGGGCA GCCAGTTTCA GCTCTCCAGC CAATCTGCAG 
CAGCGTCTGC TGGGCTTCAT GCGGCCTGAT GGAGGAGCCA GTTCTCAGCA GGTCCAGCAG 
GAGCTCCAGA GGAAGTACCA CACCGAGGCT CAGGCCTATG AGAAGATGTC CCTGCAGGGT 
ATCCAGCAGC TGGTGCATCG GTCCTGTCAG ACCCTGGCCC TGTGGAAGCT GCTGTGTGAC 
CACCAGTTCA GCCTCATCAT CTCTGAACTA CCCATGGAGT TCCAGGACCA GATGAAGGGG 
GCGAGTTTTA AGGACGTGGT GATCCGGGGT CGAGAGCTGA CTGGAGCTCT GATCACAGCC 
CTCATCAACG TCTACATCAA AGACTCCGCC TCTGTAGATG CCATCAGCAA CCACCTTAGA 
GACATCTGTC CTTTGCTGTA CAGCAGCGAC GACAGCGTCT GCTCAAAGGC TAATGAGTTG 
CTGCAGGGCT CCAGACAGAT CCAGACTAAG ATCGATAAGG AGAGAACACT GAGAGAGTCA 
CTACAACTCT ACCAGCTGAT CAGCCAACAC ACAGACCTGC CACTGGTCTG CTCCCAGTAC 
AGACAGGTGC GCTTTTATGA GGGGGTGCTT GAGCTGTGCC TGACTGCAGC GGATAAGAAG 
GATCCTCAGA GGCTGGGACC TCACTTCTAT AAGAACGGAG AACCAGAGGA GGACCAGGCT 
GGAGCGCTGG CCTTCCAGGA GAGGTTGTCA TGTTATAAGT GCATCACAGA CACCATGCAG 
GAGCTGGTGA ACCAGAGTAA AGCTGCTCCT CAGTCTCCCA GTGTCCCTAA GCAGCCAGGA 
CCCCCTGTTA TGACCTCTGA CCCTAACATG CTGAGTAATG AGGACGCCAC CGCCCACTTT 
GAGCAGGTCA TTGGTCTGGC CCAGAGGTCA CAGGATGAAC TCTTCCACAT AGCCCTCTAC 
AACTGGCTGA TACAGGCTGA CCTCACCGAC AAGCTTCTGG AGGTGAACTC TCCATACCTG 
GAGGAACACC TGATGCACAT GATCAAGCAG GACCAGAGTA AGGTGCGGAA CATGGACCTG 
CTGTGGCGGT ACTATGAGAA GAGCCGTAGC TTTGGCAAGG CAGCGCACGT CCTGGCCAGG 
CTCGCTGACA TGCACAGTAC TGAGATCTCC CTGAAGCAGA GGCTGGAGTA CATCTCCAGG 
GCCATCCTGT CAGCCAAGAG CTCCTCCTGC ATCTCTGCTC AAGGAGCTGA AGGGGAGTTC 
CTGCATGAGC TGGAGGAGAA GATGGAGGTG GTGCGTATTC AGGTCCAGAT CCAGGAGACT 
CTGAGCAGAC GTTACTCCCA GCATCCCTCT GTACAGGGAG CCATGTCACA ACTGGATTCC 
GAGCTTATGG ACATCACCAA GCTGTACGGG GAGTTTGCAG ATCACTTCCG GTTGTCTGAA 
TGCAAACTGG CCATCATCCA CTGTGCTGGT CACTCTGACC CCATCCTGGT GCACTCTCTG 
TGGCAGGAGA TCATGGAGAA AGAGCTAGGT GACAGTGTGG CCATGAGTCC AGCTGACAGG 
ATGAGAGCTC TGAGTCTCAA ACTGGTGTCT CTGGGGAAAA TCTATGCAGG AACACCTAGA 
TACTTCCCAC TGGAATTCCT GGTGAAGTTT TTGGAGCAGG AGGTGTGTCA TCTGAATTGG 
GACGTGGGCT TTGTCACCTT CACCATGCAG GAGATAGGAG TCCAGCTCCC CCGTCTGCTG 
GAGGTCTACG ACCAACTTTT CAAGACACGG GATCCGTGTT GGCAGCGTCT GAAGAAACCT 
CTCCACCTGG TAGAGTGTAT ACATGTGCTG CTGTCAGGAT ATGTAGAGGA CCCCAGCAGA 
GTACCAACAT ATGACCGACG GCGGTTCACT AATGTGTGTC TGGATAACAT CTGTGGTTAC 
CTGGTGGAGC TGCAGTCCCT GAGTCCTAAC TCTACCCTGC GGCTCACTAT CGGCAACTTC 
AAGGCCCTGC AGGCCAAGCT GGAGAAAGTT CACTGA

