LOC106603468 cDNA ORF clone, Salmo salar(Atlantic salmon)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC106603468
Entrez Gene ID	106603468
Full Name	SAM and SH3 domain-containing protein 1-like
Gene Type	protein-coding
Organism	Salmo salar(Atlantic salmon)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014197203.1	XP_014052678.1	SAM and SH3 domain-containing protein 1-like isoform X2
XM_014197193.1	XP_014052668.1	SAM and SH3 domain-containing protein 1-like isoform X1
XM_014197213.1	XP_014052688.1	SAM and SH3 domain-containing protein 1-like isoform X3

Pathways from BioSystems
Gene Ontology

The following LOC106603468 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106603468 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)
OAt04889	XM_014197193.1 Latest version!	Salmo salar SAM and SH3 domain-containing protein 1-like (LOC106603468), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAt04890	XM_014197203.1 Latest version!	Salmo salar SAM and SH3 domain-containing protein 1-like (LOC106603468), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OAt04891	XM_014197213.1 Latest version!	Salmo salar SAM and SH3 domain-containing protein 1-like (LOC106603468), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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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)

LOC106603468 ( XM_014197193.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014052668.1 Salmo salar SAM and SH3 domain-containing protein 1-like (LOC106603468), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAt04889
Clone ID Related Accession (Same CDS sequence)	XM_014197193.1
Accession Version	XM_014197193.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3936bp) 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	SAM and SH3 domain-containing protein 1-like isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012332508.1) 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##

ATGATGCGCA CCGGCCCCAG CTTTGTCTAC GAGTGGCTAC ACACTATTCA GCTGCCTCAA 
TACTTGGAGG CGTTTGTGGA CAATGGATAC GATGATCTAG AAGTTTGTAA ACAAATTGGG 
GACCCCGATC TTGACGCCAT AGGGGTACAC GCGCAGCACC ACCGACAAAA AGTACTCAAC 
GCGGTGAAGA AGTTGAGAGA GGAGGACAAG AAAAAGGCTC CCGGTCTTTA CTTCACCCTC 
GAGCCTTTGA ACCCCTCTCC CCTTAGCCCC TTGTTAGGCA CCAGCACCAC GCTCATCACA 
GATTGCGAGA ATGATTTCCA GTGGTCAAGG TCATGGACAG AATCCAATCA GGAGGAAGTT 
GGAAAATGGG GTCACCAAAG ATGTCGCCAA CAATCATCTT GTCCTACAAA CCACAATCTA 
AGTTTAACTG ATGATTGTAA AAAGCTGGTG ACCAATCCCA AACTGAAGGT CTTGATCAGG 
GACAAACTTG TGAAAGATGG AGTCAACCTC AATGAGCCGC CATACACCTA TAAGGATGGC 
TCGTTGGGAA CCTTTGAGGA CTTGGCTCAG GAGTACTCAG AGTATTACAG CACTTCTCTC 
ACTGACGTCC AAGACAGAAT GGAGGAGATC TGCAAACGCA AAGTTGTACA AGTTGCAGAG 
TCAGAGATGG AAAAGGTTGA CTTAGTGCCC ACATCACTGC AGCCTTGCTC ACAGATCCAG 
GATTCGCTAG GGCTGAGTAG CAGTAGCGCT GTGTCCACTC CCGAGACAGA GAGAAGGTTG 
TCCATGCATA AATCAAGTTC TGAGGATGCA TCAGGGGGAA AATGGGACGG AAAGAGACAG 
AAAAATAAGT CATTCTGGCA GAATTTTCGG AAGTCGCAGA AAGGTGTCGT GCGGCAGACC 
ACAAGAGGTG AGGACATAGG TTTTGTAGCC AGTGACATCA CTATGAGTGA TGAGGAGCGC 
ATCCAGCTGA TGATGATGGT CAAGGAGAAG ATGATAAGCG TGGAGGAGGC CTTGGCAAGG 
CTGAAAGAGT TTGAGACCCA GAGCAGGCAG AACTGCAGCA CTGTTCTTAC AGAATGGCAT 
GATGCTCCCA GTCCAACCCT GAACGAGTCC TCCAACTGCA ATTCATGTGA GCAGTCGGAT 
GGTGAACAGG AGGAGTCCGG GACGTTCAGA CGGCTCCATA AGCTGGTCAG CTCCAGTCGT 
AGGGTCCGCA AGAAACTCCT CAGAATCGAC GAGTCCAAGA AGCCTGGGTC TGACGAGTCT 
CTGAGTATGG TCGGGCCTGT CCTGGGTGAT GCCATGTCCT CTCTGTCCCT GTACTCTGGG 
GTTCAGAAGA AGCTGTCTGG CGGGTGTCAC CACGATGACT CCCTGTCCTC CGCCTTGCGC 
GACCAGCTGA CTTATGACCT TCGAGACTCG GACAGCCTGA CCACCTCCCC CTCCTCCTCC 
TCCTTGGACA CCTGCAGCAG CAACACACAC ACCCACAGCC TGGATACAGT CTCCAGCACC 
AGCCAGCGAC TGTCCACAGC CTTCAGTAAG ACAGGAGGAT CCAGCCCAGC CTGTAGCCCA 
GGGAGATACC AGGACACAGG CCCCAGTGGC GACGTGAGGG CCGGGGGTAG TGGTTCCTCC 
CTGTCAGAGA TAGAGGTTGG TGGTGGAGAG GATGGACCCA GGATGGCCCG GTCAGTCACG 
GATGGAGAGA TCAGGAGAGT AATCGGCCCA CTCAGCTACC ATGGGAGAAC CTGTAGCTTT 
GGTGGGTTTG ATCTGACCAA CCGGACTCTG CACATGGTCA CCGGAGATCA GGACCTCACT 
AGCAAAGATG GGGATGCCAG TGTGAAAGGC GTAGTCAAGT CTCCACAGAC GAACCATCGA 
ATCTCTTTGG GCAAGAAAGT GAAGTCAGTG AAAGAAACCA TGAGAAAACG CATCTCAAAG 
AGATACCACT GCGCTCTCTC TGAACAGTTA AGCCCAGACC GTATGTCCAG CGGGCCCCAG 
TCCCCCCACA GCCACACAGA CACAGACTCA CTGGAGAAAC CCAAGCTGAA GGCTGGAGGC 
TCAGTGGAGA GCCTGAGGAG CTCCCTCAGC GGACAGAGCT CCATGAGTGG TCAGACAGTG 
GGCACCACAG ACTCCTCCAA CAGCAACAGA GAGAGTGTGA AGTCTGAGGA TGGAGAGGAG 
GATGAACTTC CCTACAGAGG ACCCTTCTGT GGTCGAGCTA TGGTGCACAC TGACTTCACC 
CCCAGCCCCT ACGACACTGA CTCTCTCAAA CTGAAGAGAG GTGATGTGAT TGACATCATC 
AGCAAGCCTC CAATGGGGAC GTGGATGGGC CTGCTGAACA GTAAGGTGGG AACATTTAAG 
TTCATCTACG TGGACGTTCT GGCTGAGGAG GAAGACAAAC CTAAACACAC CCGACGGAGG 
AGGAAGGGAC GGCAGCCCAA ACCCACCTCT GTAGAGGAAC TCCTGGAGCG CATCAACCTC 
AAAGAGCACC TACCCACTTT CCTCTTCAAT GGCTATGAGG ACCTGGATAC CTTTAAGCTT 
CTGGAAGAGG AGGATCTAGA CGAGCTTGAC ATCGGAGACC CTCAACACAG GGCTGTGCTG 
CTCACTGCTG TGGAGCTTCT GCAGGAGTAC GACGGTAGCA GCGACCCGGA CCGTAGCAGC 
CAGACAGGGG GTTCTCAGGA GAAGCTGTTA CTGGACCGCC GGGGCCTACT GGGGGACTCC 
CCACGAGACT CTGGCTGCTA CGAGAGCAAC GAGAATCTGG AGAACGGAGG GAGGGGCAAA 
AAGACGTCTT CTTCCATGAG CAGGTCCTCG TCTGGTTTTC AATCCAGTCA CCTCCCATCC 
CCAGAGTCCC CCAGCCTCCC CCTCACCCCG ACCCACCTCA GCCTCCCCCT GATCCACCCC 
AGCAAGACCA CCTTACAGAC CAGACCAGAG CACCAGTCCA CTACCTTACC ATCTCTAGGA 
GCCTCCATGA CCAGCTGCTA CCTTCTGAGC CCAGGCAGGA GCCAGAGCCA TCACAGTCAC 
ACCCACAGAG CCATGCCACT GAGGAGCTGG AGCTGTGATA ACCTGGGCCC GGCAGGTAAG 
CCTACTCCCA CAGCCCTGGG GCTGCTCCCC CTGGGGGAGC TTCACTCAGA CCAGGGCCTC 
CACACCACTG AGCTCCACAC CCTGGAAGAC ATGAAGCCAG CTCATACCAC CATGTCCAAT 
GCTAAGGGAC AGGGATACCC GACACAAGAG GAGGCCCTAC AGCAGTTGTT GACACACTCT 
GAAGGATCTT TCCTGCCCTC ACAACCACTG CTCCCCTCAC CTTGTAGTGT TCTGTCTGAT 
ACGTTAGAGT TGGACATGGG AGTTCCCAGG TTAACAGACC TCCTTCCATA CACACACCTC 
AAAATATCCA CTCCAGCACC AGGACGTAGG CCCAAGCATC GTTCAGCCAA GCCTTTCCTG 
TCAAACCCAT GTATACCATC ATCACCCCCA GCAATGACCA GTGACGGTGG TAGTGCCTAT 
AAACTCTTCT CTTTAGATGG CACCTCTTTA AAGGATGAAG TTATTACAGA GACAACAACC 
CAACCGTGCA GCTCAGACCT GGCAACCCAA ACCTGTATCT CAGACTGTGA CCTTGCAGAC 
TATCCTCTCC AGTCTGAAGC CCACAGGACG CAGCCTGCTG GGGGAATGGA AACTATGCCT 
GTCAGGTCGG TCAACCTGGG ACCCCTCCTG GAGGAAAGAC TGGAGTCCGA GGGGATAGAT 
CTGACAGCGG AGCCCTTCTC TGACAAGTAT GGTCGCTATG GAATCCCCCA GTCTCTGGTC 
CAGAGGTACG CCACTGACCT GAACCAGCCT CTAACAGAGA TCATGTATGC CATGGACCTG 
CTCAGACTCA CACAGCTCCG CAAGCAGCAG CGCATGGCAG TGTGTCAAAA GCCACAGACC 
CTAGCGCTTG GACTAACAGC AGTGACTGAC GACTGA

