LOC106606682 cDNA ORF clone, Salmo salar(Atlantic salmon)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC106606682
Entrez Gene ID	106606682
Full Name	sterile alpha motif domain-containing protein 9-like
Gene Type	protein-coding
Organism	Salmo salar(Atlantic salmon)

mRNA and Protein(s)

mRNA	Protein	Name
XM_014203024.1	XP_014058499.1	sterile alpha motif domain-containing protein 9-like

Pathways from BioSystems
Gene Ontology

The following LOC106606682 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106606682 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OAt20850	XM_014203024.1 Latest version!	Salmo salar sterile alpha motif domain-containing protein 9-like (LOC106606682), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

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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)

LOC106606682 ( XM_014203024.1 ) cDNA ORF clone, Salmo salar(Atlantic salmon) -> XP_014058499.1 Salmo salar sterile alpha motif domain-containing protein 9-like (LOC106606682), mRNA.

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CloneID	OAt20850
Clone ID Related Accession (Same CDS sequence)	XM_014203024.1
Accession Version	XM_014203024.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3717bp) 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	sterile alpha motif domain-containing protein 9-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012335149.1) 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##

ATGGCAGAGG AACCTGATGA ACTGCCTGTT GAAAAATGGA CTGACTCCAA CGTGAGCTCC 
TGGTTAAGAA CTACTGGAGT GAAGGAGCAA TACATCAAGA AACTTTATGA GGAAGAGGTA 
GATGGGAGCA TTCTCCTTGT ACTGACTGAG GACTATCTGA GAAAAGAGAT TGGAATGAAA 
TCAGGACCTG CTCTGTTGAT CATCAGAAAG AGAAATGAGC TTGTAGACAC CAAACAGAGA 
ACTCAGGGCA AGGAAAAGCC TCAAAGTCGC AACAATAGTG AAAAGGGAAG TAAAAAGAAG 
CAGGGATCAG CTCCCCAGAT TCCAGAGACA GATCAAGGTC TTTCAGAGGA AGAGAAACAA 
ACTCATCAAG GGCAATCTGT TGTGGACAAT GTGTTAACCA CAAAGAGAGA CTGCAAGCCA 
CGGCCATTTG GCAAAGAAGG CATTGATTTC ACATATGCCA AACATAGTGT TCTGCAACCT 
GAATCTGGTG TATTTGATCT GATATCGCCC TGTCATGAGT ATAAGTCATT TGACAATGCT 
GCCAAATTAG ACCGCGCTAG ACTACAGGCA AAATTTGCCA AAGAGGTTCT CAAATTCGGT 
AGTGGCTGCA TGAATATCAG ATCAAATGGC ACAATACACT TTGGTGTGAT GGACAGTAGG 
GATGATACAG GCTATGTGCA TGGTGAGATA ATCGGTGTTC CGGTTTTTGA GAAAGATATA 
TATGTTGATG CATTGGATCA CATTGAGAGG AGTTTCTCTC ACTCTGACAG CGAGCATGTG 
CGACAGTGCA TACGCCCACC TCAGTTTATT GAGGTCATGG ACATAGAAAA AAGGTATGTG 
GTGGAGGTTG ATATTGTTCC CTCCATAAGC ATTGTTAAGA ACCGAGTGTA CGCTGTTCGC 
CTGCCGAACT TCAAAGAGTC CTCTAACAAG ATTGAGCATG AAAAGGAAAC AATCTATCGC 
AGGGTAGGAT CAAAAACCGA GCCAGTGAGT GATCAAAATG ACTTCTACCA GCGAATCAGA 
GACAGAGATG CCCAAAGAGA AGAGGCTGAG CATTGCCGAT ATGTTAATAC CCCAGACGTC 
TGCCAAGACC TTGGAAGGAA ACTCACCATG CTGGTAACCA GTGGCAAGAA ATTAATTGAA 
AAGGAGAAAT GGTACATTCT TGTCACTAAC CAGTTCCAAC CAGATGACTT GAGCAGCATT 