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

RefSeq	XP_013985348.1
CDS	150..4325
Translation	MPSTLGPSSPAAALAEALESSGRLIDRHLQDDRCFPDLSELLNVPAHNMPSLSGGSDMDYPLQGPGLISVPNLPELSAVRRVPLPPELVEQFSHMQCNCMMGVFPEICRAWLTIDNDIFMWNYEDGGDVAYFDGLSETILSVGLVKPKAGIFQPHIHFLLVLATPVDVVILGLSFPKAQAGLNDSMSGGMQLLPDPLYSIPTDNTYLLAITSTDLGRIFLAGKDGCLYEVAYQAEAGWFSQRCKKINHSKSSLSFLVPSLLQFSFSEDDPVVQIAIDNSRNTLFTRSEKGVLQVYDLGVDGQGMSRVAAMSQSSIVAAAGNVARTIDRSVFKPIIEISVIDRSESSDCHLLAVTHAGVRLYFSTTPFAPQHAKQPAARPCLLALVHVRLPPGFSASSTLQKPAKVHKALHSKGVLLMAASETEDSDILWCINHDSFPFKKPLMEAQMMSNVDGHSWALCAIKEEKTPKISTPLNKDQVPLTDSPVVVQQHNVPPQKFVLLSAKGSHIFHKLRPVDQLRHLLVSGTGGESEEVERFFKLHREEQACATALIVACSSAACDREVSQWATRAFFRYGGEAQMRFPSAHSAPSNVGALFGSPVPGSPMPVGSSPMPNPSFLATPVPGMMPQSVSTPYIPATPMPSAPITGMSSGPEVVFSGKHNGISVYFARIMGNIWDGSLAVEKTISKGNQAVSILESTASSSDLESVLLELRGLKDFLDKNSQFSPSSLGAASFSSPANLQQRLLGFMRPDGGASSQQVQQELQRKYHTEAQAYEKMSLQGIQQLVHRSCQTLALWKLLCDHQFSLIISELPMEFQDQMKGASFKDVVIRGRELTGALITALINVYIKDSASVDAISNHLRDICPLLYSSDDSVCSKANELLQGSRQIQTKIDKERTLRESLQLYQLISQHTDLPLVCSQYRQVRFYEGVLELCLTAADKKDPQRLGPHFYKNGEPEEDQAGALAFQERLSCYKCITDTMQELVNQSKAAPQSPSVPKQPGPPVMTSDPNMLSNEDATAHFEQVIGLAQRSQDELFHIALYNWLIQADLTDKLLEVNSPYLEEHLMHMIKQDQSKVRNMDLLWRYYEKSRSFGKAAHVLARLADMHSTEISLKQRLEYISRAILSAKSSSCISAQGAEGEFLHELEEKMEVVRIQVQIQETLSRRYSQHPSVQGAMSQLDSELMDITKLYGEFADHFRLSECKLAIIHCAGHSDPILVHSLWQEIMEKELGDSVAMSPADRMRALSLKLVSLGKIYAGTPRYFPLEFLVKFLEQEVCHLNWDVGFVTFTMQEIGVQLPRLLEVYDQLFKTRDPCWQRLKKPLHLVECIHVLLSGYVEDPSRVPTYDRRRFTNVCLDNICGYLVELQSLSPNSTLRLTIGNFKALQAKLEKVH

Target ORF information:

RefSeq Version	XM_014129873.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar nuclear pore complex protein Nup155-like (LOC106563918), transcript variant X2, mRNA.

Target ORF information:

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

XM_014129873.1

ORF Insert Sequence:

ATGCCGTCCA CCTTGGGACC CAGCAGTCCT GCTGCTGCCC TTGCGGAAGC GCTGGAGAGC 
TCTGGCCGGC TCATAGACAG ACACCTTCAG GATGACCGCT GCTTCCCTGA CCTCTCAGAG 
CTTCTTAATG TCCCCGCACA CAACATGCCA TCTTTGTCTG GGGGGTCGGA CATGGACTAC 
CCTCTTCAAG GACCTGGGCT GATCAGTGTG CCAAACCTCC CTGAGCTCAG TGCAGTCCGA 
AGGGTTCCCC TACCCCCTGA GCTGGTGGAG CAATTCAGCC ATATGCAGTG CAATTGTATG 
ATGGGAGTTT TTCCTGAAAT CTGTCGAGCA TGGCTCACCA TTGACAACGA TATCTTCATG 
TGGAATTATG AGGATGGGGG GGACGTTGCA TATTTTGACG GGCTCAGTGA AACCATCCTG 
TCCGTGGGGC TGGTCAAACC TAAAGCAGGG ATTTTCCAGC CACACATCCA CTTCCTGTTG 
GTCTTAGCCA CTCCTGTGGA TGTAGTGATC CTGGGGCTCA GCTTCCCTAA AGCTCAGGCA 
GGGTTGAATG ACAGCATGTC TGGAGGGATG CAGTTACTAC CAGACCCGCT GTACTCCATC 
CCCACAGACA ACACCTATCT CCTGGCCATT ACCTCCACCG ACCTGGGCCG CATCTTCCTG 
GCAGGGAAAG ATGGCTGCCT GTATGAGGTA GCCTACCAGG CCGAGGCAGG CTGGTTCAGC 
CAACGCTGTA AGAAGATTAA CCACTCCAAA AGCAGCCTGT CCTTCCTAGT CCCCTCTCTG 
CTCCAGTTCT CCTTCTCTGA GGACGACCCG GTAGTGCAGA TTGCCATTGA CAACTCCCGT 
AACACACTCT TCACCCGCTC AGAGAAGGGG GTTCTACAGG TGTATGATCT GGGTGTAGAC 
GGGCAGGGTA TGAGCCGTGT GGCGGCCATG TCACAGAGTT CCATCGTGGC TGCAGCAGGA 
AACGTTGCCA GGACCATAGA TCGCTCTGTG TTTAAACCCA TCATAGAGAT CTCTGTGATA 
GACAGATCGG AGTCGTCCGA CTGCCACCTG CTGGCTGTCA CTCATGCAGG AGTGCGTCTC 
TACTTCAGCA CCACTCCCTT TGCCCCACAA CACGCCAAGC AGCCAGCGGC ACGCCCTTGT 
CTGCTTGCTC TGGTCCATGT CCGCCTGCCT CCAGGCTTCT CTGCCTCCTC CACCCTGCAG 
AAGCCTGCCA AGGTCCACAA GGCTCTGCAC AGCAAAGGAG TTCTCCTGAT GGCAGCGTCT 
GAGACTGAGG ACAGTGACAT CCTGTGGTGC ATCAACCATG ACTCCTTCCC CTTTAAGAAA 
CCCCTGATGG AGGCTCAGAT GATGTCCAAT GTAGATGGCC ACTCCTGGGC GCTTTGTGCC 
ATCAAGGAGG AGAAGACACC TAAAATCTCT ACCCCCCTGA ATAAGGATCA GGTTCCCCTC 
ACTGACTCTC CTGTCGTGGT ACAGCAACAC AATGTCCCTC CGCAGAAATT TGTCCTTCTC 
TCTGCCAAGG GAAGTCACAT CTTCCACAAG TTGCGGCCGG TGGACCAGCT GCGCCACCTA 
CTGGTGAGCG GTACTGGTGG AGAGAGTGAA GAAGTCGAAC GCTTCTTCAA ACTGCACAGG 
GAGGAGCAGG CGTGTGCCAC TGCTCTGATA GTAGCCTGTT CCAGTGCTGC CTGCGACAGA 
GAGGTGTCTC AGTGGGCCAC CAGAGCCTTC TTTAGGTATG GAGGAGAGGC TCAGATGAGG 
TTCCCCTCGG CTCATTCTGC TCCTAGCAAC GTCGGAGCGC TGTTCGGCTC TCCTGTACCA 
GGGTCCCCAA TGCCGGTTGG TAGCAGTCCA ATGCCTAACC CTAGTTTCTT AGCAACACCT 
GTTCCAGGTA TGATGCCCCA GAGTGTGTCT ACGCCCTATA TACCTGCCAC GCCCATGCCC 
TCCGCCCCCA TCACTGGCAT GTCTTCTGGG CCAGAGGTGG TCTTCTCAGG GAAACACAAT 
GGCATCAGTG TCTACTTCGC ACGCATAATG GGTAATATCT GGGACGGGAG TCTTGCTGTT 
GAGAAGACCA TCAGTAAAGG AAATCAGGCT GTCAGTATTT TGGAGAGCAC AGCCAGCTCG 
