Samd9l cDNA ORF clone, Mus musculus(house mouse)

Gene
Clones
gRNAs

Summary

Gene Symbol	Samd9l
Entrez Gene ID	209086
Full Name	sterile alpha motif domain containing 9-like
Synonyms	AA175286,ESTM25,mKIAA2005
General protein information	Preferred Names sterile alpha motif domain containing 9-like Names sterile alpha motif domain-containing protein 9-like SAM domain-containing protein 9-like v-myc myelocytomatosis viral related oncogene, neuroblastoma derived
Gene Type	protein-coding
Organism	Mus musculus(house mouse)
Genome	Chromosome: 6 Map Location: 6 A1\|6 1.76 cM

mRNA and Protein(s)

mRNA	Protein	Name
NM_010156.3	NP_034286.2	sterile alpha motif domain-containing protein 9-like
XM_006505026.2	XP_006505089.1	sterile alpha motif domain-containing protein 9-like isoform X1

Pathways from BioSystems

Homologies

Canis lupus familiaris (dog)	SAMD9L	XP_539422.3
Gallus gallus (chicken)	SAMD9L	XP_004939355.1
Mus musculus (house mouse)	Samd9l	NP_034286.2
Homo sapiens (human)	SAMD9L	NP_689916.2
Pan troglodytes (chimpanzee)	SAMD9L	XP_001167482.1
	LOC701572	XP_001099940.2
Xenopus tropicalis (tropical clawed frog)	samd9l	XP_004921511.1

Gene Ontology
Bibliography

Related articles in PubMed

High-throughput discovery of novel developmental phenotypes.
Dickinson ME, Flenniken AM, Ji X, Teboul L, Wong MD, White JK, Meehan TF, Weninger WJ, Westerberg H, Adissu H, Baker CN, Bower L, Brown JM, Caddle LB, Chiani F, Clary D, Cleak J, Daly MJ, Denegre JM, Doe B, Dolan ME, Edie SM, Fuchs H, Gailus-Durner V, Galli A, Gambadoro A, Gallegos J, Guo S, Horner NR, Hsu CW, Johnson SJ, Kalaga S, Keith LC, Lanoue L, Lawson TN, Lek M, Mark M, Marschall S, Mason J, McElwee ML, Newbigging S, Nutter LM, Peterson KA, Ramirez-Solis R, Rowland DJ, Ryder E, Samocha KE, Seavitt JR, Selloum M, Szoke-Kovacs Z, Tamura M, Trainor AG, Tudose I, Wakana S, Warren J, Wendling O, West DB, Wong L, Yoshiki A, , , , , , , , , MacArthur DG, Tocchini-Valentini GP, Gao X, Flicek P, Bradley A, Skarnes WC, Justice MJ, Parkinson HE, Moore M, Wells S, Braun RE, Svenson KL, de Angelis MH, Herault Y, Mohun T, Mallon AM, Henkelman RM, Brown SD, Adams DJ, Lloyd KC, McKerlie C, Beaudet AL, Bu?an M, Murray SA
Nature537(7621)508-514(2016 09)

The International Mouse Phenotyping Consortium Web Portal, a unified point of access for knockout mice and related phenotyping data.
Koscielny G, Yaikhom G, Iyer V, Meehan TF, Morgan H, Atienza-Herrero J, Blake A, Chen CK, Easty R, Di Fenza A, Fiegel T, Grifiths M, Horne A, Karp NA, Kurbatova N, Mason JC, Matthews P, Oakley DJ, Qazi A, Regnart J, Retha A, Santos LA, Sneddon DJ, Warren J, Westerberg H, Wilson RJ, Melvin DG, Smedley D, Brown SD, Flicek P, Skarnes WC, Mallon AM, Parkinson H
Nucleic acids research42(Database issue)D802-9(2014 Jan)

Haploinsufficiency of SAMD9L, an endosome fusion facilitator, causes myeloid malignancies in mice mimicking human diseases with monosomy 7.
Nagamachi A, Matsui H, Asou H, Ozaki Y, Aki D, Kanai A, Takubo K, Suda T, Nakamura T, Wolff L, Honda H, Inaba T
Cancer cell24(3)305-17(2013 Sep)

Mouse Samd9l is not a functional paralogue of the human SAMD9, the gene mutated in normophosphataemic familial tumoral calcinosis.
Li Q, Guo H, Matsui H, Honda H, Inaba T, Sundberg JP, Sprecher E, Uitto J
Experimental dermatology21(7)554-6(2012 Jul)

The Samd9L gene: transcriptional regulation and tissue-specific expression in mouse development.
Jiang Q, Quaynor B, Sun A, Li Q, Matsui H, Honda H, Inaba T, Sprecher E, Uitto J
The Journal of investigative dermatology131(7)1428-34(2011 Jul)

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

Haploinsufficiency of SAMD9L, an endosome fusion facilitator, causes myeloid malignancies in mice mimicking human diseases with monosomy 7.
Title: Haploinsufficiency of SAMD9L, an endosome fusion facilitator, causes myeloid malignancies in mice mimicking human diseases with monosomy 7.