GCCTTCTTAC TCAACATGAA CATTTTCTGT GTGTTCGATT TTGACCCTGA TTCCAAAGTG 
TCAGGATTCT GCAGTAAATA CATTCAGCAC CATGCTGCAA ATATGCATTT CATGCAGAAC 
TACAAAATCC CAGATGGCAT GAGCATTGGA GACTTTGTGA GTCACCTGCA TTTGTTTGAG 
CAAACCAGCT GGATCTTTTG CAATGGGCGG AATGACTATC AAGGAAATGA AAGTCCCGCC 
GATGAAATGA CATGGATCAA AACAAAAATG ACACTCCTCA GGGATTCCGT GTCACTGATC 
TGCAAACAGA TTTTGCCAAA AGGCACATTT ACTGTGGTCT TCCTTCTCAC CTCCCCAGTC 
GAGAAACCAC TCTTGCACAC CTTCAATCTA TTCTTCACTG ACATGGAGGG TCATGATGAC 
ATCATCTGTA TCTCAGAATC TGAGGACAAT TATCAGAAAT GGCAACACTT TGCTGAGCTC 
TCATGTGGAA CAGAAACTGT GAACCGCTCC AGCGTTGTTG GGATGAAAAT GAGCCATGTG 
AATGCCACAC TTCAACGTAT TCAACATGTC ACCACTAGAG CAACCAAACA TCTGTCTACC 
CATGTTAAAG GACAGTGCCC TTTTGAGACC CGTGACGAGG AAAGGATGTA TTCTCTAGAG 
ATTCTCAGTG TTTACCATTG TGATGAAACT AGTGATGACT TTATCGAGGC AGAGAAAGAA 
AACATTGAAA GACAGTTTTA CCACGGGGGC AGAGTGAGCT GGATGAATTT TTGGCTTGCA 
GAGAAGAAGT TTGTGGGGGA TGTCATTCAA CGGGATGCCT ACTGGGACGT CTCAAAACTT 
CTCAGTGACA CTCAGAAGTG GAGTATAGAC CAATTAGCTG TGAACAGTAT CAACATCTAC 
CATCACCCAG GAAGCGGTGG AAGCACCGTG GCAAGGCAGG TGCTGTGGAA CAATAGAAAA 
GACCTAAGAT GTGCTGTTGT GAAACCGTCA TACTCTGCTA CCATAGTCTC TGAGCATGCT 
GTTCAACTCC GAGAGTACGA AGAAAAAGAT TCCCAGAAAT GCCTCCCAGT ACTCCTGTTG 
GTTGAGGACT GTGACAAAGA ACATCTGGAT GATTTGAAGC ATGAATTAGA GGTTGCAAGC 
TACACAAAAA AAATTGTGCA AGGAACACTG TGTTTCATTC TGTTGAGCTG CAGACGATCC 
CATAACCCAG AGAAGATGTG CAAGGACTTT CCATTGCAGA ATGTAGCTGT CACTCACAAG 
CTATCAAAAG AAGAGAAGAG ACAGTTTGCT GGGAAACGAC AGAAGCTTGA AGAACAGTAC 
CAGCCAGAAT TCATCTTGAC ATTCGTCTTG ATGAGTGAAG AATTTGAGCA CAAGAAGATT 
GTCAAGTATG TTGAACAATT TGTGAAACAT CTGCTGCAAG GCATTGACCA TGGATCTGTT 
GTCACTCGCC TCATTCGGTA TGTGGCATTG CTGAACACAT ATGTTCAGAA CTCCTTCATT 
TCCCAGTCCC ACTGTGAAAC TCTGCTAGCT CTAACTATCC ACATGGATAG GTTTCGCCAG 
CATACGTTTG AGACATCACT GAGTGAGCCG GCCAAACTCG TCTTCATTCA CCTGAGAGAT 
GACAGAACAT ATATTGAATC AATCCGAATC ATTCATCCAT TTGTAGCAAA GGAAATTCTC 
CAGCAGCTTT TGGGTGACCA CCAGCAAGGT CAAGGGACTC AAGGCAGATT AGCAATGGCT 
CTTCTTCATG AGGATGTGCT TTTCGAACAC AGGTTTGGAA AAGAGCATTA CTTGAGGTTT 
CTGCGAGACC TGTTCATGAA GCGTTGCAGA ATAAGCAAAG GTGATGAATC TGACAGCTTT 
TTTTCTCCAC TCATTGAGCA TGTGAGTAAA AATGAGGGCC CTGACAAAGC AATTGAGCTT 
CTCAGAGAGG CATATAAACG TTTTAACAAA GATCCATTCT TTGCTCAGCA GCTTGCCCGT 
CTGAACTACA GACACAACAA ATTTGAAGAG GCAGAACAGT GGGCAGAAAT AGCAGGCAAA 
AAGATGCCTA ACAACTCCTA CATCCTGAAC ACCAAAGGTC AGGTCTACAG GAGCTGGTTC 
AATGCCAAGT GTAAAGCAAT AGAGAACCTC CCAAAGACCG TAGAAAACAC AGCTGATGCA 
GTAGAAACTG CACTGAAAGC TATGGAATGC TTCCAAGATT GTGAGCAGGC TGCAATCGCA 
GACCATAACT CCATGAACAA TTCAGGCTTT TTTGCAGCTG TTGAAGTCGG ATTCAGCTTG 
TTAAAGCTAA TTTCCTCACT GCGTGTTTTT TCAAACAAGG CACATGGTCA TTCAGAAAGT 
TTGAAGTACT TGCTCACAGA CTATGTTCCT GAAGAAGTCA AGGAACCCTG GGAACATTTT 
CACAGCAAAC TGAAGAACCT GCAAACTACT CTGCACGAAT CCCTTGATTG GATCTCAGAA 
GATCTGAGTT ACTTTCAAGC TGACATGAGG AGGAGACTAT TGAAAGTTCT GAGATGA

