snx14 cDNA ORF clone, Salmo salar(Atlantic salmon)

Gene
Clones
gRNAs

Summary

Gene Symbol	snx14
Entrez Gene ID	100195427
Full Name	sorting nexin 14
Gene Type	protein-coding
Organism	Salmo salar(Atlantic salmon)

mRNA and Protein(s)

mRNA	Protein	Name
NM_001140456.1	NP_001133928.1	sorting nexin-14
XM_014144084.1	XP_013999559.1	sorting nexin-14 isoform X2
XM_014144083.1	XP_013999558.1	sorting nexin-14 isoform X1

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

Salmo salar and Esox lucius full-length cDNA sequences reveal changes in evolutionary pressures on a post-tetraploidization genome.
Leong JS, Jantzen SG, von Schalburg KR, Cooper GA, Messmer AM, Liao NY, Munro S, Moore R, Holt RA, Jones SJ, Davidson WS, Koop BF
BMC genomics11279(2010 Apr)

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

The following snx14 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the snx14 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)
OAt01718	NM_001140456.1 Latest version!	Salmo salar sorting nexin 14 (snx14), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAt46903	XM_014144083.1 Latest version!	Salmo salar sorting nexin 14 (snx14), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAt46904	XM_014144084.1 Latest version!	Salmo salar sorting nexin 14 (snx14), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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5 or more Clone	50% OFF
All Other ORF Clones
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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)

snx14 ( NM_001140456.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> NP_001133928.1 Salmo salar sorting nexin 14 (snx14), mRNA.

Price & Availability↑

CloneID	OAt01718
Clone ID Related Accession (Same CDS sequence)	NM_001140456.1
Accession Version	NM_001140456.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2784bp) 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	1461340800000
Organism	Salmo salar(Atlantic salmon)
Product	sorting nexin-14
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BT045895.1. ##Evidence-Data-START## Transcript exon combination :: BT045895.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMN00779696, SAMN02597923 [ECO:0000350] ##Evidence-Data-END##

ATGGAATGTA TTCGAGTTTA TCTGGAGAGC CTGAAGCAAG GACTGCAAAT TGATGTCTTG 
AGGGAAGTTG GACGTCAATA TCCTGTCTTT TGCATTCTTC TGGTTTTTAT GCTGTCATTA 
ACTATACTTC TTAATAGGTA TCTTCACATT CTGATGGTGT TTTGGTCCTT CCTGGCTGGA 
GTGATTACAT TCTATTGCTC CCTCGGTCCA GAATCACTCC TGCCCAACAT CCTGTACACC 
ATAAAGCCCA AGAACAAACA AGAGCAACAG GAGCTGTTTC CATTGGGACA CAGCTGTGCA 
GTGTGTGGGA AAGTAAAGTG CAAACGTCAC AGACCAACAT TACTCCTAGA AAACTATCAG 
CCATGGTTGG ACTTGAAAGT CTACTCCAAA GTGGATGCTT CCATGTCTGA GGTGCTCGAG 
TTGGTTCTGG AGAATTTTGT ATATCCCTGG TACCGGAACA TCACAGATGA TGAGGCATGT 
GTAGATGAAC TGAGAATGAC CTTTCGGTTC TTTGCATCTG TGTTAGTTCG GCGAGCTCAG 
AAGGTTGATG TCCCCTCAGT TATTTCTGGC AAAATGATGA AAGCAGCCAT GAAGCACGTT 
GAAATAATTG CAAAGGCCAA GCAAAAAGTG AAGAACACTG AGGGTTTGCA GCAGGCTGCT 
CTGGATGAGT ATGGGCCTGG CTTACATTTT GCCCTGCATA GTCGCAAAGA TGAGCTCCGT 
TATCTCAGGA AGGTGACAAA GATGCTATTT GCCTATCTCA TGCCTCCCAA AGCCACTGAC 
TGCAGATCTC TAGCTGTGCT GATGCAAGAG ATCCTGGTAG GCTCTGTGTT CCTCCCCATC 
ATGGACTTCA TGGCTGATCC TGATACTGTG AACCACATGG TGCTAATATT CGTTGATGAC 
ACTCCATCTG AGCCGGCCAT GGAGCCACCA TCTACCCTGG TTCCATTCCT GCAGAAATAC 
GCTGACCCTC GTACCAAGAA GACATCTGTG CTGAAGCTGG AGCTGAAGGA GATCCGGGAG 
CAGCAGGACC TTCTGTTCCG CTTCATGAAC TTCCTAAAGC AGGAGGGAGC CGTGCACGTG 
CTCCAGTTCT TACTCACCGT GGAGGAGTTC AATGATAAGA TCCTGTGTCC AGAGCTGAGT 
GAAGCTGAGC TGCATCGTCT GCATGGTGAG GTGCAGCACG TCTACAAGAC CTACTGCTTG 
GAGGAGAGTA TCGACAAGAT CAGTTTTGAC CGCTTCATCG TTGAGGAAAT ACGAAACATT 
GCCGAGGGGC CGTACGAGGG AGTGGTGAAG CTGCAGACTA TGCGCTGCCT GTTTGAGGCC 
TACGAGCATG TCCTGTCCCT GCTGGAGAGC GTCTTCACCC CCATGTTCTG CCACAGCGAT 
GGGTATTTCA CACACCTGCT GATGGGGGCA GAGTCTCCAA AAAGGGACTC CAGAATTAAC 
AGGAACGTCT CAAAACGAGG GGAGACGTTC GGGATCAGCC GGATCGGCAG CAAAATCAAA 
GGCGTCTTCA AGAGCACCAC CATGGAGGGG GCGATGCTGC CGTACACCAT GGTCGACGCT 
GAAGATGAAG CGGTTGAGGA AGCGACTATG GTGATGGAGG ATGACTCCCC TGTGGAGACA 
GCTAGTACTC CAGGAGTCCT GAGGAACCTG TCAGCCTGGA GCATCACCAT CCCCTACATT 
GACTTCTACG ATGACGAGGT GAAGAAGGAG AGGGTCCCCG TGTTCTGCAT CGACGTGGAA 
CGCAATGACA TGAAGGAAGT GGGACATGAA ACAGAGGACT GGTCCATCTT CAGAAGATAC 
ATGGAATTCT ACGTTCTAGA AAATAAACTC ACAGAGTTCC ATGGCTCATT TGCAGATGCA 
CAGCTCCCTT CGAAAAGAAT TATAGGACCA AAGAACTATG AGTTCCTATC ATCAAAGAGG 
GAAGAATTTG AGGAGTATTT GCAGAGACTG CTGCAGCACC CAGAGCTGAG TAACAGTCAG 
CTGTTGGCAG ACTTCCTGTC ACCTCACAGC ATGGAGACTC AGTTTATGGA CAAGATGATG 
CCTGATGTAA ACCTGGGTAA AATATTCAGG TCTGTCCCTG GAAAAATTAT TAAAGAGAAA 
GGACAGAACC TAGAGCCTTT CATCCAGTCC TTCTTCAACT CTTGTGAATC TCCCAAAGTC 
AAACCCAGCA GGCCTGAGCT GACCATCCTC AGCTCTACTG CTGAGTACAA CAAGCACTCC 
AATGACCTCT ACAAAAACAA TGCTAATCTG TCTGAGACCC TGGAGACACA TAACCGGAAC 
TACTTTATGG AGATGATCTC GGTAGAAGGG ATGTATGACT ACATGATGTT TATGGGTCGA 
GTCGTGTTCC ACATGCCAGA CTGGTTGCAT CACATCCTGT CAGGGGGGCG GATCTTGCTC 
AAGAACACAT TGGAGGCCTA CATGGATAAC TACATTCAAC ACAAGCTGGA GATGATCTTG 
CAGGAGCACC GTGTGGTGTC TCTCGTCACC ATGCTCAGAG ATGCTGTGTT CTGCGAGAAC 
AGTGAGGAAC GCACCACAGG AGACAAGCAG AGAAGAGCCA AGAAGGCATT CGAAGAGATG 
ATGAATTATC TGCCAGACTT TATGGAAAAG TGCATTGGAC AGGAGGCCAA GTACGAGGGC 
ATCAGACTTC TCTTTGACGG CTTCCAGCAG CCACTTCTCA ACAAGCAGAT GACTTACGTT 
CTGATGGATA TTGCTGTCGA AGAACTGTTT CCAGAACTCG GCAAGCAGGG ACAAAGGGAG 
CCATCGGTAG ACAGTAACCA GTGA