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

RefSeq	XP_014052668.1
CDS	753..4688
Translation	MMRTGPSFVYEWLHTIQLPQYLEAFVDNGYDDLEVCKQIGDPDLDAIGVHAQHHRQKVLNAVKKLREEDKKKAPGLYFTLEPLNPSPLSPLLGTSTTLITDCENDFQWSRSWTESNQEEVGKWGHQRCRQQSSCPTNHNLSLTDDCKKLVTNPKLKVLIRDKLVKDGVNLNEPPYTYKDGSLGTFEDLAQEYSEYYSTSLTDVQDRMEEICKRKVVQVAESEMEKVDLVPTSLQPCSQIQDSLGLSSSSAVSTPETERRLSMHKSSSEDASGGKWDGKRQKNKSFWQNFRKSQKGVVRQTTRGEDIGFVASDITMSDEERIQLMMMVKEKMISVEEALARLKEFETQSRQNCSTVLTEWHDAPSPTLNESSNCNSCEQSDGEQEESGTFRRLHKLVSSSRRVRKKLLRIDESKKPGSDESLSMVGPVLGDAMSSLSLYSGVQKKLSGGCHHDDSLSSALRDQLTYDLRDSDSLTTSPSSSSLDTCSSNTHTHSLDTVSSTSQRLSTAFSKTGGSSPACSPGRYQDTGPSGDVRAGGSGSSLSEIEVGGGEDGPRMARSVTDGEIRRVIGPLSYHGRTCSFGGFDLTNRTLHMVTGDQDLTSKDGDASVKGVVKSPQTNHRISLGKKVKSVKETMRKRISKRYHCALSEQLSPDRMSSGPQSPHSHTDTDSLEKPKLKAGGSVESLRSSLSGQSSMSGQTVGTTDSSNSNRESVKSEDGEEDELPYRGPFCGRAMVHTDFTPSPYDTDSLKLKRGDVIDIISKPPMGTWMGLLNSKVGTFKFIYVDVLAEEEDKPKHTRRRRKGRQPKPTSVEELLERINLKEHLPTFLFNGYEDLDTFKLLEEEDLDELDIGDPQHRAVLLTAVELLQEYDGSSDPDRSSQTGGSQEKLLLDRRGLLGDSPRDSGCYESNENLENGGRGKKTSSSMSRSSSGFQSSHLPSPESPSLPLTPTHLSLPLIHPSKTTLQTRPEHQSTTLPSLGASMTSCYLLSPGRSQSHHSHTHRAMPLRSWSCDNLGPAGKPTPTALGLLPLGELHSDQGLHTTELHTLEDMKPAHTTMSNAKGQGYPTQEEALQQLLTHSEGSFLPSQPLLPSPCSVLSDTLELDMGVPRLTDLLPYTHLKISTPAPGRRPKHRSAKPFLSNPCIPSSPPAMTSDGGSAYKLFSLDGTSLKDEVITETTTQPCSSDLATQTCISDCDLADYPLQSEAHRTQPAGGMETMPVRSVNLGPLLEERLESEGIDLTAEPFSDKYGRYGIPQSLVQRYATDLNQPLTEIMYAMDLLRLTQLRKQQRMAVCQKPQTLALGLTAVTDD

Target ORF information:

RefSeq Version	XM_014197193.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar SAM and SH3 domain-containing protein 1-like (LOC106603468), transcript variant X1, mRNA.