Mouse Samd9l is not a functional paralogue of the human SAMD9.
Title: Mouse Samd9l is not a functional paralogue of the human SAMD9, the gene mutated in normophosphataemic familial tumoral calcinosis.

mouse Samd9L revealed near-ubiquitous expression, with the highest level in the kidney, a major organ regulating calcium-phosphate homeostasis and the site of calcitonin hormonal action.
Title: The Samd9L gene: transcriptional regulation and tissue-specific expression in mouse development.

The following Samd9l gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Samd9l 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
OMu05647	NM_010156.3 Latest version!	Mus musculus sterile alpha motif domain containing 9-like (Samd9l), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OMu05647	XM_006505026.2 Latest version!	Mus musculus sterile alpha motif domain containing 9-like (Samd9l), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00

ORF Online Only Promotion

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

Samd9l ( NM_010156.3 ) cDNA ORF clone, Mus musculus(house mouse) -> NP_034286.2 Mus musculus sterile alpha motif domain containing 9-like (Samd9l), mRNA.

Price & Availability↑

CloneID	OMu05647
Clone ID Related Accession (Same CDS sequence)	NM_010156.3 , XM_006505026.2
Accession Version	NM_010156.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4740bp) 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	2019-06-07
Organism	Mus musculus(house mouse)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AK052535.1, BC079894.1 and AK035419.1. On or before Apr 19, 2009 this sequence version replaced XM_908922.2, XM_620286.3, NM_010156.2. ##Evidence-Data-START## Transcript exon combination :: BC079894.1, AK173329.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN00849375, SAMN00849380 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTGGAC AAGTAACTCA ACCAAAATTG ATCAAAGACT GGACCAAAGA ACATGTAAGA 
AAATGGGTTA CTGAAGATCT TAACATTGTT GAGAAATATG CTCAAATCTT GTTCAAAGAA 
GAGGTAACAG GGATGGTCCT GCAGGAATTA ACTGAAGAGG ATCTTAGAGA AATGGGCTTG 
CCACGGGGTC CAGCACTTCT GATAAAACGC ATGTATAACA AACTAATTAG TTCCCCTGAA 
AGTCACAATC AAGATTCCAG AGAATTAAAT GATAAAAAAC TCTCAACAAA AGAACAGCAA 
ACAAAGACCA AAAATGAGGA AGAAAACTCA GTTTCATCCA ACAGTGATCA TGGTCTCAGG 
GAGACAGGGC AGAATGAAGA ACAAGAACCA AGTCTTACGA AAGAAAACAT GTTAGGTGAT 
GTGGTGACTA AAGACATGGA AGATAATAAG CCCAAACCAG AACAGATGTC TTGCACGCCA 