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

RefSeq	NP_001133928.1
CDS	168..2951
Translation	MECIRVYLESLKQGLQIDVLREVGRQYPVFCILLVFMLSLTILLNRYLHILMVFWSFLAGVITFYCSLGPESLLPNILYTIKPKNKQEQQELFPLGHSCAVCGKVKCKRHRPTLLLENYQPWLDLKVYSKVDASMSEVLELVLENFVYPWYRNITDDEACVDELRMTFRFFASVLVRRAQKVDVPSVISGKMMKAAMKHVEIIAKAKQKVKNTEGLQQAALDEYGPGLHFALHSRKDELRYLRKVTKMLFAYLMPPKATDCRSLAVLMQEILVGSVFLPIMDFMADPDTVNHMVLIFVDDTPSEPAMEPPSTLVPFLQKYADPRTKKTSVLKLELKEIREQQDLLFRFMNFLKQEGAVHVLQFLLTVEEFNDKILCPELSEAELHRLHGEVQHVYKTYCLEESIDKISFDRFIVEEIRNIAEGPYEGVVKLQTMRCLFEAYEHVLSLLESVFTPMFCHSDGYFTHLLMGAESPKRDSRINRNVSKRGETFGISRIGSKIKGVFKSTTMEGAMLPYTMVDAEDEAVEEATMVMEDDSPVETASTPGVLRNLSAWSITIPYIDFYDDEVKKERVPVFCIDVERNDMKEVGHETEDWSIFRRYMEFYVLENKLTEFHGSFADAQLPSKRIIGPKNYEFLSSKREEFEEYLQRLLQHPELSNSQLLADFLSPHSMETQFMDKMMPDVNLGKIFRSVPGKIIKEKGQNLEPFIQSFFNSCESPKVKPSRPELTILSSTAEYNKHSNDLYKNNANLSETLETHNRNYFMEMISVEGMYDYMMFMGRVVFHMPDWLHHILSGGRILLKNTLEAYMDNYIQHKLEMILQEHRVVSLVTMLRDAVFCENSEERTTGDKQRRAKKAFEEMMNYLPDFMEKCIGQEAKYEGIRLLFDGFQQPLLNKQMTYVLMDIAVEELFPELGKQGQREPSVDSNQ

Target ORF information:

RefSeq Version	NM_001140456.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar sorting nexin 14 (snx14), mRNA.

Target ORF information:

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

NM_001140456.1

ORF Insert Sequence:

ATGGAATGTA TTCGAGTTTA TCTGGAGAGC CTGAAGCAAG GACTGCAAAT TGATGTCTTG 
AGGGAAGTTG GACGTCAATA TCCTGTCTTT TGCATTCTTC TGGTTTTTAT GCTGTCATTA 
ACTATACTTC TTAATAGGTA TCTTCACATT CTGATGGTGT TTTGGTCCTT CCTGGCTGGA 
GTGATTACAT TCTATTGCTC CCTCGGTCCA GAATCACTCC TGCCCAACAT CCTGTACACC 
ATAAAGCCCA AGAACAAACA AGAGCAACAG GAGCTGTTTC CATTGGGACA CAGCTGTGCA 
GTGTGTGGGA AAGTAAAGTG CAAACGTCAC AGACCAACAT TACTCCTAGA AAACTATCAG 
CCATGGTTGG ACTTGAAAGT CTACTCCAAA GTGGATGCTT CCATGTCTGA GGTGCTCGAG 
TTGGTTCTGG AGAATTTTGT ATATCCCTGG TACCGGAACA TCACAGATGA TGAGGCATGT 
GTAGATGAAC TGAGAATGAC CTTTCGGTTC TTTGCATCTG TGTTAGTTCG GCGAGCTCAG 
AAGGTTGATG TCCCCTCAGT TATTTCTGGC AAAATGATGA AAGCAGCCAT GAAGCACGTT 
GAAATAATTG CAAAGGCCAA GCAAAAAGTG AAGAACACTG AGGGTTTGCA GCAGGCTGCT 
CTGGATGAGT ATGGGCCTGG CTTACATTTT GCCCTGCATA GTCGCAAAGA TGAGCTCCGT 
TATCTCAGGA AGGTGACAAA GATGCTATTT GCCTATCTCA TGCCTCCCAA AGCCACTGAC 
TGCAGATCTC TAGCTGTGCT GATGCAAGAG ATCCTGGTAG GCTCTGTGTT CCTCCCCATC 
ATGGACTTCA TGGCTGATCC TGATACTGTG AACCACATGG TGCTAATATT CGTTGATGAC 
ACTCCATCTG AGCCGGCCAT GGAGCCACCA TCTACCCTGG TTCCATTCCT GCAGAAATAC 
GCTGACCCTC GTACCAAGAA GACATCTGTG CTGAAGCTGG AGCTGAAGGA GATCCGGGAG 
CAGCAGGACC TTCTGTTCCG CTTCATGAAC TTCCTAAAGC AGGAGGGAGC CGTGCACGTG 
CTCCAGTTCT TACTCACCGT GGAGGAGTTC AATGATAAGA TCCTGTGTCC AGAGCTGAGT 
GAAGCTGAGC TGCATCGTCT GCATGGTGAG GTGCAGCACG TCTACAAGAC CTACTGCTTG 
GAGGAGAGTA TCGACAAGAT CAGTTTTGAC CGCTTCATCG TTGAGGAAAT ACGAAACATT 
GCCGAGGGGC CGTACGAGGG AGTGGTGAAG CTGCAGACTA TGCGCTGCCT GTTTGAGGCC 
TACGAGCATG TCCTGTCCCT GCTGGAGAGC GTCTTCACCC CCATGTTCTG CCACAGCGAT 
GGGTATTTCA CACACCTGCT GATGGGGGCA GAGTCTCCAA AAAGGGACTC CAGAATTAAC 
AGGAACGTCT CAAAACGAGG GGAGACGTTC GGGATCAGCC GGATCGGCAG CAAAATCAAA 
GGCGTCTTCA AGAGCACCAC CATGGAGGGG GCGATGCTGC CGTACACCAT GGTCGACGCT 
GAAGATGAAG CGGTTGAGGA AGCGACTATG GTGATGGAGG ATGACTCCCC TGTGGAGACA 
GCTAGTACTC CAGGAGTCCT GAGGAACCTG TCAGCCTGGA GCATCACCAT CCCCTACATT 
GACTTCTACG ATGACGAGGT GAAGAAGGAG AGGGTCCCCG TGTTCTGCAT CGACGTGGAA 
CGCAATGACA TGAAGGAAGT GGGACATGAA ACAGAGGACT GGTCCATCTT CAGAAGATAC 
ATGGAATTCT ACGTTCTAGA AAATAAACTC ACAGAGTTCC ATGGCTCATT TGCAGATGCA 
CAGCTCCCTT CGAAAAGAAT TATAGGACCA AAGAACTATG AGTTCCTATC ATCAAAGAGG 
GAAGAATTTG AGGAGTATTT GCAGAGACTG CTGCAGCACC CAGAGCTGAG TAACAGTCAG 
CTGTTGGCAG ACTTCCTGTC ACCTCACAGC ATGGAGACTC AGTTTATGGA CAAGATGATG 
CCTGATGTAA ACCTGGGTAA AATATTCAGG TCTGTCCCTG GAAAAATTAT TAAAGAGAAA 
GGACAGAACC TAGAGCCTTT CATCCAGTCC TTCTTCAACT CTTGTGAATC TCCCAAAGTC 
AAACCCAGCA GGCCTGAGCT GACCATCCTC AGCTCTACTG CTGAGTACAA CAAGCACTCC 
AATGACCTCT ACAAAAACAA TGCTAATCTG TCTGAGACCC TGGAGACACA TAACCGGAAC 
TACTTTATGG AGATGATCTC GGTAGAAGGG ATGTATGACT ACATGATGTT TATGGGTCGA 
GTCGTGTTCC ACATGCCAGA CTGGTTGCAT CACATCCTGT CAGGGGGGCG GATCTTGCTC 
AAGAACACAT TGGAGGCCTA CATGGATAAC TACATTCAAC ACAAGCTGGA GATGATCTTG 
CAGGAGCACC GTGTGGTGTC TCTCGTCACC ATGCTCAGAG ATGCTGTGTT CTGCGAGAAC 
AGTGAGGAAC GCACCACAGG AGACAAGCAG AGAAGAGCCA AGAAGGCATT CGAAGAGATG 
ATGAATTATC TGCCAGACTT TATGGAAAAG TGCATTGGAC AGGAGGCCAA GTACGAGGGC 
ATCAGACTTC TCTTTGACGG CTTCCAGCAG CCACTTCTCA ACAAGCAGAT GACTTACGTT 
CTGATGGATA TTGCTGTCGA AGAACTGTTT CCAGAACTCG GCAAGCAGGG ACAAAGGGAG 
CCATCGGTAG ACAGTAACCA GTGA

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

snx14 ( XM_014144083.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_013999558.1 Salmo salar sorting nexin 14 (snx14), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAt46903
Clone ID Related Accession (Same CDS sequence)	XM_014144083.1
Accession Version	XM_014144083.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2811bp) 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	sorting nexin-14 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012338264.1) 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##