Target ORF information:

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

XM_014197193.1

ORF Insert Sequence:

ATGATGCGCA CCGGCCCCAG CTTTGTCTAC GAGTGGCTAC ACACTATTCA GCTGCCTCAA 
TACTTGGAGG CGTTTGTGGA CAATGGATAC GATGATCTAG AAGTTTGTAA ACAAATTGGG 
GACCCCGATC TTGACGCCAT AGGGGTACAC GCGCAGCACC ACCGACAAAA AGTACTCAAC 
GCGGTGAAGA AGTTGAGAGA GGAGGACAAG AAAAAGGCTC CCGGTCTTTA CTTCACCCTC 
GAGCCTTTGA ACCCCTCTCC CCTTAGCCCC TTGTTAGGCA CCAGCACCAC GCTCATCACA 
GATTGCGAGA ATGATTTCCA GTGGTCAAGG TCATGGACAG AATCCAATCA GGAGGAAGTT 
GGAAAATGGG GTCACCAAAG ATGTCGCCAA CAATCATCTT GTCCTACAAA CCACAATCTA 
AGTTTAACTG ATGATTGTAA AAAGCTGGTG ACCAATCCCA AACTGAAGGT CTTGATCAGG 
GACAAACTTG TGAAAGATGG AGTCAACCTC AATGAGCCGC CATACACCTA TAAGGATGGC 
TCGTTGGGAA CCTTTGAGGA CTTGGCTCAG GAGTACTCAG AGTATTACAG CACTTCTCTC 
ACTGACGTCC AAGACAGAAT GGAGGAGATC TGCAAACGCA AAGTTGTACA AGTTGCAGAG 
TCAGAGATGG AAAAGGTTGA CTTAGTGCCC ACATCACTGC AGCCTTGCTC ACAGATCCAG 
GATTCGCTAG GGCTGAGTAG CAGTAGCGCT GTGTCCACTC CCGAGACAGA GAGAAGGTTG 
TCCATGCATA AATCAAGTTC TGAGGATGCA TCAGGGGGAA AATGGGACGG AAAGAGACAG 
AAAAATAAGT CATTCTGGCA GAATTTTCGG AAGTCGCAGA AAGGTGTCGT GCGGCAGACC 
ACAAGAGGTG AGGACATAGG TTTTGTAGCC AGTGACATCA CTATGAGTGA TGAGGAGCGC 
ATCCAGCTGA TGATGATGGT CAAGGAGAAG ATGATAAGCG TGGAGGAGGC CTTGGCAAGG 
CTGAAAGAGT TTGAGACCCA GAGCAGGCAG AACTGCAGCA CTGTTCTTAC AGAATGGCAT 
GATGCTCCCA GTCCAACCCT GAACGAGTCC TCCAACTGCA ATTCATGTGA GCAGTCGGAT 
GGTGAACAGG AGGAGTCCGG GACGTTCAGA CGGCTCCATA AGCTGGTCAG CTCCAGTCGT 
AGGGTCCGCA AGAAACTCCT CAGAATCGAC GAGTCCAAGA AGCCTGGGTC TGACGAGTCT 
CTGAGTATGG TCGGGCCTGT CCTGGGTGAT GCCATGTCCT CTCTGTCCCT GTACTCTGGG 
GTTCAGAAGA AGCTGTCTGG CGGGTGTCAC CACGATGACT CCCTGTCCTC CGCCTTGCGC 
GACCAGCTGA CTTATGACCT TCGAGACTCG GACAGCCTGA CCACCTCCCC CTCCTCCTCC 
TCCTTGGACA CCTGCAGCAG CAACACACAC ACCCACAGCC TGGATACAGT CTCCAGCACC 
AGCCAGCGAC TGTCCACAGC CTTCAGTAAG ACAGGAGGAT CCAGCCCAGC CTGTAGCCCA 
GGGAGATACC AGGACACAGG CCCCAGTGGC GACGTGAGGG CCGGGGGTAG TGGTTCCTCC 
CTGTCAGAGA TAGAGGTTGG TGGTGGAGAG GATGGACCCA GGATGGCCCG GTCAGTCACG 
GATGGAGAGA TCAGGAGAGT AATCGGCCCA CTCAGCTACC ATGGGAGAAC CTGTAGCTTT 
GGTGGGTTTG ATCTGACCAA CCGGACTCTG CACATGGTCA CCGGAGATCA GGACCTCACT 
AGCAAAGATG GGGATGCCAG TGTGAAAGGC GTAGTCAAGT CTCCACAGAC GAACCATCGA 
ATCTCTTTGG GCAAGAAAGT GAAGTCAGTG AAAGAAACCA TGAGAAAACG CATCTCAAAG 
AGATACCACT GCGCTCTCTC TGAACAGTTA AGCCCAGACC GTATGTCCAG CGGGCCCCAG 
TCCCCCCACA GCCACACAGA CACAGACTCA CTGGAGAAAC CCAAGCTGAA GGCTGGAGGC 
TCAGTGGAGA GCCTGAGGAG CTCCCTCAGC GGACAGAGCT CCATGAGTGG TCAGACAGTG 
GGCACCACAG ACTCCTCCAA CAGCAACAGA GAGAGTGTGA AGTCTGAGGA TGGAGAGGAG 
GATGAACTTC CCTACAGAGG ACCCTTCTGT GGTCGAGCTA TGGTGCACAC TGACTTCACC 
CCCAGCCCCT ACGACACTGA CTCTCTCAAA CTGAAGAGAG GTGATGTGAT TGACATCATC 
AGCAAGCCTC CAATGGGGAC GTGGATGGGC CTGCTGAACA GTAAGGTGGG AACATTTAAG 
TTCATCTACG TGGACGTTCT GGCTGAGGAG GAAGACAAAC CTAAACACAC CCGACGGAGG 
AGGAAGGGAC GGCAGCCCAA ACCCACCTCT GTAGAGGAAC TCCTGGAGCG CATCAACCTC 
AAAGAGCACC TACCCACTTT CCTCTTCAAT GGCTATGAGG ACCTGGATAC CTTTAAGCTT 
CTGGAAGAGG AGGATCTAGA CGAGCTTGAC ATCGGAGACC CTCAACACAG GGCTGTGCTG 
CTCACTGCTG TGGAGCTTCT GCAGGAGTAC GACGGTAGCA GCGACCCGGA CCGTAGCAGC 
CAGACAGGGG GTTCTCAGGA GAAGCTGTTA CTGGACCGCC GGGGCCTACT GGGGGACTCC 
CCACGAGACT CTGGCTGCTA CGAGAGCAAC GAGAATCTGG AGAACGGAGG GAGGGGCAAA 
AAGACGTCTT CTTCCATGAG CAGGTCCTCG TCTGGTTTTC AATCCAGTCA CCTCCCATCC 
CCAGAGTCCC CCAGCCTCCC CCTCACCCCG ACCCACCTCA GCCTCCCCCT GATCCACCCC 
AGCAAGACCA CCTTACAGAC CAGACCAGAG CACCAGTCCA CTACCTTACC ATCTCTAGGA 
GCCTCCATGA CCAGCTGCTA CCTTCTGAGC CCAGGCAGGA GCCAGAGCCA TCACAGTCAC 
ACCCACAGAG CCATGCCACT GAGGAGCTGG AGCTGTGATA ACCTGGGCCC GGCAGGTAAG 
CCTACTCCCA CAGCCCTGGG GCTGCTCCCC CTGGGGGAGC TTCACTCAGA CCAGGGCCTC 
CACACCACTG AGCTCCACAC CCTGGAAGAC ATGAAGCCAG CTCATACCAC CATGTCCAAT 
GCTAAGGGAC AGGGATACCC GACACAAGAG GAGGCCCTAC AGCAGTTGTT GACACACTCT 
GAAGGATCTT TCCTGCCCTC ACAACCACTG CTCCCCTCAC CTTGTAGTGT TCTGTCTGAT 
ACGTTAGAGT TGGACATGGG AGTTCCCAGG TTAACAGACC TCCTTCCATA CACACACCTC 
AAAATATCCA CTCCAGCACC AGGACGTAGG CCCAAGCATC GTTCAGCCAA GCCTTTCCTG 
TCAAACCCAT GTATACCATC ATCACCCCCA GCAATGACCA GTGACGGTGG TAGTGCCTAT 
AAACTCTTCT CTTTAGATGG CACCTCTTTA AAGGATGAAG TTATTACAGA GACAACAACC 
CAACCGTGCA GCTCAGACCT GGCAACCCAA ACCTGTATCT CAGACTGTGA CCTTGCAGAC 
TATCCTCTCC AGTCTGAAGC CCACAGGACG CAGCCTGCTG GGGGAATGGA AACTATGCCT 
GTCAGGTCGG TCAACCTGGG ACCCCTCCTG GAGGAAAGAC TGGAGTCCGA GGGGATAGAT 
CTGACAGCGG AGCCCTTCTC TGACAAGTAT GGTCGCTATG GAATCCCCCA GTCTCTGGTC 
CAGAGGTACG CCACTGACCT GAACCAGCCT CTAACAGAGA TCATGTATGC CATGGACCTG 
CTCAGACTCA CACAGCTCCG CAAGCAGCAG CGCATGGCAG TGTGTCAAAA GCCACAGACC 
CTAGCGCTTG GACTAACAGC AGTGACTGAC GACTGA