TACCCTTTTG ATTCTTTTTG TGATGTCAAA CAATACATAG AACATTCTAT TCTACGTGTT 
GCTGAGACAG GGCCACTCAA TCTCATTGAC CCAATACATG AATTCAAAGC CTTTACAAAC 
ACAAAGAAAG CCACAGAAGA GGACATAAAA ATGAAATTTA GCAATGAGAC TTTCCGATTT 
GCAGCAGCTT GTATGAATTC ACGTACCAAT GGCACTATTC ATTTTGGAGT AAAAGACAAA 
CCACACGGGG AAATTGTTGG TGTGCAAGTC ACCAGTAAAG ATATCTTTGT TAACCATTTC 
AACACAATGA TCACGAAGTA TTTTGAAGAC AGTGAAATCA GTGAAGCCAG GGCTTGTATC 
CGGGAACCAC GGTTCGTGGA AGTCCTTTTG CAGAATAATA CACAATCTAA TAGATTTGTC 
ATTGAGGTAG ATGTTATTCC CAGACATTCT ATATGTCAAG AAAAGTATTT CTACATTATG 
ATGCAAAGTA GCACAGGCAA AACATGGAAA CAAAGCAAAG ATACTTCATT GTTTGTAAGA 
GAAGGAGCTA GCTCTAAGAA TATCCTGGGC AATCCCAACC AACGGGATAG AGAGTTCAAG 
AAATTTCTAG AGGATTTAAA GATGTGGACA GCGTCTAGAA AAGCGGCCGA AGAAGAACTT 
AGAATGGTAA CTAAGAAAGA GAGTGAAGGA CTAAAACTGT CTAAACTTTT GACCAGACAC 
CAAGGCTCAC TTGATGAATC TTACTATGAT TGGTACATTC TTGTAACAAA TACCTGTGCA 
CCAACTCAAT TAGAGCACTT AGAGTTCATA AAGGAAATGA AATTGTTTGC TGTGCTAGAT 
TTTGATCCTT ATTCTCACAT CAAGGGAGTG GTCAAAGCTT ACAGAGAAAG CAGAATAGCA 
AACCTTCACC TGCCCAGTCA CTATGAGGAA AAAACTACCA TAGCAGAGAA AATTTCTACT 
CTGAAACTTT ATGAGCAACC TAGCTGGATC TTCTGCAATG GCAGAGTAGA CTTGTCATGT 
CAACCTCTAG AGCCACATTT ATGGCAGAGA GATAGAGCTT CTGGGGTTAG AAGACTTATT 
TCATTCCTCA CAGACGAAAA TATCATAGTA AAAGGGAAGG TTTTGGTGGT GTTCCTCTTA 
CTTTCTCCCA TAGAAAACCA AAAAGATCCA CTCATTGAGA CTTTTTGTGC TTTCTATCAA 
GTTTTCAATG GAATGGACAA TATGTTGTGT ATCTGTGTCA ACTCAGCTAT CTACCAACAA 
TGGAGTGATC TACTACAAGT AAGACTGGAA ATCAAAGATG ATCTGGCAAA ACATAGCATT 
TCCACTTTAA ACATAGAACT AGTCAACAAT ACCATCCTCA AACTGAAATC AGTGATTCAA 
TCTTCAAGGA GATTTTTGCC CTCCTGTGGC TCCTCCTCTG TTATTCTGGA GAAAATGGAT 
GAAGATATCA TGAGTGCATT GGAAATCCTC TGTGAAAATG AGTGTAAAGA CACAGACATA 
GAGAAAGATG AATCTCAATT CCTAGAATTT AAGAAATCAA GAGAAGAACA CTTTTATCGA 
GGAGGCAGAG TATCCTGGTG GAATTTCTAT TTTTCTTCTG AAAACTATTC TTCAGCTTTT 
GTAAAAAGGG ATAGTTTTGA AGAGCTAACA ACATTAATAC AACAGTGTGC AGACTCTCCT 
AAACCAGTGT TTGTCAAAGT CATCAACCTG TACCATCACC CAGGCTGTGG AGGTACTACG 
TTGGCGATGC ATGTTCTCTG GGACTTAAAG CAGAAGTTTC GGTGTGCTGT CTTGAAAAAC 
AAAGCAACTG ATTTTGTAGA GATTGGAGAA CAAGTAAGCA AGCTAATGAG CTACAAGGCT 
ACCAGCCACG AGGACTTCAT TCCCGTTCTT CTCCTTGTGG ATGATTTCGA AGAACAAGAG 
AACGCCTATA TTCTGCAGAA TGCCATCAAT GCCTTTATAG CAGAAAAGGG TCTGAGATAT 
GAAAAAACAT TAGTCATAAT CCTGAACTGC ATGAGATCTC AGAATCCAGA TGAAAGTGCA 
AAGTTAGCAA ATAGCATTTC ACTAAAATAC CAACTTTCTC CAAAAGAACA AAGAGCCTTT 