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

RefSeq	XP_014058499.1
CDS	209..3925
Translation	MAEEPDELPVEKWTDSNVSSWLRTTGVKEQYIKKLYEEEVDGSILLVLTEDYLRKEIGMKSGPALLIIRKRNELVDTKQRTQGKEKPQSRNNSEKGSKKKQGSAPQIPETDQGLSEEEKQTHQGQSVVDNVLTTKRDCKPRPFGKEGIDFTYAKHSVLQPESGVFDLISPCHEYKSFDNAAKLDRARLQAKFAKEVLKFGSGCMNIRSNGTIHFGVMDSRDDTGYVHGEIIGVPVFEKDIYVDALDHIERSFSHSDSEHVRQCIRPPQFIEVMDIEKRYVVEVDIVPSISIVKNRVYAVRLPNFKESSNKIEHEKETIYRRVGSKTEPVSDQNDFYQRIRDRDAQREEAEHCRYVNTPDVCQDLGRKLTMLVTSGKKLIEKEKWYILVTNQFQPDDLSSIAFLLNMNIFCVFDFDPDSKVSGFCSKYIQHHAANMHFMQNYKIPDGMSIGDFVSHLHLFEQTSWIFCNGRNDYQGNESPADEMTWIKTKMTLLRDSVSLICKQILPKGTFTVVFLLTSPVEKPLLHTFNLFFTDMEGHDDIICISESEDNYQKWQHFAELSCGTETVNRSSVVGMKMSHVNATLQRIQHVTTRATKHLSTHVKGQCPFETRDEERMYSLEILSVYHCDETSDDFIEAEKENIERQFYHGGRVSWMNFWLAEKKFVGDVIQRDAYWDVSKLLSDTQKWSIDQLAVNSINIYHHPGSGGSTVARQVLWNNRKDLRCAVVKPSYSATIVSEHAVQLREYEEKDSQKCLPVLLLVEDCDKEHLDDLKHELEVASYTKKIVQGTLCFILLSCRRSHNPEKMCKDFPLQNVAVTHKLSKEEKRQFAGKRQKLEEQYQPEFILTFVLMSEEFEHKKIVKYVEQFVKHLLQGIDHGSVVTRLIRYVALLNTYVQNSFISQSHCETLLALTIHMDRFRQHTFETSLSEPAKLVFIHLRDDRTYIESIRIIHPFVAKEILQQLLGDHQQGQGTQGRLAMALLHEDVLFEHRFGKEHYLRFLRDLFMKRCRISKGDESDSFFSPLIEHVSKNEGPDKAIELLREAYKRFNKDPFFAQQLARLNYRHNKFEEAEQWAEIAGKKMPNNSYILNTKGQVYRSWFNAKCKAIENLPKTVENTADAVETALKAMECFQDCEQAAIADHNSMNNSGFFAAVEVGFSLLKLISSLRVFSNKAHGHSESLKYLLTDYVPEEVKEPWEHFHSKLKNLQTTLHESLDWISEDLSYFQADMRRRLLKVLR

Target ORF information:

RefSeq Version	XM_014203024.1
Organism	Salmo salar(Atlantic salmon)
Definition	Salmo salar sterile alpha motif domain-containing protein 9-like (LOC106606682), mRNA.