TCTGATCTGG AGTCAGTTCT TCTGGAGCTC CGTGGTCTGA AGGACTTCCT GGATAAGAAC 
TCCCAGTTCA GCCCCTCGTC TCTGGGGGCA GCCAGTTTCA GCTCTCCAGC CAATCTGCAG 
CAGCGTCTGC TGGGCTTCAT GCGGCCTGAT GGAGGAGCCA GTTCTCAGCA GGTCCAGCAG 
GAGCTCCAGA GGAAGTACCA CACCGAGGCT CAGGCCTATG AGAAGATGTC CCTGCAGGGT 
ATCCAGCAGC TGGTGCATCG GTCCTGTCAG ACCCTGGCCC TGTGGAAGCT GCTGTGTGAC 
CACCAGTTCA GCCTCATCAT CTCTGAACTA CCCATGGAGT TCCAGGACCA GATGAAGGGG 
GCGAGTTTTA AGGACGTGGT GATCCGGGGT CGAGAGCTGA CTGGAGCTCT GATCACAGCC 
CTCATCAACG TCTACATCAA AGACTCCGCC TCTGTAGATG CCATCAGCAA CCACCTTAGA 
GACATCTGTC CTTTGCTGTA CAGCAGCGAC GACAGCGTCT GCTCAAAGGC TAATGAGTTG 
CTGCAGGGCT CCAGACAGAT CCAGACTAAG ATCGATAAGG AGAGAACACT GAGAGAGTCA 
CTACAACTCT ACCAGCTGAT CAGCCAACAC ACAGACCTGC CACTGGTCTG CTCCCAGTAC 
AGACAGGTGC GCTTTTATGA GGGGGTGCTT GAGCTGTGCC TGACTGCAGC GGATAAGAAG 
GATCCTCAGA GGCTGGGACC TCACTTCTAT AAGAACGGAG AACCAGAGGA GGACCAGGCT 
GGAGCGCTGG CCTTCCAGGA GAGGTTGTCA TGTTATAAGT GCATCACAGA CACCATGCAG 
GAGCTGGTGA ACCAGAGTAA AGCTGCTCCT CAGTCTCCCA GTGTCCCTAA GCAGCCAGGA 
CCCCCTGTTA TGACCTCTGA CCCTAACATG CTGAGTAATG AGGACGCCAC CGCCCACTTT 
GAGCAGGTCA TTGGTCTGGC CCAGAGGTCA CAGGATGAAC TCTTCCACAT AGCCCTCTAC 
AACTGGCTGA TACAGGCTGA CCTCACCGAC AAGCTTCTGG AGGTGAACTC TCCATACCTG 
GAGGAACACC TGATGCACAT GATCAAGCAG GACCAGAGTA AGGTGCGGAA CATGGACCTG 
CTGTGGCGGT ACTATGAGAA GAGCCGTAGC TTTGGCAAGG CAGCGCACGT CCTGGCCAGG 
CTCGCTGACA TGCACAGTAC TGAGATCTCC CTGAAGCAGA GGCTGGAGTA CATCTCCAGG 
GCCATCCTGT CAGCCAAGAG CTCCTCCTGC ATCTCTGCTC AAGGAGCTGA AGGGGAGTTC 
CTGCATGAGC TGGAGGAGAA GATGGAGGTG GTGCGTATTC AGGTCCAGAT CCAGGAGACT 
CTGAGCAGAC GTTACTCCCA GCATCCCTCT GTACAGGGAG CCATGTCACA ACTGGATTCC 
GAGCTTATGG ACATCACCAA GCTGTACGGG GAGTTTGCAG ATCACTTCCG GTTGTCTGAA 
TGCAAACTGG CCATCATCCA CTGTGCTGGT CACTCTGACC CCATCCTGGT GCACTCTCTG 
TGGCAGGAGA TCATGGAGAA AGAGCTAGGT GACAGTGTGG CCATGAGTCC AGCTGACAGG 
ATGAGAGCTC TGAGTCTCAA ACTGGTGTCT CTGGGGAAAA TCTATGCAGG AACACCTAGA 
TACTTCCCAC TGGAATTCCT GGTGAAGTTT TTGGAGCAGG AGGTGTGTCA TCTGAATTGG 
GACGTGGGCT TTGTCACCTT CACCATGCAG GAGATAGGAG TCCAGCTCCC CCGTCTGCTG 
GAGGTCTACG ACCAACTTTT CAAGACACGG GATCCGTGTT GGCAGCGTCT GAAGAAACCT 
CTCCACCTGG TAGAGTGTAT ACATGTGCTG CTGTCAGGAT ATGTAGAGGA CCCCAGCAGA 
GTACCAACAT ATGACCGACG GCGGTTCACT AATGTGTGTC TGGATAACAT CTGTGGTTAC 
CTGGTGGAGC TGCAGTCCCT GAGTCCTAAC TCTACCCTGC GGCTCACTAT CGGCAACTTC 
AAGGCCCTGC AGGCCAAGCT GGAGAAAGTT CACTGA