GAGGCCAAAC TACAGGAAAT TGAAAAGGAG CATAAGAACT GTGAAAACTT TTATTCGTTC 
ATGATCTTGA AAGGCAACTT TGATACAACT TACATAAAGA ATGTAGTGAA GAATACTCTG 
AAGGACCTGG ATGCTAAAAG CAGGAGGGCC CAGCTCATTT CTTACCTGGC ATTACTCAAC 
TCTTATGTTA CAGATTCTAC CATTTCAGTA TCACAGTGTG AAATATTTTT GGGAATCACT 
TACACCAAGA AATATGGGAA ACCTGAAACT GTAGAAAAGA ACATGGGAAC CTATTCCACA 
CTTCTAATAA GAACTGAAGT TTCAGATTAT GGGAGGTACA CTGGTATACG TATCATTCAC 
CCTCTAATTG CCACCCACTG TTTAAAAGAA CTGGAAATGA GCTACAGAAT GGATAAGTGT 
CAGATTGCAC TAAATATGCT AGAAGAGAAT GTATTGTATG ATTCTGGTCT AGGAAGGGAC 
AAATTTAAAT ATGATGTGCA AACTCTATTG CTTACAAGAC AACGCAAGGA ACATGGAGCT 
GAAACAGACA CTCTCTTTTC CCCATTGATT GAAGAATTGC AGAATGAGGA AACTGAAAAG 
GTCTTGATCG CAGGAAGTGA TCGATTCCCA CAAAATGCAT TCATTTGTCA AGCTTTAGCA 
AGACACTTCT ATATTAAAGA GAAGAACTTT AGCACTGCTT TAGTCTGGGC AAATCTGGCC 
AAAAGGAAAG CACCTAAGAA TTCTTATATT TCAGATACAC TTGGTCAAGT TTACAAAAGT 
GAGCTCAAAC AGTGGTTGGG TAAAAATAAG ACATGTGGAA ATATTAGTGT GGATGATCTG 
GCCTATTTCC TAGAAGTTGC TGAAAAGGCT TCAAAAGCCT TCAAAGAGTC TCAGAATCAA 
TCTGATAGTA AGGACTATGG AACTGAGGCA TGGTCACCAC AGAATTCCCA AAGAAGATAT 
GACACTTTCA ACACAGCCGG CTTCTTCGGA GAAATAGAAG TAGGTCTTGA CACTATCCAG 
CTTCTTCAGC TCACACCCCT TTTCCATAAA GAAAATGAAA TATCAAAAGA ATCTATGGCA 
GAGTTTTTAT CTGGAAAGGG GACCATCCTT TCAGACCCAA AAGGTGAATA TTGTGTTGTT 
CTCAGCAAAT TTACATCCCT TCTACAGAAT TTACATTCAG ATTTGGAAAG ATGTTTTCAT 
TTTTTTGGTG ATTATATGGG TTTTCTGAAA CCAAGGAATA CTCCAAAAGA ATTGACAGAA 
CTCTTACTAA GTAAGAAAGT CAGCCGCTGT TTCAAGAAAT ATGTAGAACT TTTCTGCCAT 
TTAGATACCA ACTTGGTACA GGGCAAAGAA GATCTGTTAC TTCAAAAGGA GAACTGTAGG 
AAGCGCATAC AAGCTTGGCG AGCAGATACA TTTTCAGGAC TCCTTGAATA TCTTAATCCA 
AATCACAAAG AAGCTAACAA CATAGAAAAT ATAGTGGGAA ACTATACCTT CCTATTACAG 
GATATCCTAA ACAAGCAACT GTCAAAGGTG CTGACCAAGG ACATACAAAA TTTCATTTTG 
GCCAACATTA TTCTCAGTTG TCTAAAGCCC AGTTCCAAGT ATATCTTGCC ATTTAGCACA 
CTGAAAAAAA AGCTCAGAGA GGTCCTGCAG ATTGTGGGGC TAACTCATTC ATATCCTGAT 
CCTTATTTCT TGGCCTGCCT CCTATTCTGG CCAGAAAACA AAGAGCTAGA TGAAGACTCC 
ACACTAATAG AAAAGTATGT CTCATCCTTG AATCGATCCT TCAGGAGACA GTACAAGCAC 
ATGTGTAGGT CCAGGCAGCC AAGCACACTC TTCTACCTGG GGCAGAAGAA GGGTCTTAAC 
AGTCTTGTTC ATAAGGCTGA AATCGAGCGC TACTTCAGTG AAGTGCAAGA TTCAAATTCC 
TTCTGGCACA GTGGAGTAGT GTGGGAAAAA AGAGAGGTCA AAGACCTCCT ACGCCTGCTG 
GATGGCCAGG CTGAAGGCAA ACTAATCTCA CTAGAATATG GAACAGAGGC AAAAATAAAA 
ATACCAGTGA CTTCTGTGTA TTCAGCTCCA CTCAGAAGTG GAAGGAACAT AGAGAGAGTG 
TCCTTCTACC TAGGATTTTC CATTGAGGGT CCTCTGGCAT ATGGCATAAA AGTGATCTAA