ATGGAATGTA TTCGAGTTTA TCTGGAGAGC CTGAAGCAAG GACTGCAAAT TGATGTCTTG 
AGGGAAGTTG GACGTCAATA TCCTGTCTTT TGCATTCTTC TGGTTTTTAT GCTGTCATTA 
ACTATACTTC TTAATAGGTA TCTTCACATT CTGATGGTGT TTTGGTCCTT CCTGGCTGGA 
GTGATTACAT TCTATTGCTC CCTCGGTCCA GAATCACTCC TGCCCAACAT CCTGTACACC 
ATAAAGCCCA AGAACAAACA AGAGCAACAG GAGCTGTTTC CATTGGGACA CAGCTGTGCA 
GTGTGTGGGA AAGTAAAGTG CAAACGTCAC AGACCAACAT TACTCCTAGA AAACTATCAG 
CCATGGTTGG ACTTGAAAGT CTACTCCAAA GTGGATGCTT CCATGTCTGA GGTGCTCGAG 
TTGGTTCTGG AGAATTTTGT ATATCCCTGG TACCGGAACA TCACAGATGA TGAGGCATGT 
GTAGATGAAC TGAGAATGAC CTTTCGGTTC TTTGCATCTG TGTTAGTTCG GCGAGCTCAG 
AAGGTTGATG TCCCCTCAGT TATTTCTGGC AAAATGATGA AAGCAGCCAT GAAGCACGTT 
GAAATAATTG CAAAGGCCAA GCAAAAAGTG AAGAACACTG AGGGTTTGCA GCAGGCTGCT 
CTGGATGAGT ATGGGCCTGG CTTACATTTT GCCCTGCATA GTCGCAAAGA TGAGCTCCGT 
TATCTCAGGA AGGTGACAAA GATGCTATTT GCCTATCTCA TGCCTCCCAA AGCCACTGAC 
TGCAGATCTC TAGCTGTGCT GATGCAAGAG ATCCTGGTAG GCTCTGTGTT CCTCCCCATC 
ATGGACTTCA TGGCTGATCC TGATACTGTG AACCACATGG TGCTAATATT CGTTGATGAC 
ACTCCATCTG AGCCGGCCAT GGAGCCACCA TCTACCCTGG TTCCATTCCT GCAGAAATAC 
GCTGACCCTC GTACCAAGAA GACATCTGTG CTGAAGCTGG AGCTGAAGGA GATCCGGGAG 
CAGCAGGACC TTCTGTTCCG CTTCATGAAC TTCCTAAAGC AGGAGGGAGC CGTGCACGTG 
CTCCAGTTCT TACTCACCGT GGAGGAGTTC AATGATAAGA TCCTGTGTCC AGAGCTGAGT 
GAAGCTGAGC TGCATCGTCT GCATGGTGAG GTGCAGCACG TCTACAAGAC CTACTGCTTG 
GAGGAGAGTA TCGACAAGAT CAGTTTTGAC CGCTTCATCG TTGAGGAAAT ACGAAACATT 
GCCGAGGGGC CGTACGAGGG AGTGGTGAAG CTGCAGACTA TGCGCTGCCT GTTTGAGGCC 
TACGAGCATG TCCTGTCCCT GCTGGAGAGC GTCTTCACCC CCATGTTCTG CCACAGCGAT 
GGGTATTTCA CACACCTGCT GATGGGGGCA GAGTCTCCAA AAAGGGACTC CAGAATTAAC 
AGGAATAGTC TGTGTGTGGA TGATATGAGG AACGTCTCAA AACGAGGGGA GACGTTCGGG 
ATCAGCCGGA TCGGCAGCAA AATCAAAGGC GTCTTCAAGA GCACCACCAT GGAGGGGGCG 
ATGCTGCCGT ACACCATGGT CGACGCTGAA GATGAAGCGG TTGAGGAAGC GACTATGGTG 
ATGGAGGATG ACTCCTCTGT GGAGACAGCT AGTACTCCAG GAGTCCTGAG GAACCTGTCA 
GCCTGGAGCA TCACCATCCC CTACATTGAC TTCTACGATG ACGAGGTGAA GAAGGAGAGG 
GTCCCCGTGT TCTGCATCGA CGTGGAACGC AATGACATGA AGGAAGTGGG ACATGAAACA 
GAGGACTGGT CCATCTTCAG AAGATACATG GAATTCTACG TTCTAGAAAA TAAACTCACA 
GAGTTCCATG GCTCATTTGC AGATGCACAG CTCCCTTCGA AAAGAATTAT AGGACCAAAG 
AACTATGAGT TCCTATCATC AAAGAGGGAA GAATTTGAGG AGTATTTGCA GAGACTGCTG 
CAGCACCCAG AGCTGAGTAA CAGTCAGCTG TTGGCAGACT TCCTGTCACC TCACAGCATG 
GAGACTCAGT TTATGGACAA GATGATGCCT GATGTAAACC TGGGTAAAAT ATTCAGGTCT 
GTCCCTGGAA AAATTATTAA AGAGAAAGGA CAGAACCTAG AGCCTTTCAT CCAGTCCTTC 
TTCAACTCTT GTGAATCTCC CAAAGTCAAA CCCAGCAGGC CTGAGCTGAC CATCCTCAGC 
TCTACTGCTG AGTACAACAA GCACTCCAAT GACCTCTACA AAAACAATGC TAATCTGTCT 
GAGACCCTGG AGACACATAA CCGGAACTAC TTTATGGAGA TGATCTCAGT AGAAGGGATG 
TATGACTACA TGATGTTTAT GGGTCGAGTC GTGTTCCACA TGCCAGACTG GTTGCATCAC 
ATCCTGTCAG GGGGGCGGAT CTTGCTCAAG AACACATTGG AGGCCTACAT GGATAACTAC 
ATTCAACACA AGCTGGAGAT GATCTTGCAG GAGCACCGTG TGGTGTCTCT CGTCACCATG 
CTCAGAGATG CTGTGTTCTG CGAGAACAGT GAGGAACGCA CCACAGGAGA CAAGCAGAGA 
AGAGCCAAGA AGGCATTCGA AGAGATGATG AATTATCTGC CAGACTTTAT GGAAAAGTGC 
ATTGGACAGG AGGCCAAGTA CGAGGGCATC AGACTTCTCT TTGACGGCTT CCAGCAGCCA 
CTTCTCAACA AGCAGATGAC TTACGTTCTG ATGGATATTG CTGTCGAAGA ACTGTTTCCA 
GAACTCGGCA AGCAGGGACA AAGGGAGCCA TCGGTAGACA GTAACCAGTG A