Target ORF information:

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

XM_014203024.1

ORF Insert Sequence:

ATGGCAGAGG AACCTGATGA ACTGCCTGTT GAAAAATGGA CTGACTCCAA CGTGAGCTCC 
TGGTTAAGAA CTACTGGAGT GAAGGAGCAA TACATCAAGA AACTTTATGA GGAAGAGGTA 
GATGGGAGCA TTCTCCTTGT ACTGACTGAG GACTATCTGA GAAAAGAGAT TGGAATGAAA 
TCAGGACCTG CTCTGTTGAT CATCAGAAAG AGAAATGAGC TTGTAGACAC CAAACAGAGA 
ACTCAGGGCA AGGAAAAGCC TCAAAGTCGC AACAATAGTG AAAAGGGAAG TAAAAAGAAG 
CAGGGATCAG CTCCCCAGAT TCCAGAGACA GATCAAGGTC TTTCAGAGGA AGAGAAACAA 
ACTCATCAAG GGCAATCTGT TGTGGACAAT GTGTTAACCA CAAAGAGAGA CTGCAAGCCA 
CGGCCATTTG GCAAAGAAGG CATTGATTTC ACATATGCCA AACATAGTGT TCTGCAACCT 
GAATCTGGTG TATTTGATCT GATATCGCCC TGTCATGAGT ATAAGTCATT TGACAATGCT 
GCCAAATTAG ACCGCGCTAG ACTACAGGCA AAATTTGCCA AAGAGGTTCT CAAATTCGGT 
AGTGGCTGCA TGAATATCAG ATCAAATGGC ACAATACACT TTGGTGTGAT GGACAGTAGG 
GATGATACAG GCTATGTGCA TGGTGAGATA ATCGGTGTTC CGGTTTTTGA GAAAGATATA 
TATGTTGATG CATTGGATCA CATTGAGAGG AGTTTCTCTC ACTCTGACAG CGAGCATGTG 
CGACAGTGCA TACGCCCACC TCAGTTTATT GAGGTCATGG ACATAGAAAA AAGGTATGTG 
GTGGAGGTTG ATATTGTTCC CTCCATAAGC ATTGTTAAGA ACCGAGTGTA CGCTGTTCGC 
CTGCCGAACT TCAAAGAGTC CTCTAACAAG ATTGAGCATG AAAAGGAAAC AATCTATCGC 
AGGGTAGGAT CAAAAACCGA GCCAGTGAGT GATCAAAATG ACTTCTACCA GCGAATCAGA 
GACAGAGATG CCCAAAGAGA AGAGGCTGAG CATTGCCGAT ATGTTAATAC CCCAGACGTC 
TGCCAAGACC TTGGAAGGAA ACTCACCATG CTGGTAACCA GTGGCAAGAA ATTAATTGAA 
AAGGAGAAAT GGTACATTCT TGTCACTAAC CAGTTCCAAC CAGATGACTT GAGCAGCATT 
GCCTTCTTAC TCAACATGAA CATTTTCTGT GTGTTCGATT TTGACCCTGA TTCCAAAGTG 
TCAGGATTCT GCAGTAAATA CATTCAGCAC CATGCTGCAA ATATGCATTT CATGCAGAAC 
TACAAAATCC CAGATGGCAT GAGCATTGGA GACTTTGTGA GTCACCTGCA TTTGTTTGAG 
CAAACCAGCT GGATCTTTTG CAATGGGCGG AATGACTATC AAGGAAATGA AAGTCCCGCC 
GATGAAATGA CATGGATCAA AACAAAAATG ACACTCCTCA GGGATTCCGT GTCACTGATC 
TGCAAACAGA TTTTGCCAAA AGGCACATTT ACTGTGGTCT TCCTTCTCAC CTCCCCAGTC 
GAGAAACCAC TCTTGCACAC CTTCAATCTA TTCTTCACTG ACATGGAGGG TCATGATGAC 
ATCATCTGTA TCTCAGAATC TGAGGACAAT TATCAGAAAT GGCAACACTT TGCTGAGCTC 
TCATGTGGAA CAGAAACTGT GAACCGCTCC AGCGTTGTTG GGATGAAAAT GAGCCATGTG 
AATGCCACAC TTCAACGTAT TCAACATGTC ACCACTAGAG CAACCAAACA TCTGTCTACC 
CATGTTAAAG GACAGTGCCC TTTTGAGACC CGTGACGAGG AAAGGATGTA TTCTCTAGAG 
ATTCTCAGTG TTTACCATTG TGATGAAACT AGTGATGACT TTATCGAGGC AGAGAAAGAA 