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

LOC106603468 ( XM_014197203.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014052678.1 Salmo salar SAM and SH3 domain-containing protein 1-like (LOC106603468), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAt04890
Clone ID Related Accession (Same CDS sequence)	XM_014197203.1
Accession Version	XM_014197203.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3318bp) 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	SAM and SH3 domain-containing protein 1-like isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012332508.1) 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##

ATGGAGGAGA TCTGCAAACG CAAAGTTGTA CAAGTTGCAG AGTCAGAGAT GGAAAAGGTT 
GACTTAGTGC CCACATCACT GCAGCCTTGC TCACAGATCC AGGATTCGCT AGGGCTGAGT 
AGCAGTAGCG CTGTGTCCAC TCCCGAGACA GAGAGAAGGT TGTCCATGCA TAAATCAAGT 
TCTGAGGATG CATCAGGGGG AAAATGGGAC GGAAAGAGAC AGAAAAATAA GTCATTCTGG 
CAGAATTTTC GGAAGTCGCA GAAAGGTGTC GTGCGGCAGA CCACAAGAGG TGAGGACATA 
GGTTTTGTAG CCAGTGACAT CACTATGAGT GATGAGGAGC GCATCCAGCT GATGATGATG 
GTCAAGGAGA AGATGATAAG CGTGGAGGAG GCCTTGGCAA GGCTGAAAGA GTTTGAGACC 
CAGAGCAGGC AGAACTGCAG CACTGTTCTT ACAGAATGGC ATGATGCTCC CAGTCCAACC 
CTGAACGAGT CCTCCAACTG CAATTCATGT GAGCAGTCGG ATGGTGAACA GGAGGAGTCC 
GGGACGTTCA GACGGCTCCA TAAGCTGGTC AGCTCCAGTC GTAGGGTCCG CAAGAAACTC 
CTCAGAATCG ACGAGTCCAA GAAGCCTGGG TCTGACGAGT CTCTGAGTAT GGTCGGGCCT 
GTCCTGGGTG ATGCCATGTC CTCTCTGTCC CTGTACTCTG GGGTTCAGAA GAAGCTGTCT 
GGCGGGTGTC ACCACGATGA CTCCCTGTCC TCCGCCTTGC GCGACCAGCT GACTTATGAC 
CTTCGAGACT CGGACAGCCT GACCACCTCC CCCTCCTCCT CCTCCTTGGA CACCTGCAGC 
AGCAACACAC ACACCCACAG CCTGGATACA GTCTCCAGCA CCAGCCAGCG ACTGTCCACA 
GCCTTCAGTA AGACAGGAGG ATCCAGCCCA GCCTGTAGCC CAGGGAGATA CCAGGACACA 
GGCCCCAGTG GCGACGTGAG GGCCGGGGGT AGTGGTTCCT CCCTGTCAGA GATAGAGGTT 
GGTGGTGGAG AGGATGGACC CAGGATGGCC CGGTCAGTCA CGGATGGAGA GATCAGGAGA 
GTAATCGGCC CACTCAGCTA CCATGGGAGA ACCTGTAGCT TTGGTGGGTT TGATCTGACC 
AACCGGACTC TGCACATGGT CACCGGAGAT CAGGACCTCA CTAGCAAAGA TGGGGATGCC 
AGTGTGAAAG GCGTAGTCAA GTCTCCACAG ACGAACCATC GAATCTCTTT GGGCAAGAAA 
GTGAAGTCAG TGAAAGAAAC CATGAGAAAA CGCATCTCAA AGAGATACCA CTGCGCTCTC 
TCTGAACAGT TAAGCCCAGA CCGTATGTCC AGCGGGCCCC AGTCCCCCCA CAGCCACACA 
GACACAGACT CACTGGAGAA ACCCAAGCTG AAGGCTGGAG GCTCAGTGGA GAGCCTGAGG 
AGCTCCCTCA GCGGACAGAG CTCCATGAGT GGTCAGACAG TGGGCACCAC AGACTCCTCC 
AACAGCAACA GAGAGAGTGT GAAGTCTGAG GATGGAGAGG AGGATGAACT TCCCTACAGA 
GGACCCTTCT GTGGTCGAGC TATGGTGCAC ACTGACTTCA CCCCCAGCCC CTACGACACT 
GACTCTCTCA AACTGAAGAG AGGTGATGTG ATTGACATCA TCAGCAAGCC TCCAATGGGG 
ACGTGGATGG GCCTGCTGAA CAGTAAGGTG GGAACATTTA AGTTCATCTA CGTGGACGTT 
CTGGCTGAGG AGGAAGACAA ACCTAAACAC ACCCGACGGA GGAGGAAGGG ACGGCAGCCC 
AAACCCACCT CTGTAGAGGA ACTCCTGGAG CGCATCAACC TCAAAGAGCA CCTACCCACT 
TTCCTCTTCA ATGGCTATGA GGACCTGGAT ACCTTTAAGC TTCTGGAAGA GGAGGATCTA 
GACGAGCTTG ACATCGGAGA CCCTCAACAC AGGGCTGTGC TGCTCACTGC TGTGGAGCTT 
CTGCAGGAGT ACGACGGTAG CAGCGACCCG GACCGTAGCA GCCAGACAGG GGGTTCTCAG 
GAGAAGCTGT TACTGGACCG CCGGGGCCTA CTGGGGGACT CCCCACGAGA CTCTGGCTGC 
TACGAGAGCA ACGAGAATCT GGAGAACGGA GGGAGGGGCA AAAAGACGTC TTCTTCCATG 
AGCAGGTCCT CGTCTGGTTT TCAATCCAGT CACCTCCCAT CCCCAGAGTC CCCCAGCCTC 
CCCCTCACCC CGACCCACCT CAGCCTCCCC CTGATCCACC CCAGCAAGAC CACCTTACAG 
ACCAGACCAG AGCACCAGTC CACTACCTTA CCATCTCTAG GAGCCTCCAT GACCAGCTGC 
TACCTTCTGA GCCCAGGCAG GAGCCAGAGC CATCACAGTC ACACCCACAG AGCCATGCCA 
CTGAGGAGCT GGAGCTGTGA TAACCTGGGC CCGGCAGGTA AGCCTACTCC CACAGCCCTG 
GGGCTGCTCC CCCTGGGGGA GCTTCACTCA GACCAGGGCC TCCACACCAC TGAGCTCCAC 
ACCCTGGAAG ACATGAAGCC AGCTCATACC ACCATGTCCA ATGCTAAGGG ACAGGGATAC 
CCGACACAAG AGGAGGCCCT ACAGCAGTTG TTGACACACT CTGAAGGATC TTTCCTGCCC 
TCACAACCAC TGCTCCCCTC ACCTTGTAGT GTTCTGTCTG ATACGTTAGA GTTGGACATG 
GGAGTTCCCA GGTTAACAGA CCTCCTTCCA TACACACACC TCAAAATATC CACTCCAGCA 
CCAGGACGTA GGCCCAAGCA TCGTTCAGCC AAGCCTTTCC TGTCAAACCC ATGTATACCA 
TCATCACCCC CAGCAATGAC CAGTGACGGT GGTAGTGCCT ATAAACTCTT CTCTTTAGAT 
GGCACCTCTT TAAAGGATGA AGTTATTACA GAGACAACAA CCCAACCGTG CAGCTCAGAC 
CTGGCAACCC AAACCTGTAT CTCAGACTGT GACCTTGCAG ACTATCCTCT CCAGTCTGAA 
GCCCACAGGA CGCAGCCTGC TGGGGGAATG GAAACTATGC CTGTCAGGTC GGTCAACCTG 
GGACCCCTCC TGGAGGAAAG ACTGGAGTCC GAGGGGATAG ATCTGACAGC GGAGCCCTTC 
TCTGACAAGT ATGGTCGCTA TGGAATCCCC CAGTCTCTGG TCCAGAGGTA CGCCACTGAC 
CTGAACCAGC CTCTAACAGA GATCATGTAT GCCATGGACC TGCTCAGACT CACACAGCTC 
CGCAAGCAGC AGCGCATGGC AGTGTGTCAA AAGCCACAGA CCCTAGCGCT TGGACTAACA 
GCAGTGACTG ACGACTGA