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

RefSeq	NP_034286.2
CDS	327..5066
Translation	MSGQVTQPKLIKDWTKEHVRKWVTEDLNIVEKYAQILFKEEVTGMVLQELTEEDLREMGLPRGPALLIKRMYNKLISSPESHNQDSRELNDKKLSTKEQQTKTKNEEENSVSSNSDHGLRETGQNEEQEPSLTKENMLGDVVTKDMEDNKPKPEQMSCTPYPFDSFCDVKQYIEHSILRVAETGPLNLIDPIHEFKAFTNTKKATEEDIKMKFSNETFRFAAACMNSRTNGTIHFGVKDKPHGEIVGVQVTSKDIFVNHFNTMITKYFEDSEISEARACIREPRFVEVLLQNNTQSNRFVIEVDVIPRHSICQEKYFYIMMQSSTGKTWKQSKDTSLFVREGASSKNILGNPNQRDREFKKFLEDLKMWTASRKAAEEELRMVTKKESEGLKLSKLLTRHQGSLDESYYDWYILVTNTCAPTQLEHLEFIKEMKLFAVLDFDPYSHIKGVVKAYRESRIANLHLPSHYEEKTTIAEKISTLKLYEQPSWIFCNGRVDLSCQPLEPHLWQRDRASGVRRLISFLTDENIIVKGKVLVVFLLLSPIENQKDPLIETFCAFYQVFNGMDNMLCICVNSAIYQQWSDLLQVRLEIKDDLAKHSISTLNIELVNNTILKLKSVIQSSRRFLPSCGSSSVILEKMDEDIMSALEILCENECKDTDIEKDESQFLEFKKSREEHFYRGGRVSWWNFYFSSENYSSAFVKRDSFEELTTLIQQCADSPKPVFVKVINLYHHPGCGGTTLAMHVLWDLKQKFRCAVLKNKATDFVEIGEQVSKLMSYKATSHEDFIPVLLLVDDFEEQENAYILQNAINAFIAEKGLRYEKTLVIILNCMRSQNPDESAKLANSISLKYQLSPKEQRAFEAKLQEIEKEHKNCENFYSFMILKGNFDTTYIKNVVKNTLKDLDAKSRRAQLISYLALLNSYVTDSTISVSQCEIFLGITYTKKYGKPETVEKNMGTYSTLLIRTEVSDYGRYTGIRIIHPLIATHCLKELEMSYRMDKCQIALNMLEENVLYDSGLGRDKFKYDVQTLLLTRQRKEHGAETDTLFSPLIEELQNEETEKVLIAGSDRFPQNAFICQALARHFYIKEKNFSTALVWANLAKRKAPKNSYISDTLGQVYKSELKQWLGKNKTCGNISVDDLAYFLEVAEKASKAFKESQNQSDSKDYGTEAWSPQNSQRRYDTFNTAGFFGEIEVGLDTIQLLQLTPLFHKENEISKESMAEFLSGKGTILSDPKGEYCVVLSKFTSLLQNLHSDLERCFHFFGDYMGFLKPRNTPKELTELLLSKKVSRCFKKYVELFCHLDTNLVQGKEDLLLQKENCRKRIQAWRADTFSGLLEYLNPNHKEANNIENIVGNYTFLLQDILNKQLSKVLTKDIQNFILANIILSCLKPSSKYILPFSTLKKKLREVLQIVGLTHSYPDPYFLACLLFWPENKELDEDSTLIEKYVSSLNRSFRRQYKHMCRSRQPSTLFYLGQKKGLNSLVHKAEIERYFSEVQDSNSFWHSGVVWEKREVKDLLRLLDGQAEGKLISLEYGTEAKIKIPVTSVYSAPLRSGRNIERVSFYLGFSIEGPLAYGIKVI

Target ORF information:

RefSeq Version	NM_010156.3
Organism	Mus musculus(house mouse)
Definition	Mus musculus sterile alpha motif domain containing 9-like (Samd9l), mRNA.

Target ORF information:

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

NM_010156.3

ORF Insert Sequence:

ATGAGTGGAC AAGTAACTCA ACCAAAATTG ATCAAAGACT GGACCAAAGA ACATGTAAGA 
AAATGGGTTA CTGAAGATCT TAACATTGTT GAGAAATATG CTCAAATCTT GTTCAAAGAA 
GAGGTAACAG GGATGGTCCT GCAGGAATTA ACTGAAGAGG ATCTTAGAGA AATGGGCTTG 
CCACGGGGTC CAGCACTTCT GATAAAACGC ATGTATAACA AACTAATTAG TTCCCCTGAA 
AGTCACAATC AAGATTCCAG AGAATTAAAT GATAAAAAAC TCTCAACAAA AGAACAGCAA 
ACAAAGACCA AAAATGAGGA AGAAAACTCA GTTTCATCCA ACAGTGATCA TGGTCTCAGG 
GAGACAGGGC AGAATGAAGA ACAAGAACCA AGTCTTACGA AAGAAAACAT GTTAGGTGAT 
GTGGTGACTA AAGACATGGA AGATAATAAG CCCAAACCAG AACAGATGTC TTGCACGCCA 
TACCCTTTTG ATTCTTTTTG TGATGTCAAA CAATACATAG AACATTCTAT TCTACGTGTT 
GCTGAGACAG GGCCACTCAA TCTCATTGAC CCAATACATG AATTCAAAGC CTTTACAAAC 
ACAAAGAAAG CCACAGAAGA GGACATAAAA ATGAAATTTA GCAATGAGAC TTTCCGATTT 
GCAGCAGCTT GTATGAATTC ACGTACCAAT GGCACTATTC ATTTTGGAGT AAAAGACAAA 
CCACACGGGG AAATTGTTGG TGTGCAAGTC ACCAGTAAAG ATATCTTTGT TAACCATTTC 
AACACAATGA TCACGAAGTA TTTTGAAGAC AGTGAAATCA GTGAAGCCAG GGCTTGTATC 
CGGGAACCAC GGTTCGTGGA AGTCCTTTTG CAGAATAATA CACAATCTAA TAGATTTGTC 
ATTGAGGTAG ATGTTATTCC CAGACATTCT ATATGTCAAG AAAAGTATTT CTACATTATG 
ATGCAAAGTA GCACAGGCAA AACATGGAAA CAAAGCAAAG ATACTTCATT GTTTGTAAGA 
GAAGGAGCTA GCTCTAAGAA TATCCTGGGC AATCCCAACC AACGGGATAG AGAGTTCAAG 
AAATTTCTAG AGGATTTAAA GATGTGGACA GCGTCTAGAA AAGCGGCCGA AGAAGAACTT 
AGAATGGTAA CTAAGAAAGA GAGTGAAGGA CTAAAACTGT CTAAACTTTT GACCAGACAC 
CAAGGCTCAC TTGATGAATC TTACTATGAT TGGTACATTC TTGTAACAAA TACCTGTGCA 
CCAACTCAAT TAGAGCACTT AGAGTTCATA AAGGAAATGA AATTGTTTGC TGTGCTAGAT 
TTTGATCCTT ATTCTCACAT CAAGGGAGTG GTCAAAGCTT ACAGAGAAAG CAGAATAGCA 
AACCTTCACC TGCCCAGTCA CTATGAGGAA AAAACTACCA TAGCAGAGAA AATTTCTACT 
CTGAAACTTT ATGAGCAACC TAGCTGGATC TTCTGCAATG GCAGAGTAGA CTTGTCATGT 
CAACCTCTAG AGCCACATTT ATGGCAGAGA GATAGAGCTT CTGGGGTTAG AAGACTTATT 
TCATTCCTCA CAGACGAAAA TATCATAGTA AAAGGGAAGG TTTTGGTGGT GTTCCTCTTA 
CTTTCTCCCA TAGAAAACCA AAAAGATCCA CTCATTGAGA CTTTTTGTGC TTTCTATCAA 
GTTTTCAATG GAATGGACAA TATGTTGTGT ATCTGTGTCA ACTCAGCTAT CTACCAACAA 
TGGAGTGATC TACTACAAGT AAGACTGGAA ATCAAAGATG ATCTGGCAAA ACATAGCATT 
TCCACTTTAA ACATAGAACT AGTCAACAAT ACCATCCTCA AACTGAAATC AGTGATTCAA 
TCTTCAAGGA GATTTTTGCC CTCCTGTGGC TCCTCCTCTG TTATTCTGGA GAAAATGGAT 
GAAGATATCA TGAGTGCATT GGAAATCCTC TGTGAAAATG AGTGTAAAGA CACAGACATA 
GAGAAAGATG AATCTCAATT CCTAGAATTT AAGAAATCAA GAGAAGAACA CTTTTATCGA 
GGAGGCAGAG TATCCTGGTG GAATTTCTAT TTTTCTTCTG AAAACTATTC TTCAGCTTTT 
GTAAAAAGGG ATAGTTTTGA AGAGCTAACA ACATTAATAC AACAGTGTGC AGACTCTCCT 
AAACCAGTGT TTGTCAAAGT CATCAACCTG TACCATCACC CAGGCTGTGG AGGTACTACG 
TTGGCGATGC ATGTTCTCTG GGACTTAAAG CAGAAGTTTC GGTGTGCTGT CTTGAAAAAC 
AAAGCAACTG ATTTTGTAGA GATTGGAGAA CAAGTAAGCA AGCTAATGAG CTACAAGGCT 