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

RefSeq	XP_013999558.1
CDS	200..3010
Translation	MECIRVYLESLKQGLQIDVLREVGRQYPVFCILLVFMLSLTILLNRYLHILMVFWSFLAGVITFYCSLGPESLLPNILYTIKPKNKQEQQELFPLGHSCAVCGKVKCKRHRPTLLLENYQPWLDLKVYSKVDASMSEVLELVLENFVYPWYRNITDDEACVDELRMTFRFFASVLVRRAQKVDVPSVISGKMMKAAMKHVEIIAKAKQKVKNTEGLQQAALDEYGPGLHFALHSRKDELRYLRKVTKMLFAYLMPPKATDCRSLAVLMQEILVGSVFLPIMDFMADPDTVNHMVLIFVDDTPSEPAMEPPSTLVPFLQKYADPRTKKTSVLKLELKEIREQQDLLFRFMNFLKQEGAVHVLQFLLTVEEFNDKILCPELSEAELHRLHGEVQHVYKTYCLEESIDKISFDRFIVEEIRNIAEGPYEGVVKLQTMRCLFEAYEHVLSLLESVFTPMFCHSDGYFTHLLMGAESPKRDSRINRNSLCVDDMRNVSKRGETFGISRIGSKIKGVFKSTTMEGAMLPYTMVDAEDEAVEEATMVMEDDSSVETASTPGVLRNLSAWSITIPYIDFYDDEVKKERVPVFCIDVERNDMKEVGHETEDWSIFRRYMEFYVLENKLTEFHGSFADAQLPSKRIIGPKNYEFLSSKREEFEEYLQRLLQHPELSNSQLLADFLSPHSMETQFMDKMMPDVNLGKIFRSVPGKIIKEKGQNLEPFIQSFFNSCESPKVKPSRPELTILSSTAEYNKHSNDLYKNNANLSETLETHNRNYFMEMISVEGMYDYMMFMGRVVFHMPDWLHHILSGGRILLKNTLEAYMDNYIQHKLEMILQEHRVVSLVTMLRDAVFCENSEERTTGDKQRRAKKAFEEMMNYLPDFMEKCIGQEAKYEGIRLLFDGFQQPLLNKQMTYVLMDIAVEELFPELGKQGQREPSVDSNQ

Target ORF information:

RefSeq Version	XM_014144083.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar sorting nexin 14 (snx14), transcript variant X1, mRNA.

Target ORF information:

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

XM_014144083.1

ORF Insert Sequence:

ATGGAATGTA TTCGAGTTTA TCTGGAGAGC CTGAAGCAAG GACTGCAAAT TGATGTCTTG 
AGGGAAGTTG GACGTCAATA TCCTGTCTTT TGCATTCTTC TGGTTTTTAT GCTGTCATTA 
ACTATACTTC TTAATAGGTA TCTTCACATT CTGATGGTGT TTTGGTCCTT CCTGGCTGGA 
GTGATTACAT TCTATTGCTC CCTCGGTCCA GAATCACTCC TGCCCAACAT CCTGTACACC 
ATAAAGCCCA AGAACAAACA AGAGCAACAG GAGCTGTTTC CATTGGGACA CAGCTGTGCA 
GTGTGTGGGA AAGTAAAGTG CAAACGTCAC AGACCAACAT TACTCCTAGA AAACTATCAG 
CCATGGTTGG ACTTGAAAGT CTACTCCAAA GTGGATGCTT CCATGTCTGA GGTGCTCGAG 
TTGGTTCTGG AGAATTTTGT ATATCCCTGG TACCGGAACA TCACAGATGA TGAGGCATGT 
GTAGATGAAC TGAGAATGAC CTTTCGGTTC TTTGCATCTG TGTTAGTTCG GCGAGCTCAG 
AAGGTTGATG TCCCCTCAGT TATTTCTGGC AAAATGATGA AAGCAGCCAT GAAGCACGTT 
GAAATAATTG CAAAGGCCAA GCAAAAAGTG AAGAACACTG AGGGTTTGCA GCAGGCTGCT 
CTGGATGAGT ATGGGCCTGG CTTACATTTT GCCCTGCATA GTCGCAAAGA TGAGCTCCGT 
TATCTCAGGA AGGTGACAAA GATGCTATTT GCCTATCTCA TGCCTCCCAA AGCCACTGAC 
TGCAGATCTC TAGCTGTGCT GATGCAAGAG ATCCTGGTAG GCTCTGTGTT CCTCCCCATC 
ATGGACTTCA TGGCTGATCC TGATACTGTG AACCACATGG TGCTAATATT CGTTGATGAC 
ACTCCATCTG AGCCGGCCAT GGAGCCACCA TCTACCCTGG TTCCATTCCT GCAGAAATAC 
GCTGACCCTC GTACCAAGAA GACATCTGTG CTGAAGCTGG AGCTGAAGGA GATCCGGGAG 
CAGCAGGACC TTCTGTTCCG CTTCATGAAC TTCCTAAAGC AGGAGGGAGC CGTGCACGTG 
CTCCAGTTCT TACTCACCGT GGAGGAGTTC AATGATAAGA TCCTGTGTCC AGAGCTGAGT 
GAAGCTGAGC TGCATCGTCT GCATGGTGAG GTGCAGCACG TCTACAAGAC CTACTGCTTG 
GAGGAGAGTA TCGACAAGAT CAGTTTTGAC CGCTTCATCG TTGAGGAAAT ACGAAACATT 
GCCGAGGGGC CGTACGAGGG AGTGGTGAAG CTGCAGACTA TGCGCTGCCT GTTTGAGGCC 
TACGAGCATG TCCTGTCCCT GCTGGAGAGC GTCTTCACCC CCATGTTCTG CCACAGCGAT 
GGGTATTTCA CACACCTGCT GATGGGGGCA GAGTCTCCAA AAAGGGACTC CAGAATTAAC 
AGGAATAGTC TGTGTGTGGA TGATATGAGG AACGTCTCAA AACGAGGGGA GACGTTCGGG 
ATCAGCCGGA TCGGCAGCAA AATCAAAGGC GTCTTCAAGA GCACCACCAT GGAGGGGGCG 
ATGCTGCCGT ACACCATGGT CGACGCTGAA GATGAAGCGG TTGAGGAAGC GACTATGGTG 
ATGGAGGATG ACTCCTCTGT GGAGACAGCT AGTACTCCAG GAGTCCTGAG GAACCTGTCA 
GCCTGGAGCA TCACCATCCC CTACATTGAC TTCTACGATG ACGAGGTGAA GAAGGAGAGG 
GTCCCCGTGT TCTGCATCGA CGTGGAACGC AATGACATGA AGGAAGTGGG ACATGAAACA 
GAGGACTGGT CCATCTTCAG AAGATACATG GAATTCTACG TTCTAGAAAA TAAACTCACA 
GAGTTCCATG GCTCATTTGC AGATGCACAG CTCCCTTCGA AAAGAATTAT AGGACCAAAG 
AACTATGAGT TCCTATCATC AAAGAGGGAA GAATTTGAGG AGTATTTGCA GAGACTGCTG 
CAGCACCCAG AGCTGAGTAA CAGTCAGCTG TTGGCAGACT TCCTGTCACC TCACAGCATG 
GAGACTCAGT TTATGGACAA GATGATGCCT GATGTAAACC TGGGTAAAAT ATTCAGGTCT 
GTCCCTGGAA AAATTATTAA AGAGAAAGGA CAGAACCTAG AGCCTTTCAT CCAGTCCTTC 
TTCAACTCTT GTGAATCTCC CAAAGTCAAA CCCAGCAGGC CTGAGCTGAC CATCCTCAGC 
TCTACTGCTG AGTACAACAA GCACTCCAAT GACCTCTACA AAAACAATGC TAATCTGTCT 
GAGACCCTGG AGACACATAA CCGGAACTAC TTTATGGAGA TGATCTCAGT AGAAGGGATG 
TATGACTACA TGATGTTTAT GGGTCGAGTC GTGTTCCACA TGCCAGACTG GTTGCATCAC 
ATCCTGTCAG GGGGGCGGAT CTTGCTCAAG AACACATTGG AGGCCTACAT GGATAACTAC 
ATTCAACACA AGCTGGAGAT GATCTTGCAG GAGCACCGTG TGGTGTCTCT CGTCACCATG 
CTCAGAGATG CTGTGTTCTG CGAGAACAGT GAGGAACGCA CCACAGGAGA CAAGCAGAGA 
AGAGCCAAGA AGGCATTCGA AGAGATGATG AATTATCTGC CAGACTTTAT GGAAAAGTGC 
ATTGGACAGG AGGCCAAGTA CGAGGGCATC AGACTTCTCT TTGACGGCTT CCAGCAGCCA 
CTTCTCAACA AGCAGATGAC TTACGTTCTG ATGGATATTG CTGTCGAAGA ACTGTTTCCA 
GAACTCGGCA AGCAGGGACA AAGGGAGCCA TCGGTAGACA GTAACCAGTG A