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

RefSeq	XP_014052678.1
CDS	201..3518
Translation	MEEICKRKVVQVAESEMEKVDLVPTSLQPCSQIQDSLGLSSSSAVSTPETERRLSMHKSSSEDASGGKWDGKRQKNKSFWQNFRKSQKGVVRQTTRGEDIGFVASDITMSDEERIQLMMMVKEKMISVEEALARLKEFETQSRQNCSTVLTEWHDAPSPTLNESSNCNSCEQSDGEQEESGTFRRLHKLVSSSRRVRKKLLRIDESKKPGSDESLSMVGPVLGDAMSSLSLYSGVQKKLSGGCHHDDSLSSALRDQLTYDLRDSDSLTTSPSSSSLDTCSSNTHTHSLDTVSSTSQRLSTAFSKTGGSSPACSPGRYQDTGPSGDVRAGGSGSSLSEIEVGGGEDGPRMARSVTDGEIRRVIGPLSYHGRTCSFGGFDLTNRTLHMVTGDQDLTSKDGDASVKGVVKSPQTNHRISLGKKVKSVKETMRKRISKRYHCALSEQLSPDRMSSGPQSPHSHTDTDSLEKPKLKAGGSVESLRSSLSGQSSMSGQTVGTTDSSNSNRESVKSEDGEEDELPYRGPFCGRAMVHTDFTPSPYDTDSLKLKRGDVIDIISKPPMGTWMGLLNSKVGTFKFIYVDVLAEEEDKPKHTRRRRKGRQPKPTSVEELLERINLKEHLPTFLFNGYEDLDTFKLLEEEDLDELDIGDPQHRAVLLTAVELLQEYDGSSDPDRSSQTGGSQEKLLLDRRGLLGDSPRDSGCYESNENLENGGRGKKTSSSMSRSSSGFQSSHLPSPESPSLPLTPTHLSLPLIHPSKTTLQTRPEHQSTTLPSLGASMTSCYLLSPGRSQSHHSHTHRAMPLRSWSCDNLGPAGKPTPTALGLLPLGELHSDQGLHTTELHTLEDMKPAHTTMSNAKGQGYPTQEEALQQLLTHSEGSFLPSQPLLPSPCSVLSDTLELDMGVPRLTDLLPYTHLKISTPAPGRRPKHRSAKPFLSNPCIPSSPPAMTSDGGSAYKLFSLDGTSLKDEVITETTTQPCSSDLATQTCISDCDLADYPLQSEAHRTQPAGGMETMPVRSVNLGPLLEERLESEGIDLTAEPFSDKYGRYGIPQSLVQRYATDLNQPLTEIMYAMDLLRLTQLRKQQRMAVCQKPQTLALGLTAVTDD

Target ORF information:

RefSeq Version	XM_014197203.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar SAM and SH3 domain-containing protein 1-like (LOC106603468), transcript variant X2, mRNA.

Target ORF information:

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

XM_014197203.1

ORF Insert Sequence:

ATGGAGGAGA TCTGCAAACG CAAAGTTGTA CAAGTTGCAG AGTCAGAGAT GGAAAAGGTT 
GACTTAGTGC CCACATCACT GCAGCCTTGC TCACAGATCC AGGATTCGCT AGGGCTGAGT 
AGCAGTAGCG CTGTGTCCAC TCCCGAGACA GAGAGAAGGT TGTCCATGCA TAAATCAAGT 
TCTGAGGATG CATCAGGGGG AAAATGGGAC GGAAAGAGAC AGAAAAATAA GTCATTCTGG 
CAGAATTTTC GGAAGTCGCA GAAAGGTGTC GTGCGGCAGA CCACAAGAGG TGAGGACATA 
GGTTTTGTAG CCAGTGACAT CACTATGAGT GATGAGGAGC GCATCCAGCT GATGATGATG 
GTCAAGGAGA AGATGATAAG CGTGGAGGAG GCCTTGGCAA GGCTGAAAGA GTTTGAGACC 
CAGAGCAGGC AGAACTGCAG CACTGTTCTT ACAGAATGGC ATGATGCTCC CAGTCCAACC 
CTGAACGAGT CCTCCAACTG CAATTCATGT GAGCAGTCGG ATGGTGAACA GGAGGAGTCC 
GGGACGTTCA GACGGCTCCA TAAGCTGGTC AGCTCCAGTC GTAGGGTCCG CAAGAAACTC 
CTCAGAATCG ACGAGTCCAA GAAGCCTGGG TCTGACGAGT CTCTGAGTAT GGTCGGGCCT 
GTCCTGGGTG ATGCCATGTC CTCTCTGTCC CTGTACTCTG GGGTTCAGAA GAAGCTGTCT 
GGCGGGTGTC ACCACGATGA CTCCCTGTCC TCCGCCTTGC GCGACCAGCT GACTTATGAC 
CTTCGAGACT CGGACAGCCT GACCACCTCC CCCTCCTCCT CCTCCTTGGA CACCTGCAGC 
AGCAACACAC ACACCCACAG CCTGGATACA GTCTCCAGCA CCAGCCAGCG ACTGTCCACA 
GCCTTCAGTA AGACAGGAGG ATCCAGCCCA GCCTGTAGCC CAGGGAGATA CCAGGACACA 
GGCCCCAGTG GCGACGTGAG GGCCGGGGGT AGTGGTTCCT CCCTGTCAGA GATAGAGGTT 
GGTGGTGGAG AGGATGGACC CAGGATGGCC CGGTCAGTCA CGGATGGAGA GATCAGGAGA 
GTAATCGGCC CACTCAGCTA CCATGGGAGA ACCTGTAGCT TTGGTGGGTT TGATCTGACC 
AACCGGACTC TGCACATGGT CACCGGAGAT CAGGACCTCA CTAGCAAAGA TGGGGATGCC 
AGTGTGAAAG GCGTAGTCAA GTCTCCACAG ACGAACCATC GAATCTCTTT GGGCAAGAAA 
GTGAAGTCAG TGAAAGAAAC CATGAGAAAA CGCATCTCAA AGAGATACCA CTGCGCTCTC 
TCTGAACAGT TAAGCCCAGA CCGTATGTCC AGCGGGCCCC AGTCCCCCCA CAGCCACACA 
GACACAGACT CACTGGAGAA ACCCAAGCTG AAGGCTGGAG GCTCAGTGGA GAGCCTGAGG 
AGCTCCCTCA GCGGACAGAG CTCCATGAGT GGTCAGACAG TGGGCACCAC AGACTCCTCC 
AACAGCAACA GAGAGAGTGT GAAGTCTGAG GATGGAGAGG AGGATGAACT TCCCTACAGA 
GGACCCTTCT GTGGTCGAGC TATGGTGCAC ACTGACTTCA CCCCCAGCCC CTACGACACT 
GACTCTCTCA AACTGAAGAG AGGTGATGTG ATTGACATCA TCAGCAAGCC TCCAATGGGG 
ACGTGGATGG GCCTGCTGAA CAGTAAGGTG GGAACATTTA AGTTCATCTA CGTGGACGTT 
CTGGCTGAGG AGGAAGACAA ACCTAAACAC ACCCGACGGA GGAGGAAGGG ACGGCAGCCC 
AAACCCACCT CTGTAGAGGA ACTCCTGGAG CGCATCAACC TCAAAGAGCA CCTACCCACT 
TTCCTCTTCA ATGGCTATGA GGACCTGGAT ACCTTTAAGC TTCTGGAAGA GGAGGATCTA 
GACGAGCTTG ACATCGGAGA CCCTCAACAC AGGGCTGTGC TGCTCACTGC TGTGGAGCTT 
CTGCAGGAGT ACGACGGTAG CAGCGACCCG GACCGTAGCA GCCAGACAGG GGGTTCTCAG 
GAGAAGCTGT TACTGGACCG CCGGGGCCTA CTGGGGGACT CCCCACGAGA CTCTGGCTGC 
TACGAGAGCA ACGAGAATCT GGAGAACGGA GGGAGGGGCA AAAAGACGTC TTCTTCCATG 
AGCAGGTCCT CGTCTGGTTT TCAATCCAGT CACCTCCCAT CCCCAGAGTC CCCCAGCCTC 
CCCCTCACCC CGACCCACCT CAGCCTCCCC CTGATCCACC CCAGCAAGAC CACCTTACAG 
ACCAGACCAG AGCACCAGTC CACTACCTTA CCATCTCTAG GAGCCTCCAT GACCAGCTGC 
TACCTTCTGA GCCCAGGCAG GAGCCAGAGC CATCACAGTC ACACCCACAG AGCCATGCCA 
CTGAGGAGCT GGAGCTGTGA TAACCTGGGC CCGGCAGGTA AGCCTACTCC CACAGCCCTG 
GGGCTGCTCC CCCTGGGGGA GCTTCACTCA GACCAGGGCC TCCACACCAC TGAGCTCCAC 
ACCCTGGAAG ACATGAAGCC AGCTCATACC ACCATGTCCA ATGCTAAGGG ACAGGGATAC 
CCGACACAAG AGGAGGCCCT ACAGCAGTTG TTGACACACT CTGAAGGATC TTTCCTGCCC 
TCACAACCAC TGCTCCCCTC ACCTTGTAGT GTTCTGTCTG ATACGTTAGA GTTGGACATG 
GGAGTTCCCA GGTTAACAGA CCTCCTTCCA TACACACACC TCAAAATATC CACTCCAGCA 
CCAGGACGTA GGCCCAAGCA TCGTTCAGCC AAGCCTTTCC TGTCAAACCC ATGTATACCA 
TCATCACCCC CAGCAATGAC CAGTGACGGT GGTAGTGCCT ATAAACTCTT CTCTTTAGAT 
GGCACCTCTT TAAAGGATGA AGTTATTACA GAGACAACAA CCCAACCGTG CAGCTCAGAC 
CTGGCAACCC AAACCTGTAT CTCAGACTGT GACCTTGCAG ACTATCCTCT CCAGTCTGAA 
GCCCACAGGA CGCAGCCTGC TGGGGGAATG GAAACTATGC CTGTCAGGTC GGTCAACCTG 
GGACCCCTCC TGGAGGAAAG ACTGGAGTCC GAGGGGATAG ATCTGACAGC GGAGCCCTTC 
TCTGACAAGT ATGGTCGCTA TGGAATCCCC CAGTCTCTGG TCCAGAGGTA CGCCACTGAC 
CTGAACCAGC CTCTAACAGA GATCATGTAT GCCATGGACC TGCTCAGACT CACACAGCTC 
CGCAAGCAGC AGCGCATGGC AGTGTGTCAA AAGCCACAGA CCCTAGCGCT TGGACTAACA 
GCAGTGACTG ACGACTGA

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

LOC106603468 ( XM_014197213.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014052688.1 Salmo salar SAM and SH3 domain-containing protein 1-like (LOC106603468), transcript variant X3, mRNA.

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CloneID	OAt04891
Clone ID Related Accession (Same CDS sequence)	XM_014197213.1
Accession Version	XM_014197213.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3186bp) 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	SAM and SH3 domain-containing protein 1-like isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012332508.1) 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##