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

LOC106563918 ( XM_014129888.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_013985363.1 Salmo salar nuclear pore complex protein Nup155-like (LOC106563918), transcript variant X4, mRNA.

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CloneID	OAt06958
Clone ID Related Accession (Same CDS sequence)	XM_014129888.1
Accession Version	XM_014129888.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4110bp) 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	nuclear pore complex protein Nup155-like isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012332742.1) 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 :: 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##

ATGCCGTCCA CCTTGGGACC CAGCAGTCCT GCTGCTGCCC TTGCGGAAGC GCTGGAGAGC 
TCTGGCCGGC TCATAGACAG ACACCTTCAG GATGACCGCT GCTTCCCTGA CCTCTCAGAG 
CTTCTTAATG TCCCCGCACA CAACATGCCA TCTTTGTCTG GGGGGTCGGA CATGGACTAC 
CCTCTTCAAG GACCTGGGCT GATCAGTGTG CCAAACCTCC CTGAGCTCAG TGCAGTCCGA 
AGGGTTCCCC TACCCCCTGA GCTGGTGGAG CAATTCAGCC ATATGCAGTG CAATTGTATG 
ATGGGAGTTT TTCCTGAAAT CTGTCGAGCA TGGCTCACCA TTGACAACGA TATCTTCATG 
TGGAATTATG AGGATGGGGG GGACGTTGCA TATTTTGACG GGCTCAGTGA AACCATCCTG 
TCCGTGGGGC TGGTCAAACC TAAAGCAGGG ATTTTCCAGC CACACATCCA CTTCCTGTTG 
GTCTTAGCCA CTCCTGTGGA TGTAGTGATC CTGGGGCTCA GCTTCCCTAA AGCTCAGGCA 
GGGTTGAATG ACAGCATGTC TGGAGGGATG CAGTTACTAC CAGACCCGCT GTACTCCATC 
CCCACAGACA ACACCTATCT CCTGGCCATT ACCTCCACCG ACCTGGGCCG CATCTTCCTG 
GCAGGGAAAG ATGGCTGCCT GTATGAGGTA GCCTACCAGG CCGAGGCAGG CTGGTTCAGC 
CAACGCTGTA AGAAGATTAA CCACTCCAAA AGCAGCCTGT CCTTCCTAGT CCCCTCTCTG 
CTCCAGTTCT CCTTCTCTGA GGACGACCCG GTAGTGCAGA TTGCCATTGA CAACTCCCGT 
AACACACTCT TCACCCGCTC AGAGAAGGGG GTTCTACAGG TGTATGATCT GGGTGTAGAC 
GGGCAGGGTA TGAGCCGTGT GGCGGCCATG TCACAGAGTT CCATCGTGGC TGCAGCAGGA 
AACGTTGCCA GGACCATAGA TCGCTCTGTG TTTAAACCCA TCATAGAGAT CTCTGTGATA 
GACAGATCGG AGTCGTCCGA CTGCCACCTG CTGGCTGTCA CTCATGCAGG AGTGCGTCTC 
TACTTCAGCA CCACTCCCTT TGCCCCACAA CACGCCAAGC AGCCAGCGGC ACGCCCTTGT 
CTGCTTGCTC TGGTCCATGT CCGCCTGCCT CCAGGCTTCT CTGCCTCCTC CACCCTGCAG 
AAGCCTGCCA AGGTCCACAA GGCTCTGCAC AGCAAAGGAG TTCTCCTGAT GGCAGCGTCT 
GAGACTGAGG ACAGTGACAT CCTGTGGTGC ATCAACCATG ACTCCTTCCC CTTTAAGAAA 
CCCCTGATGG AGGCTCAGAT GATGTCCAAT GTAGATGGCC ACTCCTGGGC GCTTTGTGCC 
ATCAAGGAGG AGAAGACACC TAAAATCTCT ACCCCCCTGA ATAAGGATCA GGTTCCCCTC 
ACTGACTCTC CTGTCGTGGT ACAGCAACAC AATGTCCCTC CGCAGAAATT TGTCCTTCTC 
TCTGCCAAGG GAAGTCACAT CTTCCACAAG TTGCGGCCGG TGGACCAGCT GCGCCACCTA 
CTGGTGAGCG GTACTGGTGG AGAGAGTGAA GAAGTCGAAC GCTTCTTCAA ACTGCACAGG 
GAGGAGCAGG CGTGTGCCAC TGCTCTGATA GTAGCCTGTT CCAGTGCTGC CTGCGACAGA 
GAGGTGTCTC AGTGGGCCAC CAGAGCCTTC TTTAGGTATG GAGGAGAGGC TCAGATGAGG 