ACCAGCCACG AGGACTTCAT TCCCGTTCTT CTCCTTGTGG ATGATTTCGA AGAACAAGAG 
AACGCCTATA TTCTGCAGAA TGCCATCAAT GCCTTTATAG CAGAAAAGGG TCTGAGATAT 
GAAAAAACAT TAGTCATAAT CCTGAACTGC ATGAGATCTC AGAATCCAGA TGAAAGTGCA 
AAGTTAGCAA ATAGCATTTC ACTAAAATAC CAACTTTCTC CAAAAGAACA AAGAGCCTTT 
GAGGCCAAAC TACAGGAAAT TGAAAAGGAG CATAAGAACT GTGAAAACTT TTATTCGTTC 
ATGATCTTGA AAGGCAACTT TGATACAACT TACATAAAGA ATGTAGTGAA GAATACTCTG 
AAGGACCTGG ATGCTAAAAG CAGGAGGGCC CAGCTCATTT CTTACCTGGC ATTACTCAAC 
TCTTATGTTA CAGATTCTAC CATTTCAGTA TCACAGTGTG AAATATTTTT GGGAATCACT 
TACACCAAGA AATATGGGAA ACCTGAAACT GTAGAAAAGA ACATGGGAAC CTATTCCACA 
CTTCTAATAA GAACTGAAGT TTCAGATTAT GGGAGGTACA CTGGTATACG TATCATTCAC 
CCTCTAATTG CCACCCACTG TTTAAAAGAA CTGGAAATGA GCTACAGAAT GGATAAGTGT 
CAGATTGCAC TAAATATGCT AGAAGAGAAT GTATTGTATG ATTCTGGTCT AGGAAGGGAC 
AAATTTAAAT ATGATGTGCA AACTCTATTG CTTACAAGAC AACGCAAGGA ACATGGAGCT 
GAAACAGACA CTCTCTTTTC CCCATTGATT GAAGAATTGC AGAATGAGGA AACTGAAAAG 
GTCTTGATCG CAGGAAGTGA TCGATTCCCA CAAAATGCAT TCATTTGTCA AGCTTTAGCA 
AGACACTTCT ATATTAAAGA GAAGAACTTT AGCACTGCTT TAGTCTGGGC AAATCTGGCC 
AAAAGGAAAG CACCTAAGAA TTCTTATATT TCAGATACAC TTGGTCAAGT TTACAAAAGT 
GAGCTCAAAC AGTGGTTGGG TAAAAATAAG ACATGTGGAA ATATTAGTGT GGATGATCTG 
GCCTATTTCC TAGAAGTTGC TGAAAAGGCT TCAAAAGCCT TCAAAGAGTC TCAGAATCAA 
TCTGATAGTA AGGACTATGG AACTGAGGCA TGGTCACCAC AGAATTCCCA AAGAAGATAT 
GACACTTTCA ACACAGCCGG CTTCTTCGGA GAAATAGAAG TAGGTCTTGA CACTATCCAG 
CTTCTTCAGC TCACACCCCT TTTCCATAAA GAAAATGAAA TATCAAAAGA ATCTATGGCA 
GAGTTTTTAT CTGGAAAGGG GACCATCCTT TCAGACCCAA AAGGTGAATA TTGTGTTGTT 
CTCAGCAAAT TTACATCCCT TCTACAGAAT TTACATTCAG ATTTGGAAAG ATGTTTTCAT 
TTTTTTGGTG ATTATATGGG TTTTCTGAAA CCAAGGAATA CTCCAAAAGA ATTGACAGAA 
CTCTTACTAA GTAAGAAAGT CAGCCGCTGT TTCAAGAAAT ATGTAGAACT TTTCTGCCAT 
TTAGATACCA ACTTGGTACA GGGCAAAGAA GATCTGTTAC TTCAAAAGGA GAACTGTAGG 
AAGCGCATAC AAGCTTGGCG AGCAGATACA TTTTCAGGAC TCCTTGAATA TCTTAATCCA 
AATCACAAAG AAGCTAACAA CATAGAAAAT ATAGTGGGAA ACTATACCTT CCTATTACAG 
GATATCCTAA ACAAGCAACT GTCAAAGGTG CTGACCAAGG ACATACAAAA TTTCATTTTG 
GCCAACATTA TTCTCAGTTG TCTAAAGCCC AGTTCCAAGT ATATCTTGCC ATTTAGCACA 
CTGAAAAAAA AGCTCAGAGA GGTCCTGCAG ATTGTGGGGC TAACTCATTC ATATCCTGAT 
CCTTATTTCT TGGCCTGCCT CCTATTCTGG CCAGAAAACA AAGAGCTAGA TGAAGACTCC 
ACACTAATAG AAAAGTATGT CTCATCCTTG AATCGATCCT TCAGGAGACA GTACAAGCAC 
ATGTGTAGGT CCAGGCAGCC AAGCACACTC TTCTACCTGG GGCAGAAGAA GGGTCTTAAC 
AGTCTTGTTC ATAAGGCTGA AATCGAGCGC TACTTCAGTG AAGTGCAAGA TTCAAATTCC 
TTCTGGCACA GTGGAGTAGT GTGGGAAAAA AGAGAGGTCA AAGACCTCCT ACGCCTGCTG 
GATGGCCAGG CTGAAGGCAA ACTAATCTCA CTAGAATATG GAACAGAGGC AAAAATAAAA 
ATACCAGTGA CTTCTGTGTA TTCAGCTCCA CTCAGAAGTG GAAGGAACAT AGAGAGAGTG 
TCCTTCTACC TAGGATTTTC CATTGAGGGT CCTCTGGCAT ATGGCATAAA AGTGATCTAA