ATGAAGAAAA TTGCATTGGA AAACAGGTTG TCCATGCATA AATCAAGTTC TGAGGATGCA 
TCAGGGGGAA AATGGGACGG AAAGAGACAG AAAAATAAGT CATTCTGGCA GAATTTTCGG 
AAGTCGCAGA AAGGTGTCGT GCGGCAGACC ACAAGAGGTG AGGACATAGG TTTTGTAGCC 
AGTGACATCA CTATGAGTGA TGAGGAGCGC ATCCAGCTGA TGATGATGGT CAAGGAGAAG 
ATGATAAGCG TGGAGGAGGC CTTGGCAAGG CTGAAAGAGT TTGAGACCCA GAGCAGGCAG 
AACTGCAGCA CTGTTCTTAC AGAATGGCAT GATGCTCCCA GTCCAACCCT GAACGAGTCC 
TCCAACTGCA ATTCATGTGA GCAGTCGGAT GGTGAACAGG AGGAGTCCGG GACGTTCAGA 
CGGCTCCATA AGCTGGTCAG CTCCAGTCGT AGGGTCCGCA AGAAACTCCT CAGAATCGAC 
GAGTCCAAGA AGCCTGGGTC TGACGAGTCT CTGAGTATGG TCGGGCCTGT CCTGGGTGAT 
GCCATGTCCT CTCTGTCCCT GTACTCTGGG GTTCAGAAGA AGCTGTCTGG CGGGTGTCAC 
CACGATGACT CCCTGTCCTC CGCCTTGCGC GACCAGCTGA CTTATGACCT TCGAGACTCG 
GACAGCCTGA CCACCTCCCC CTCCTCCTCC TCCTTGGACA CCTGCAGCAG CAACACACAC 
ACCCACAGCC TGGATACAGT CTCCAGCACC AGCCAGCGAC TGTCCACAGC CTTCAGTAAG 
ACAGGAGGAT CCAGCCCAGC CTGTAGCCCA GGGAGATACC AGGACACAGG CCCCAGTGGC 
GACGTGAGGG CCGGGGGTAG TGGTTCCTCC CTGTCAGAGA TAGAGGTTGG TGGTGGAGAG 
GATGGACCCA GGATGGCCCG GTCAGTCACG GATGGAGAGA TCAGGAGAGT AATCGGCCCA 
CTCAGCTACC ATGGGAGAAC CTGTAGCTTT GGTGGGTTTG ATCTGACCAA CCGGACTCTG 
CACATGGTCA CCGGAGATCA GGACCTCACT AGCAAAGATG GGGATGCCAG TGTGAAAGGC 
GTAGTCAAGT CTCCACAGAC GAACCATCGA ATCTCTTTGG GCAAGAAAGT GAAGTCAGTG 
AAAGAAACCA TGAGAAAACG CATCTCAAAG AGATACCACT GCGCTCTCTC TGAACAGTTA 
AGCCCAGACC GTATGTCCAG CGGGCCCCAG TCCCCCCACA GCCACACAGA CACAGACTCA 
CTGGAGAAAC CCAAGCTGAA GGCTGGAGGC TCAGTGGAGA GCCTGAGGAG CTCCCTCAGC 
GGACAGAGCT CCATGAGTGG TCAGACAGTG GGCACCACAG ACTCCTCCAA CAGCAACAGA 
GAGAGTGTGA AGTCTGAGGA TGGAGAGGAG GATGAACTTC CCTACAGAGG ACCCTTCTGT 
GGTCGAGCTA TGGTGCACAC TGACTTCACC CCCAGCCCCT ACGACACTGA CTCTCTCAAA 
CTGAAGAGAG GTGATGTGAT TGACATCATC AGCAAGCCTC CAATGGGGAC GTGGATGGGC 
CTGCTGAACA GTAAGGTGGG AACATTTAAG TTCATCTACG TGGACGTTCT GGCTGAGGAG 
GAAGACAAAC CTAAACACAC CCGACGGAGG AGGAAGGGAC GGCAGCCCAA ACCCACCTCT 
GTAGAGGAAC TCCTGGAGCG CATCAACCTC AAAGAGCACC TACCCACTTT CCTCTTCAAT 
GGCTATGAGG ACCTGGATAC CTTTAAGCTT CTGGAAGAGG AGGATCTAGA CGAGCTTGAC 
ATCGGAGACC CTCAACACAG GGCTGTGCTG CTCACTGCTG TGGAGCTTCT GCAGGAGTAC 
GACGGTAGCA GCGACCCGGA CCGTAGCAGC CAGACAGGGG GTTCTCAGGA GAAGCTGTTA 
CTGGACCGCC GGGGCCTACT GGGGGACTCC CCACGAGACT CTGGCTGCTA CGAGAGCAAC 
GAGAATCTGG AGAACGGAGG GAGGGGCAAA AAGACGTCTT CTTCCATGAG CAGGTCCTCG 
TCTGGTTTTC AATCCAGTCA CCTCCCATCC CCAGAGTCCC CCAGCCTCCC CCTCACCCCG 
ACCCACCTCA GCCTCCCCCT GATCCACCCC AGCAAGACCA CCTTACAGAC CAGACCAGAG 
CACCAGTCCA CTACCTTACC ATCTCTAGGA GCCTCCATGA CCAGCTGCTA CCTTCTGAGC 
CCAGGCAGGA GCCAGAGCCA TCACAGTCAC ACCCACAGAG CCATGCCACT GAGGAGCTGG 
AGCTGTGATA ACCTGGGCCC GGCAGGTAAG CCTACTCCCA CAGCCCTGGG GCTGCTCCCC 
CTGGGGGAGC TTCACTCAGA CCAGGGCCTC CACACCACTG AGCTCCACAC CCTGGAAGAC 
ATGAAGCCAG CTCATACCAC CATGTCCAAT GCTAAGGGAC AGGGATACCC GACACAAGAG 
GAGGCCCTAC AGCAGTTGTT GACACACTCT GAAGGATCTT TCCTGCCCTC ACAACCACTG 
CTCCCCTCAC CTTGTAGTGT TCTGTCTGAT ACGTTAGAGT TGGACATGGG AGTTCCCAGG 
TTAACAGACC TCCTTCCATA CACACACCTC AAAATATCCA CTCCAGCACC AGGACGTAGG 
CCCAAGCATC GTTCAGCCAA GCCTTTCCTG TCAAACCCAT GTATACCATC ATCACCCCCA 
GCAATGACCA GTGACGGTGG TAGTGCCTAT AAACTCTTCT CTTTAGATGG CACCTCTTTA 
AAGGATGAAG TTATTACAGA GACAACAACC CAACCGTGCA GCTCAGACCT GGCAACCCAA 
ACCTGTATCT CAGACTGTGA CCTTGCAGAC TATCCTCTCC AGTCTGAAGC CCACAGGACG 
CAGCCTGCTG GGGGAATGGA AACTATGCCT GTCAGGTCGG TCAACCTGGG ACCCCTCCTG 
GAGGAAAGAC TGGAGTCCGA GGGGATAGAT CTGACAGCGG AGCCCTTCTC TGACAAGTAT 
GGTCGCTATG GAATCCCCCA GTCTCTGGTC CAGAGGTACG CCACTGACCT GAACCAGCCT 
CTAACAGAGA TCATGTATGC CATGGACCTG CTCAGACTCA CACAGCTCCG CAAGCAGCAG 
CGCATGGCAG TGTGTCAAAA GCCACAGACC CTAGCGCTTG GACTAACAGC AGTGACTGAC 
GACTGA

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

RefSeq	XP_014052688.1
CDS	378..3563
Translation	MKKIALENRLSMHKSSSEDASGGKWDGKRQKNKSFWQNFRKSQKGVVRQTTRGEDIGFVASDITMSDEERIQLMMMVKEKMISVEEALARLKEFETQSRQNCSTVLTEWHDAPSPTLNESSNCNSCEQSDGEQEESGTFRRLHKLVSSSRRVRKKLLRIDESKKPGSDESLSMVGPVLGDAMSSLSLYSGVQKKLSGGCHHDDSLSSALRDQLTYDLRDSDSLTTSPSSSSLDTCSSNTHTHSLDTVSSTSQRLSTAFSKTGGSSPACSPGRYQDTGPSGDVRAGGSGSSLSEIEVGGGEDGPRMARSVTDGEIRRVIGPLSYHGRTCSFGGFDLTNRTLHMVTGDQDLTSKDGDASVKGVVKSPQTNHRISLGKKVKSVKETMRKRISKRYHCALSEQLSPDRMSSGPQSPHSHTDTDSLEKPKLKAGGSVESLRSSLSGQSSMSGQTVGTTDSSNSNRESVKSEDGEEDELPYRGPFCGRAMVHTDFTPSPYDTDSLKLKRGDVIDIISKPPMGTWMGLLNSKVGTFKFIYVDVLAEEEDKPKHTRRRRKGRQPKPTSVEELLERINLKEHLPTFLFNGYEDLDTFKLLEEEDLDELDIGDPQHRAVLLTAVELLQEYDGSSDPDRSSQTGGSQEKLLLDRRGLLGDSPRDSGCYESNENLENGGRGKKTSSSMSRSSSGFQSSHLPSPESPSLPLTPTHLSLPLIHPSKTTLQTRPEHQSTTLPSLGASMTSCYLLSPGRSQSHHSHTHRAMPLRSWSCDNLGPAGKPTPTALGLLPLGELHSDQGLHTTELHTLEDMKPAHTTMSNAKGQGYPTQEEALQQLLTHSEGSFLPSQPLLPSPCSVLSDTLELDMGVPRLTDLLPYTHLKISTPAPGRRPKHRSAKPFLSNPCIPSSPPAMTSDGGSAYKLFSLDGTSLKDEVITETTTQPCSSDLATQTCISDCDLADYPLQSEAHRTQPAGGMETMPVRSVNLGPLLEERLESEGIDLTAEPFSDKYGRYGIPQSLVQRYATDLNQPLTEIMYAMDLLRLTQLRKQQRMAVCQKPQTLALGLTAVTDD

Target ORF information:

RefSeq Version	XM_014197213.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar SAM and SH3 domain-containing protein 1-like (LOC106603468), transcript variant X3, mRNA.