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

snx14 ( XM_014144084.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_013999559.1 Salmo salar sorting nexin 14 (snx14), transcript variant X2, mRNA.

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CloneID	OAt46904
Clone ID Related Accession (Same CDS sequence)	XM_014144084.1
Accession Version	XM_014144084.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2808bp) 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	sorting nexin-14 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012338264.1) 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##

ATGGAATGTA TTCGAGTTTA TCTGGAGAGC CTGAAGCAAG GACTGCAAAT TGATGTCTTG 
AGGGAAGTTG GACGTCAATA TCCTGTCTTT TGCATTCTTC TGGTTTTTAT GCTGTCATTA 
ACTATACTTC TTAATAGGTA TCTTCACATT CTGATGGTGT TTTGGTCCTT CCTGGCTGGA 
GTGATTACAT TCTATTGCTC CCTCGGTCCA GAATCACTCC TGCCCAACAT CCTGTACACC 
ATAAAGCCCA AGAACAAACA AGAGCAACAG GAGCTGTTTC CATTGGGACA CAGCTGTGCA 
GTGTGTGGGA AAGTAAAGTG CAAACGTCAC AGACCAACAT TACTCCTAGA AAACTATCAG 
CCATGGTTGG ACTTGAAAGT CTACTCCAAA GTGGATGCTT CCATGTCTGA GGTGCTCGAG 
TTGGTTCTGG AGAATTTTGT ATATCCCTGG TACCGGAACA TCACAGATGA TGAGGCATGT 
GTAGATGAAC TGAGAATGAC CTTTCGGTTC TTTGCATCTG TGTTAGTTCG GCGAGCTCAG 
AAGGTTGATG TCCCCTCAGT TATTTCTGGC AAAATGATGA AAGCAGCCAT GAAGCACGTT 
GAAATAATTG CAAAGGCCAA GCAAAAAGTG AAGAACACTG AGGGTTTGCA GCAGGCTGCT 
CTGGATGAGT ATGGGCCTGG CTTACATTTT GCCCTGCATA GTCGCAAAGA TGAGCTCCGT 
TATCTCAGGA AGGTGACAAA GATGCTATTT GCCTATCTCA TGCCTCCCAA AGCCACTGAC 
TGCAGATCTC TAGCTGTGCT GATGCAAGAG ATCCTGGTAG GCTCTGTGTT CCTCCCCATC 
ATGGACTTCA TGGCTGATCC TGATACTGTG AACCACATGG TGCTAATATT CGTTGATGAC 
ACTCCATCTG AGCCGGCCAT GGAGCCACCA TCTACCCTGG TTCCATTCCT GCAGAAATAC 
GCTGACCCTC GTACCAAGAA GACATCTGTG CTGAAGCTGG AGCTGAAGGA GATCCGGGAG 
CAGCAGGACC TTCTGTTCCG CTTCATGAAC TTCCTAAAGC AGGAGGGAGC CGTGCACGTG 
CTCCAGTTCT TACTCACCGT GGAGGAGTTC AATGATAAGA TCCTGTGTCC AGAGCTGAGT 
GAAGCTGAGC TGCATCGTCT GCATGGTGAG GTGCAGCACG TCTACAAGAC CTACTGCTTG 
GAGGAGAGTA TCGACAAGAT CAGTTTTGAC CGCTTCATCG TTGAGGAAAT ACGAAACATT 
GCCGAGGGGC CGTACGAGGG AGTGGTGAAG CTGCAGACTA TGCGCTGCCT GTTTGAGGCC 
TACGAGCATG TCCTGTCCCT GCTGGAGAGC GTCTTCACCC CCATGTTCTG CCACAGCGAT 
GGGTATTTCA CACACCTGCT GATGGGGGCA GAGTCTCCAA AAAGGGACTC CAGAATTAAC 
AGGAATAGTC TGTGTGTGGA TGATATGAGG AACGTCTCAA AACGAGGGGA GACGTTCGGG 
ATCAGCCGGA TCGGCAGCAA AATCAAAGGC GTCTTCAAGA GCACCACCAT GGAGGGGGCG 
ATGCTGCCGT ACACCATGGT CGACGCTGAA GATGAAGCGG TTGAGGAAGC GACTATGGTG 
ATGGAGGATG ACTCCTCTGT GGAGACAGCT AGTACTCCAG GAGTCCTGAG GAACCTGTCA 
GCCTGGAGCA TCACCATCCC CTACATTGAC TTCTACGATG ACGAGGTGAA GAAGGAGAGG 
GTCCCCGTGT TCTGCATCGA CGTGGAACGC AATGACATGA AGGAAGTGGG ACATGAAACA 
GAGGACTGGT CCATCTTCAG AAGATACATG GAATTCTACG TTCTAGAAAA TAAACTCACA 
GAGTTCCATG GCTCATTTGC AGATGCACAG CTCCCTTCGA AAAGAATTAT AGGACCAAAG 
AACTATGAGT TCCTATCATC AAAGAGGGAA GAATTTGAGG AGTATTTGCA GAGACTGCTG 
CAGCACCCAG AGCTGAGTAA CAGTCAGCTG TTGGCAGACT TCCTGTCACC TCACAGCATG 
GAGACTCAGT TTATGGACAA GATGATGCCT GATGTAAACC TGGGTAAAAT ATTCAGGTCT 
GTCCCTGGAA AAATTATTAA AGAGAAAGGA CAGAACCTAG AGCCTTTCAT CCAGTCCTTC 
TTCAACTCTT GTGAATCTCC CAAAGTCAAA CCCAGCAGGC CTGAGCTGAC CATCCTCAGC 
TCTACTGCTG AGTACAACAA GCACTCCAAT GACCTCTACA AAAACAATGC TAATCTGTCT 
GAGACCCTGG AGACACATAA CCGGAACTAC TTTATGGAGA TGATCTCAGT AGAAGGGATG 
TATGACTACA TGATGTTTAT GGGTCGAGTC GTGTTCCACA TGCCAGACTG GTTGCATCAC 
ATCCTGTCAG GGGGGCGGAT CTTGCTCAAG AACACATTGG AGGCCTACAT GGATAACTAC 
ATTCAACACA AGCTGGAGAT GATCTTGCAG GAGCACCGTG TGGTGTCTCT CGTCACCATG 
CTCAGAGATG CTGTGTTCTG CGAGAACAGT GAGGAACGCA CCACAGGAGA CAAGCAGAGA 
AGAGCCAAGA AGGCATTCGA AGAGATGATG AATTATCTGC CAGACTTTAT GGAAAAGTGC 
ATTGGACAGG AGGCCAAGTA CGAGGGCATC AGACTTCTCT TTGACGGCTT CCAGCAGCCA 
CTTCTCAACA AGCAGATGAC TTACGTTCTG ATGGATATTG CTGTCGAAGA ACTGTTTCCA 
GAACTCGGCA AGGGACAAAG GGAGCCATCG GTAGACAGTA ACCAGTGA