TTCCCCTCGG CTCATTCTGC TCCTAGCAAC GTCGGAGCGC TGTTCGGCTC TCCTGTACCA 
GGTATGATGC CCCAGAGTGT GTCTACGCCC TATATACCTG CCACGCCCAT GCCCTCCGCC 
CCCATCACTG GCATGTCTTC TGGGCCAGAG GTGGTCTTCT CAGGGAAACA CAATGGCATC 
AGTGTCTACT TCGCACGCAT AATGGGTAAT ATCTGGGACG GGAGTCTTGC TGTTGAGAAG 
ACCATCAGTA AAGGAAATCA GGCTGTCAGT ATTTTGGAGA GCACAGCCAG CTCGTCTGAT 
CTGGAGTCAG TTCTTCTGGA GCTCCGTGGT CTGAAGGACT TCCTGGATAA GAACTCCCAG 
TTCAGCCCCT CGTCTCTGGG GGCAGCCAGT TTCAGCTCTC CAGCCAATCT GCAGCAGCGT 
CTGCTGGGCT TCATGCGGCC TGATGGAGGA GCCAGTTCTC AGCAGGTCCA GCAGGAGCTC 
CAGAGGAAGT ACCACACCGA GGCTCAGGCC TATGAGAAGA TGTCCCTGCA GGGTATCCAG 
CAGCTGGTGC ATCGGTCCTG TCAGACCCTG GCCCTGTGGA AGCTGCTGTG TGACCACCAG 
TTCAGCCTCA TCATCTCTGA ACTACCCATG GAGTTCCAGG ACCAGATGAA GGGGGCGAGT 
TTTAAGGACG TGGTGATCCG GGGTCGAGAG CTGACTGGAG CTCTGATCAC AGCCCTCATC 
AACGTCTACA TCAAAGACTC CGCCTCTGTA GATGCCATCA GCAACCACCT TAGAGACATC 
TGTCCTTTGC TGTACAGCAG CGACGACAGC GTCTGCTCAA AGGCTAATGA GTTGCTGCAG 
GGCTCCAGAC AGATCCAGAC TAAGATCGAT AAGGAGAGAA CACTGAGAGA GTCACTACAA 
CTCTACCAGC TGATCAGCCA ACACACAGAC CTGCCACTGG TCTGCTCCCA GTACAGACAG 
GTGCGCTTTT ATGAGGGGGT GCTTGAGCTG TGCCTGACTG CAGCGGATAA GAAGGATCCT 
CAGAGGCTGG GACCTCACTT CTATAAGAAC GGAGAACCAG AGGAGGACCA GGCTGGAGCG 
CTGGCCTTCC AGGAGAGGTT GTCATGTTAT AAGTGCATCA CAGACACCAT GCAGGAGCTG 
GTGAACCAGA GTAAAGCTGC TCCTCAGTCT CCCAGTGTCC CTAAGCAGCC AGGACCCCCT 
GTTATGACCT CTGACCCTAA CATGCTGAGT AATGAGGACG CCACCGCCCA CTTTGAGCAG 
GTCATTGGTC TGGCCCAGAG GTCACAGGAT GAACTCTTCC ACATAGCCCT CTACAACTGG 
CTGATACAGG CTGACCTCAC CGACAAGCTT CTGGAGGTGA ACTCTCCATA CCTGGAGGAA 
CACCTGATGC ACATGATCAA GCAGGACCAG AGTAAGGTGC GGAACATGGA CCTGCTGTGG 
CGGTACTATG AGAAGAGCCG TAGCTTTGGC AAGGCAGCGC ACGTCCTGGC CAGGCTCGCT 
GACATGCACA GTACTGAGAT CTCCCTGAAG CAGAGGCTGG AGTACATCTC CAGGGCCATC 
CTGTCAGCCA AGAGCTCCTC CTGCATCTCT GCTCAAGGAG CTGAAGGGGA GTTCCTGCAT 
GAGCTGGAGG AGAAGATGGA GGTGGTGCGT ATTCAGGTCC AGATCCAGGA GACTCTGAGC 
AGACGTTACT CCCAGCATCC CTCTGTACAG GGAGCCATGT CACAACTGGA TTCCGAGCTT 
ATGGACATCA CCAAGCTGTA CGGGGAGTTT GCAGATCACT TCCGGTTGTC TGAATGCAAA 
CTGGCCATCA TCCACTGTGC TGGTCACTCT GACCCCATCC TGGTGCACTC TCTGTGGCAG 
GAGATCATGG AGAAAGAGCT AGGTGACAGT GTGGCCATGA GTCCAGCTGA CAGGATGAGA 
GCTCTGAGTC TCAAACTGGT GTCTCTGGGG AAAATCTATG CAGGAACACC TAGATACTTC 
CCACTGGAAT TCCTGGTGAA GTTTTTGGAG CAGGAGGTGT GTCATCTGAA TTGGGACGTG 
GGCTTTGTCA CCTTCACCAT GCAGGAGATA GGAGTCCAGC TCCCCCGTCT GCTGGAGGTC 
TACGACCAAC TTTTCAAGAC ACGGGATCCG TGTTGGCAGC GTCTGAAGAA ACCTCTCCAC 
CTGGTAGAGT GTATACATGT GCTGCTGTCA GGATATGTAG AGGACCCCAG CAGAGTACCA 
ACATATGACC GACGGCGGTT CACTAATGTG TGTCTGGATA ACATCTGTGG TTACCTGGTG 
GAGCTGCAGT CCCTGAGTCC TAACTCTACC CTGCGGCTCA CTATCGGCAA CTTCAAGGCC 
CTGCAGGCCA AGCTGGAGAA AGTTCACTGA