Target ORF information:

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

XM_014197213.1

ORF Insert Sequence:

ATGAAGAAAA TTGCATTGGA AAACAGGTTG TCCATGCATA AATCAAGTTC TGAGGATGCA 
TCAGGGGGAA AATGGGACGG AAAGAGACAG AAAAATAAGT CATTCTGGCA GAATTTTCGG 
AAGTCGCAGA AAGGTGTCGT GCGGCAGACC ACAAGAGGTG AGGACATAGG TTTTGTAGCC 
AGTGACATCA CTATGAGTGA TGAGGAGCGC ATCCAGCTGA TGATGATGGT CAAGGAGAAG 
ATGATAAGCG TGGAGGAGGC CTTGGCAAGG CTGAAAGAGT TTGAGACCCA GAGCAGGCAG 
AACTGCAGCA CTGTTCTTAC AGAATGGCAT GATGCTCCCA GTCCAACCCT GAACGAGTCC 
TCCAACTGCA ATTCATGTGA GCAGTCGGAT GGTGAACAGG AGGAGTCCGG GACGTTCAGA 
CGGCTCCATA AGCTGGTCAG CTCCAGTCGT AGGGTCCGCA AGAAACTCCT CAGAATCGAC 
GAGTCCAAGA AGCCTGGGTC TGACGAGTCT CTGAGTATGG TCGGGCCTGT CCTGGGTGAT 
GCCATGTCCT CTCTGTCCCT GTACTCTGGG GTTCAGAAGA AGCTGTCTGG CGGGTGTCAC 
CACGATGACT CCCTGTCCTC CGCCTTGCGC GACCAGCTGA CTTATGACCT TCGAGACTCG 
GACAGCCTGA CCACCTCCCC CTCCTCCTCC TCCTTGGACA CCTGCAGCAG CAACACACAC 
ACCCACAGCC TGGATACAGT CTCCAGCACC AGCCAGCGAC TGTCCACAGC CTTCAGTAAG 
ACAGGAGGAT CCAGCCCAGC CTGTAGCCCA GGGAGATACC AGGACACAGG CCCCAGTGGC 
GACGTGAGGG CCGGGGGTAG TGGTTCCTCC CTGTCAGAGA TAGAGGTTGG TGGTGGAGAG 
GATGGACCCA GGATGGCCCG GTCAGTCACG GATGGAGAGA TCAGGAGAGT AATCGGCCCA 
CTCAGCTACC ATGGGAGAAC CTGTAGCTTT GGTGGGTTTG ATCTGACCAA CCGGACTCTG 
CACATGGTCA CCGGAGATCA GGACCTCACT AGCAAAGATG GGGATGCCAG TGTGAAAGGC 
GTAGTCAAGT CTCCACAGAC GAACCATCGA ATCTCTTTGG GCAAGAAAGT GAAGTCAGTG 
AAAGAAACCA TGAGAAAACG CATCTCAAAG AGATACCACT GCGCTCTCTC TGAACAGTTA 
AGCCCAGACC GTATGTCCAG CGGGCCCCAG TCCCCCCACA GCCACACAGA CACAGACTCA 
CTGGAGAAAC CCAAGCTGAA GGCTGGAGGC TCAGTGGAGA GCCTGAGGAG CTCCCTCAGC 
GGACAGAGCT CCATGAGTGG TCAGACAGTG GGCACCACAG ACTCCTCCAA CAGCAACAGA 
GAGAGTGTGA AGTCTGAGGA TGGAGAGGAG GATGAACTTC CCTACAGAGG ACCCTTCTGT 
GGTCGAGCTA TGGTGCACAC TGACTTCACC CCCAGCCCCT ACGACACTGA CTCTCTCAAA 
CTGAAGAGAG GTGATGTGAT TGACATCATC AGCAAGCCTC CAATGGGGAC GTGGATGGGC 
CTGCTGAACA GTAAGGTGGG AACATTTAAG TTCATCTACG TGGACGTTCT GGCTGAGGAG 
GAAGACAAAC CTAAACACAC CCGACGGAGG AGGAAGGGAC GGCAGCCCAA ACCCACCTCT 
GTAGAGGAAC TCCTGGAGCG CATCAACCTC AAAGAGCACC TACCCACTTT CCTCTTCAAT 
GGCTATGAGG ACCTGGATAC CTTTAAGCTT CTGGAAGAGG AGGATCTAGA CGAGCTTGAC 
ATCGGAGACC CTCAACACAG GGCTGTGCTG CTCACTGCTG TGGAGCTTCT GCAGGAGTAC 
GACGGTAGCA GCGACCCGGA CCGTAGCAGC CAGACAGGGG GTTCTCAGGA GAAGCTGTTA 
CTGGACCGCC GGGGCCTACT GGGGGACTCC CCACGAGACT CTGGCTGCTA CGAGAGCAAC 
GAGAATCTGG AGAACGGAGG GAGGGGCAAA AAGACGTCTT CTTCCATGAG CAGGTCCTCG 
TCTGGTTTTC AATCCAGTCA CCTCCCATCC CCAGAGTCCC CCAGCCTCCC CCTCACCCCG 
ACCCACCTCA GCCTCCCCCT GATCCACCCC AGCAAGACCA CCTTACAGAC CAGACCAGAG 
CACCAGTCCA CTACCTTACC ATCTCTAGGA GCCTCCATGA CCAGCTGCTA CCTTCTGAGC 
CCAGGCAGGA GCCAGAGCCA TCACAGTCAC ACCCACAGAG CCATGCCACT GAGGAGCTGG 
AGCTGTGATA ACCTGGGCCC GGCAGGTAAG CCTACTCCCA CAGCCCTGGG GCTGCTCCCC 
CTGGGGGAGC TTCACTCAGA CCAGGGCCTC CACACCACTG AGCTCCACAC CCTGGAAGAC 
ATGAAGCCAG CTCATACCAC CATGTCCAAT GCTAAGGGAC AGGGATACCC GACACAAGAG 
GAGGCCCTAC AGCAGTTGTT GACACACTCT GAAGGATCTT TCCTGCCCTC ACAACCACTG 
CTCCCCTCAC CTTGTAGTGT TCTGTCTGAT ACGTTAGAGT TGGACATGGG AGTTCCCAGG 
TTAACAGACC TCCTTCCATA CACACACCTC AAAATATCCA CTCCAGCACC AGGACGTAGG 
CCCAAGCATC GTTCAGCCAA GCCTTTCCTG TCAAACCCAT GTATACCATC ATCACCCCCA 
GCAATGACCA GTGACGGTGG TAGTGCCTAT AAACTCTTCT CTTTAGATGG CACCTCTTTA 
AAGGATGAAG TTATTACAGA GACAACAACC CAACCGTGCA GCTCAGACCT GGCAACCCAA 
ACCTGTATCT CAGACTGTGA CCTTGCAGAC TATCCTCTCC AGTCTGAAGC CCACAGGACG 
CAGCCTGCTG GGGGAATGGA AACTATGCCT GTCAGGTCGG TCAACCTGGG ACCCCTCCTG 
GAGGAAAGAC TGGAGTCCGA GGGGATAGAT CTGACAGCGG AGCCCTTCTC TGACAAGTAT 
GGTCGCTATG GAATCCCCCA GTCTCTGGTC CAGAGGTACG CCACTGACCT GAACCAGCCT 
CTAACAGAGA TCATGTATGC CATGGACCTG CTCAGACTCA CACAGCTCCG CAAGCAGCAG 
CGCATGGCAG TGTGTCAAAA GCCACAGACC CTAGCGCTTG GACTAACAGC AGTGACTGAC 
GACTGA

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

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LOC106603468 cDNA ORF clone, Salmo salar(Atlantic salmon)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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