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

RefSeq	XP_013999559.1
CDS	200..3007
Translation	MECIRVYLESLKQGLQIDVLREVGRQYPVFCILLVFMLSLTILLNRYLHILMVFWSFLAGVITFYCSLGPESLLPNILYTIKPKNKQEQQELFPLGHSCAVCGKVKCKRHRPTLLLENYQPWLDLKVYSKVDASMSEVLELVLENFVYPWYRNITDDEACVDELRMTFRFFASVLVRRAQKVDVPSVISGKMMKAAMKHVEIIAKAKQKVKNTEGLQQAALDEYGPGLHFALHSRKDELRYLRKVTKMLFAYLMPPKATDCRSLAVLMQEILVGSVFLPIMDFMADPDTVNHMVLIFVDDTPSEPAMEPPSTLVPFLQKYADPRTKKTSVLKLELKEIREQQDLLFRFMNFLKQEGAVHVLQFLLTVEEFNDKILCPELSEAELHRLHGEVQHVYKTYCLEESIDKISFDRFIVEEIRNIAEGPYEGVVKLQTMRCLFEAYEHVLSLLESVFTPMFCHSDGYFTHLLMGAESPKRDSRINRNSLCVDDMRNVSKRGETFGISRIGSKIKGVFKSTTMEGAMLPYTMVDAEDEAVEEATMVMEDDSSVETASTPGVLRNLSAWSITIPYIDFYDDEVKKERVPVFCIDVERNDMKEVGHETEDWSIFRRYMEFYVLENKLTEFHGSFADAQLPSKRIIGPKNYEFLSSKREEFEEYLQRLLQHPELSNSQLLADFLSPHSMETQFMDKMMPDVNLGKIFRSVPGKIIKEKGQNLEPFIQSFFNSCESPKVKPSRPELTILSSTAEYNKHSNDLYKNNANLSETLETHNRNYFMEMISVEGMYDYMMFMGRVVFHMPDWLHHILSGGRILLKNTLEAYMDNYIQHKLEMILQEHRVVSLVTMLRDAVFCENSEERTTGDKQRRAKKAFEEMMNYLPDFMEKCIGQEAKYEGIRLLFDGFQQPLLNKQMTYVLMDIAVEELFPELGKGQREPSVDSNQ

Target ORF information:

RefSeq Version	XM_014144084.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar sorting nexin 14 (snx14), transcript variant X2, mRNA.