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

RefSeq	XP_013985363.1
CDS	150..4259
Translation	MPSTLGPSSPAAALAEALESSGRLIDRHLQDDRCFPDLSELLNVPAHNMPSLSGGSDMDYPLQGPGLISVPNLPELSAVRRVPLPPELVEQFSHMQCNCMMGVFPEICRAWLTIDNDIFMWNYEDGGDVAYFDGLSETILSVGLVKPKAGIFQPHIHFLLVLATPVDVVILGLSFPKAQAGLNDSMSGGMQLLPDPLYSIPTDNTYLLAITSTDLGRIFLAGKDGCLYEVAYQAEAGWFSQRCKKINHSKSSLSFLVPSLLQFSFSEDDPVVQIAIDNSRNTLFTRSEKGVLQVYDLGVDGQGMSRVAAMSQSSIVAAAGNVARTIDRSVFKPIIEISVIDRSESSDCHLLAVTHAGVRLYFSTTPFAPQHAKQPAARPCLLALVHVRLPPGFSASSTLQKPAKVHKALHSKGVLLMAASETEDSDILWCINHDSFPFKKPLMEAQMMSNVDGHSWALCAIKEEKTPKISTPLNKDQVPLTDSPVVVQQHNVPPQKFVLLSAKGSHIFHKLRPVDQLRHLLVSGTGGESEEVERFFKLHREEQACATALIVACSSAACDREVSQWATRAFFRYGGEAQMRFPSAHSAPSNVGALFGSPVPGMMPQSVSTPYIPATPMPSAPITGMSSGPEVVFSGKHNGISVYFARIMGNIWDGSLAVEKTISKGNQAVSILESTASSSDLESVLLELRGLKDFLDKNSQFSPSSLGAASFSSPANLQQRLLGFMRPDGGASSQQVQQELQRKYHTEAQAYEKMSLQGIQQLVHRSCQTLALWKLLCDHQFSLIISELPMEFQDQMKGASFKDVVIRGRELTGALITALINVYIKDSASVDAISNHLRDICPLLYSSDDSVCSKANELLQGSRQIQTKIDKERTLRESLQLYQLISQHTDLPLVCSQYRQVRFYEGVLELCLTAADKKDPQRLGPHFYKNGEPEEDQAGALAFQERLSCYKCITDTMQELVNQSKAAPQSPSVPKQPGPPVMTSDPNMLSNEDATAHFEQVIGLAQRSQDELFHIALYNWLIQADLTDKLLEVNSPYLEEHLMHMIKQDQSKVRNMDLLWRYYEKSRSFGKAAHVLARLADMHSTEISLKQRLEYISRAILSAKSSSCISAQGAEGEFLHELEEKMEVVRIQVQIQETLSRRYSQHPSVQGAMSQLDSELMDITKLYGEFADHFRLSECKLAIIHCAGHSDPILVHSLWQEIMEKELGDSVAMSPADRMRALSLKLVSLGKIYAGTPRYFPLEFLVKFLEQEVCHLNWDVGFVTFTMQEIGVQLPRLLEVYDQLFKTRDPCWQRLKKPLHLVECIHVLLSGYVEDPSRVPTYDRRRFTNVCLDNICGYLVELQSLSPNSTLRLTIGNFKALQAKLEKVH

Target ORF information:

RefSeq Version	XM_014129888.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar nuclear pore complex protein Nup155-like (LOC106563918), transcript variant X4, mRNA.