AACATTGAAA GACAGTTTTA CCACGGGGGC AGAGTGAGCT GGATGAATTT TTGGCTTGCA 
GAGAAGAAGT TTGTGGGGGA TGTCATTCAA CGGGATGCCT ACTGGGACGT CTCAAAACTT 
CTCAGTGACA CTCAGAAGTG GAGTATAGAC CAATTAGCTG TGAACAGTAT CAACATCTAC 
CATCACCCAG GAAGCGGTGG AAGCACCGTG GCAAGGCAGG TGCTGTGGAA CAATAGAAAA 
GACCTAAGAT GTGCTGTTGT GAAACCGTCA TACTCTGCTA CCATAGTCTC TGAGCATGCT 
GTTCAACTCC GAGAGTACGA AGAAAAAGAT TCCCAGAAAT GCCTCCCAGT ACTCCTGTTG 
GTTGAGGACT GTGACAAAGA ACATCTGGAT GATTTGAAGC ATGAATTAGA GGTTGCAAGC 
TACACAAAAA AAATTGTGCA AGGAACACTG TGTTTCATTC TGTTGAGCTG CAGACGATCC 
CATAACCCAG AGAAGATGTG CAAGGACTTT CCATTGCAGA ATGTAGCTGT CACTCACAAG 
CTATCAAAAG AAGAGAAGAG ACAGTTTGCT GGGAAACGAC AGAAGCTTGA AGAACAGTAC 
CAGCCAGAAT TCATCTTGAC ATTCGTCTTG ATGAGTGAAG AATTTGAGCA CAAGAAGATT 
GTCAAGTATG TTGAACAATT TGTGAAACAT CTGCTGCAAG GCATTGACCA TGGATCTGTT 
GTCACTCGCC TCATTCGGTA TGTGGCATTG CTGAACACAT ATGTTCAGAA CTCCTTCATT 
TCCCAGTCCC ACTGTGAAAC TCTGCTAGCT CTAACTATCC ACATGGATAG GTTTCGCCAG 
CATACGTTTG AGACATCACT GAGTGAGCCG GCCAAACTCG TCTTCATTCA CCTGAGAGAT 
GACAGAACAT ATATTGAATC AATCCGAATC ATTCATCCAT TTGTAGCAAA GGAAATTCTC 
CAGCAGCTTT TGGGTGACCA CCAGCAAGGT CAAGGGACTC AAGGCAGATT AGCAATGGCT 
CTTCTTCATG AGGATGTGCT TTTCGAACAC AGGTTTGGAA AAGAGCATTA CTTGAGGTTT 
CTGCGAGACC TGTTCATGAA GCGTTGCAGA ATAAGCAAAG GTGATGAATC TGACAGCTTT 
TTTTCTCCAC TCATTGAGCA TGTGAGTAAA AATGAGGGCC CTGACAAAGC AATTGAGCTT 
CTCAGAGAGG CATATAAACG TTTTAACAAA GATCCATTCT TTGCTCAGCA GCTTGCCCGT 
CTGAACTACA GACACAACAA ATTTGAAGAG GCAGAACAGT GGGCAGAAAT AGCAGGCAAA 
AAGATGCCTA ACAACTCCTA CATCCTGAAC ACCAAAGGTC AGGTCTACAG GAGCTGGTTC 
AATGCCAAGT GTAAAGCAAT AGAGAACCTC CCAAAGACCG TAGAAAACAC AGCTGATGCA 
GTAGAAACTG CACTGAAAGC TATGGAATGC TTCCAAGATT GTGAGCAGGC TGCAATCGCA 
GACCATAACT CCATGAACAA TTCAGGCTTT TTTGCAGCTG TTGAAGTCGG ATTCAGCTTG 
TTAAAGCTAA TTTCCTCACT GCGTGTTTTT TCAAACAAGG CACATGGTCA TTCAGAAAGT 
TTGAAGTACT TGCTCACAGA CTATGTTCCT GAAGAAGTCA AGGAACCCTG GGAACATTTT 
CACAGCAAAC TGAAGAACCT GCAAACTACT CTGCACGAAT CCCTTGATTG GATCTCAGAA 
GATCTGAGTT ACTTTCAAGC TGACATGAGG AGGAGACTAT TGAAAGTTCT GAGATGA

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

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LOC106606682 cDNA ORF clone, Salmo salar(Atlantic salmon)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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