Target ORF information:

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

XM_014144084.1

ORF Insert Sequence:

ATGGAATGTA TTCGAGTTTA TCTGGAGAGC CTGAAGCAAG GACTGCAAAT TGATGTCTTG 
AGGGAAGTTG GACGTCAATA TCCTGTCTTT TGCATTCTTC TGGTTTTTAT GCTGTCATTA 
ACTATACTTC TTAATAGGTA TCTTCACATT CTGATGGTGT TTTGGTCCTT CCTGGCTGGA 
GTGATTACAT TCTATTGCTC CCTCGGTCCA GAATCACTCC TGCCCAACAT CCTGTACACC 
ATAAAGCCCA AGAACAAACA AGAGCAACAG GAGCTGTTTC CATTGGGACA CAGCTGTGCA 
GTGTGTGGGA AAGTAAAGTG CAAACGTCAC AGACCAACAT TACTCCTAGA AAACTATCAG 
CCATGGTTGG ACTTGAAAGT CTACTCCAAA GTGGATGCTT CCATGTCTGA GGTGCTCGAG 
TTGGTTCTGG AGAATTTTGT ATATCCCTGG TACCGGAACA TCACAGATGA TGAGGCATGT 
GTAGATGAAC TGAGAATGAC CTTTCGGTTC TTTGCATCTG TGTTAGTTCG GCGAGCTCAG 
AAGGTTGATG TCCCCTCAGT TATTTCTGGC AAAATGATGA AAGCAGCCAT GAAGCACGTT 
GAAATAATTG CAAAGGCCAA GCAAAAAGTG AAGAACACTG AGGGTTTGCA GCAGGCTGCT 
CTGGATGAGT ATGGGCCTGG CTTACATTTT GCCCTGCATA GTCGCAAAGA TGAGCTCCGT 
TATCTCAGGA AGGTGACAAA GATGCTATTT GCCTATCTCA TGCCTCCCAA AGCCACTGAC 
TGCAGATCTC TAGCTGTGCT GATGCAAGAG ATCCTGGTAG GCTCTGTGTT CCTCCCCATC 
ATGGACTTCA TGGCTGATCC TGATACTGTG AACCACATGG TGCTAATATT CGTTGATGAC 
ACTCCATCTG AGCCGGCCAT GGAGCCACCA TCTACCCTGG TTCCATTCCT GCAGAAATAC 
GCTGACCCTC GTACCAAGAA GACATCTGTG CTGAAGCTGG AGCTGAAGGA GATCCGGGAG 
CAGCAGGACC TTCTGTTCCG CTTCATGAAC TTCCTAAAGC AGGAGGGAGC CGTGCACGTG 
CTCCAGTTCT TACTCACCGT GGAGGAGTTC AATGATAAGA TCCTGTGTCC AGAGCTGAGT 
GAAGCTGAGC TGCATCGTCT GCATGGTGAG GTGCAGCACG TCTACAAGAC CTACTGCTTG 
GAGGAGAGTA TCGACAAGAT CAGTTTTGAC CGCTTCATCG TTGAGGAAAT ACGAAACATT 
GCCGAGGGGC CGTACGAGGG AGTGGTGAAG CTGCAGACTA TGCGCTGCCT GTTTGAGGCC 
TACGAGCATG TCCTGTCCCT GCTGGAGAGC GTCTTCACCC CCATGTTCTG CCACAGCGAT 
GGGTATTTCA CACACCTGCT GATGGGGGCA GAGTCTCCAA AAAGGGACTC CAGAATTAAC 
AGGAATAGTC TGTGTGTGGA TGATATGAGG AACGTCTCAA AACGAGGGGA GACGTTCGGG 
ATCAGCCGGA TCGGCAGCAA AATCAAAGGC GTCTTCAAGA GCACCACCAT GGAGGGGGCG 
ATGCTGCCGT ACACCATGGT CGACGCTGAA GATGAAGCGG TTGAGGAAGC GACTATGGTG 
ATGGAGGATG ACTCCTCTGT GGAGACAGCT AGTACTCCAG GAGTCCTGAG GAACCTGTCA 
GCCTGGAGCA TCACCATCCC CTACATTGAC TTCTACGATG ACGAGGTGAA GAAGGAGAGG 
GTCCCCGTGT TCTGCATCGA CGTGGAACGC AATGACATGA AGGAAGTGGG ACATGAAACA 
GAGGACTGGT CCATCTTCAG AAGATACATG GAATTCTACG TTCTAGAAAA TAAACTCACA 
GAGTTCCATG GCTCATTTGC AGATGCACAG CTCCCTTCGA AAAGAATTAT AGGACCAAAG 
AACTATGAGT TCCTATCATC AAAGAGGGAA GAATTTGAGG AGTATTTGCA GAGACTGCTG 
CAGCACCCAG AGCTGAGTAA CAGTCAGCTG TTGGCAGACT TCCTGTCACC TCACAGCATG 
GAGACTCAGT TTATGGACAA GATGATGCCT GATGTAAACC TGGGTAAAAT ATTCAGGTCT 
GTCCCTGGAA AAATTATTAA AGAGAAAGGA CAGAACCTAG AGCCTTTCAT CCAGTCCTTC 
TTCAACTCTT GTGAATCTCC CAAAGTCAAA CCCAGCAGGC CTGAGCTGAC CATCCTCAGC 
TCTACTGCTG AGTACAACAA GCACTCCAAT GACCTCTACA AAAACAATGC TAATCTGTCT 
GAGACCCTGG AGACACATAA CCGGAACTAC TTTATGGAGA TGATCTCAGT AGAAGGGATG 
TATGACTACA TGATGTTTAT GGGTCGAGTC GTGTTCCACA TGCCAGACTG GTTGCATCAC 
ATCCTGTCAG GGGGGCGGAT CTTGCTCAAG AACACATTGG AGGCCTACAT GGATAACTAC 
ATTCAACACA AGCTGGAGAT GATCTTGCAG GAGCACCGTG TGGTGTCTCT CGTCACCATG 
CTCAGAGATG CTGTGTTCTG CGAGAACAGT GAGGAACGCA CCACAGGAGA CAAGCAGAGA 
AGAGCCAAGA AGGCATTCGA AGAGATGATG AATTATCTGC CAGACTTTAT GGAAAAGTGC 
ATTGGACAGG AGGCCAAGTA CGAGGGCATC AGACTTCTCT TTGACGGCTT CCAGCAGCCA 
CTTCTCAACA AGCAGATGAC TTACGTTCTG ATGGATATTG CTGTCGAAGA ACTGTTTCCA 
GAACTCGGCA AGGGACAAAG GGAGCCATCG GTAGACAGTA ACCAGTGA

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

PubMed

Salmo salar and Esox lucius full-length cDNA sequences reveal changes in evolutionary pressures on a post-tetraploidization genome.
BMC genomics11279(2010 Apr)
Leong JS,Jantzen SG,von Schalburg KR,Cooper GA,Messmer AM,Liao NY,Munro S,Moore R,Holt RA,Jones SJ,Davidson WS,Koop BF

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snx14 cDNA ORF clone, Salmo salar(Atlantic salmon)

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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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