Target ORF information:

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

XM_014129888.1

ORF Insert Sequence:

ATGCCGTCCA CCTTGGGACC CAGCAGTCCT GCTGCTGCCC TTGCGGAAGC GCTGGAGAGC 
TCTGGCCGGC TCATAGACAG ACACCTTCAG GATGACCGCT GCTTCCCTGA CCTCTCAGAG 
CTTCTTAATG TCCCCGCACA CAACATGCCA TCTTTGTCTG GGGGGTCGGA CATGGACTAC 
CCTCTTCAAG GACCTGGGCT GATCAGTGTG CCAAACCTCC CTGAGCTCAG TGCAGTCCGA 
AGGGTTCCCC TACCCCCTGA GCTGGTGGAG CAATTCAGCC ATATGCAGTG CAATTGTATG 
ATGGGAGTTT TTCCTGAAAT CTGTCGAGCA TGGCTCACCA TTGACAACGA TATCTTCATG 
TGGAATTATG AGGATGGGGG GGACGTTGCA TATTTTGACG GGCTCAGTGA AACCATCCTG 
TCCGTGGGGC TGGTCAAACC TAAAGCAGGG ATTTTCCAGC CACACATCCA CTTCCTGTTG 
GTCTTAGCCA CTCCTGTGGA TGTAGTGATC CTGGGGCTCA GCTTCCCTAA AGCTCAGGCA 
GGGTTGAATG ACAGCATGTC TGGAGGGATG CAGTTACTAC CAGACCCGCT GTACTCCATC 
CCCACAGACA ACACCTATCT CCTGGCCATT ACCTCCACCG ACCTGGGCCG CATCTTCCTG 
GCAGGGAAAG ATGGCTGCCT GTATGAGGTA GCCTACCAGG CCGAGGCAGG CTGGTTCAGC 
CAACGCTGTA AGAAGATTAA CCACTCCAAA AGCAGCCTGT CCTTCCTAGT CCCCTCTCTG 
CTCCAGTTCT CCTTCTCTGA GGACGACCCG GTAGTGCAGA TTGCCATTGA CAACTCCCGT 
AACACACTCT TCACCCGCTC AGAGAAGGGG GTTCTACAGG TGTATGATCT GGGTGTAGAC 
GGGCAGGGTA TGAGCCGTGT GGCGGCCATG TCACAGAGTT CCATCGTGGC TGCAGCAGGA 
AACGTTGCCA GGACCATAGA TCGCTCTGTG TTTAAACCCA TCATAGAGAT CTCTGTGATA 
GACAGATCGG AGTCGTCCGA CTGCCACCTG CTGGCTGTCA CTCATGCAGG AGTGCGTCTC 
TACTTCAGCA CCACTCCCTT TGCCCCACAA CACGCCAAGC AGCCAGCGGC ACGCCCTTGT 
CTGCTTGCTC TGGTCCATGT CCGCCTGCCT CCAGGCTTCT CTGCCTCCTC CACCCTGCAG 
AAGCCTGCCA AGGTCCACAA GGCTCTGCAC AGCAAAGGAG TTCTCCTGAT GGCAGCGTCT 
GAGACTGAGG ACAGTGACAT CCTGTGGTGC ATCAACCATG ACTCCTTCCC CTTTAAGAAA 
CCCCTGATGG AGGCTCAGAT GATGTCCAAT GTAGATGGCC ACTCCTGGGC GCTTTGTGCC 
ATCAAGGAGG AGAAGACACC TAAAATCTCT ACCCCCCTGA ATAAGGATCA GGTTCCCCTC 
ACTGACTCTC CTGTCGTGGT ACAGCAACAC AATGTCCCTC CGCAGAAATT TGTCCTTCTC 
TCTGCCAAGG GAAGTCACAT CTTCCACAAG TTGCGGCCGG TGGACCAGCT GCGCCACCTA 
CTGGTGAGCG GTACTGGTGG AGAGAGTGAA GAAGTCGAAC GCTTCTTCAA ACTGCACAGG 
GAGGAGCAGG CGTGTGCCAC TGCTCTGATA GTAGCCTGTT CCAGTGCTGC CTGCGACAGA 
GAGGTGTCTC AGTGGGCCAC CAGAGCCTTC TTTAGGTATG GAGGAGAGGC TCAGATGAGG 
TTCCCCTCGG CTCATTCTGC TCCTAGCAAC GTCGGAGCGC TGTTCGGCTC TCCTGTACCA 
GGTATGATGC CCCAGAGTGT GTCTACGCCC TATATACCTG CCACGCCCAT GCCCTCCGCC 
CCCATCACTG GCATGTCTTC TGGGCCAGAG GTGGTCTTCT CAGGGAAACA CAATGGCATC 
AGTGTCTACT TCGCACGCAT AATGGGTAAT ATCTGGGACG GGAGTCTTGC TGTTGAGAAG 
ACCATCAGTA AAGGAAATCA GGCTGTCAGT ATTTTGGAGA GCACAGCCAG CTCGTCTGAT 
CTGGAGTCAG TTCTTCTGGA GCTCCGTGGT CTGAAGGACT TCCTGGATAA GAACTCCCAG 
TTCAGCCCCT CGTCTCTGGG GGCAGCCAGT TTCAGCTCTC CAGCCAATCT GCAGCAGCGT 
CTGCTGGGCT TCATGCGGCC TGATGGAGGA GCCAGTTCTC AGCAGGTCCA GCAGGAGCTC 
CAGAGGAAGT ACCACACCGA GGCTCAGGCC TATGAGAAGA TGTCCCTGCA GGGTATCCAG 
CAGCTGGTGC ATCGGTCCTG TCAGACCCTG GCCCTGTGGA AGCTGCTGTG TGACCACCAG 
TTCAGCCTCA TCATCTCTGA ACTACCCATG GAGTTCCAGG ACCAGATGAA GGGGGCGAGT 
TTTAAGGACG TGGTGATCCG GGGTCGAGAG CTGACTGGAG CTCTGATCAC AGCCCTCATC 
AACGTCTACA TCAAAGACTC CGCCTCTGTA GATGCCATCA GCAACCACCT TAGAGACATC 
TGTCCTTTGC TGTACAGCAG CGACGACAGC GTCTGCTCAA AGGCTAATGA GTTGCTGCAG 
GGCTCCAGAC AGATCCAGAC TAAGATCGAT AAGGAGAGAA CACTGAGAGA GTCACTACAA 
CTCTACCAGC TGATCAGCCA ACACACAGAC CTGCCACTGG TCTGCTCCCA GTACAGACAG 
GTGCGCTTTT ATGAGGGGGT GCTTGAGCTG TGCCTGACTG CAGCGGATAA GAAGGATCCT 
CAGAGGCTGG GACCTCACTT CTATAAGAAC GGAGAACCAG AGGAGGACCA GGCTGGAGCG 
CTGGCCTTCC AGGAGAGGTT GTCATGTTAT AAGTGCATCA CAGACACCAT GCAGGAGCTG 
GTGAACCAGA GTAAAGCTGC TCCTCAGTCT CCCAGTGTCC CTAAGCAGCC AGGACCCCCT 
GTTATGACCT CTGACCCTAA CATGCTGAGT AATGAGGACG CCACCGCCCA CTTTGAGCAG 
GTCATTGGTC TGGCCCAGAG GTCACAGGAT GAACTCTTCC ACATAGCCCT CTACAACTGG 
CTGATACAGG CTGACCTCAC CGACAAGCTT CTGGAGGTGA ACTCTCCATA CCTGGAGGAA 
CACCTGATGC ACATGATCAA GCAGGACCAG AGTAAGGTGC GGAACATGGA CCTGCTGTGG 
CGGTACTATG AGAAGAGCCG TAGCTTTGGC AAGGCAGCGC ACGTCCTGGC CAGGCTCGCT 
GACATGCACA GTACTGAGAT CTCCCTGAAG CAGAGGCTGG AGTACATCTC CAGGGCCATC 
CTGTCAGCCA AGAGCTCCTC CTGCATCTCT GCTCAAGGAG CTGAAGGGGA GTTCCTGCAT 
GAGCTGGAGG AGAAGATGGA GGTGGTGCGT ATTCAGGTCC AGATCCAGGA GACTCTGAGC 
AGACGTTACT CCCAGCATCC CTCTGTACAG GGAGCCATGT CACAACTGGA TTCCGAGCTT 
ATGGACATCA CCAAGCTGTA CGGGGAGTTT GCAGATCACT TCCGGTTGTC TGAATGCAAA 
CTGGCCATCA TCCACTGTGC TGGTCACTCT GACCCCATCC TGGTGCACTC TCTGTGGCAG 
GAGATCATGG AGAAAGAGCT AGGTGACAGT GTGGCCATGA GTCCAGCTGA CAGGATGAGA 
GCTCTGAGTC TCAAACTGGT GTCTCTGGGG AAAATCTATG CAGGAACACC TAGATACTTC 
CCACTGGAAT TCCTGGTGAA GTTTTTGGAG CAGGAGGTGT GTCATCTGAA TTGGGACGTG 
GGCTTTGTCA CCTTCACCAT GCAGGAGATA GGAGTCCAGC TCCCCCGTCT GCTGGAGGTC 
TACGACCAAC TTTTCAAGAC ACGGGATCCG TGTTGGCAGC GTCTGAAGAA ACCTCTCCAC 
CTGGTAGAGT GTATACATGT GCTGCTGTCA GGATATGTAG AGGACCCCAG CAGAGTACCA 
ACATATGACC GACGGCGGTT CACTAATGTG TGTCTGGATA ACATCTGTGG TTACCTGGTG 
GAGCTGCAGT CCCTGAGTCC TAACTCTACC CTGCGGCTCA CTATCGGCAA CTTCAAGGCC 
CTGCAGGCCA AGCTGGAGAA AGTTCACTGA

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

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LOC106563918 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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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