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

Samd9l ( XM_006505026.2 ) cDNA ORF clone, Mus musculus(house mouse) -> XP_006505089.1 Mus musculus sterile alpha motif domain containing 9-like (Samd9l), transcript variant X1, mRNA.

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CloneID	OMu05647
Clone ID Related Accession (Same CDS sequence)	NM_010156.3 , XM_006505026.2
Accession Version	XM_006505026.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4740bp) 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	2019-08-07
Organism	Mus musculus(house mouse)
Product	sterile alpha motif domain-containing protein 9-like isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000072.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Feb 9, 2015 this sequence version replaced XM_006505026.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus musculus Annotation Release 108 Annotation Version :: 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGTGGAC AAGTAACTCA ACCAAAATTG ATCAAAGACT GGACCAAAGA ACATGTAAGA 
AAATGGGTTA CTGAAGATCT TAACATTGTT GAGAAATATG CTCAAATCTT GTTCAAAGAA 
GAGGTAACAG GGATGGTCCT GCAGGAATTA ACTGAAGAGG ATCTTAGAGA AATGGGCTTG 
CCACGGGGTC CAGCACTTCT GATAAAACGC ATGTATAACA AACTAATTAG TTCCCCTGAA 
AGTCACAATC AAGATTCCAG AGAATTAAAT GATAAAAAAC TCTCAACAAA AGAACAGCAA 
ACAAAGACCA AAAATGAGGA AGAAAACTCA GTTTCATCCA ACAGTGATCA TGGTCTCAGG 
GAGACAGGGC AGAATGAAGA ACAAGAACCA AGTCTTACGA AAGAAAACAT GTTAGGTGAT 
GTGGTGACTA AAGACATGGA AGATAATAAG CCCAAACCAG AACAGATGTC TTGCACGCCA 
TACCCTTTTG ATTCTTTTTG TGATGTCAAA CAATACATAG AACATTCTAT TCTACGTGTT 
GCTGAGACAG GGCCACTCAA TCTCATTGAC CCAATACATG AATTCAAAGC CTTTACAAAC 
ACAAAGAAAG CCACAGAAGA GGACATAAAA ATGAAATTTA GCAATGAGAC TTTCCGATTT 
GCAGCAGCTT GTATGAATTC ACGTACCAAT GGCACTATTC ATTTTGGAGT AAAAGACAAA 
CCACACGGGG AAATTGTTGG TGTGCAAGTC ACCAGTAAAG ATATCTTTGT TAACCATTTC 
AACACAATGA TCACGAAGTA TTTTGAAGAC AGTGAAATCA GTGAAGCCAG GGCTTGTATC 
CGGGAACCAC GGTTCGTGGA AGTCCTTTTG CAGAATAATA CACAATCTAA TAGATTTGTC 
ATTGAGGTAG ATGTTATTCC CAGACATTCT ATATGTCAAG AAAAGTATTT CTACATTATG 
ATGCAAAGTA GCACAGGCAA AACATGGAAA CAAAGCAAAG ATACTTCATT GTTTGTAAGA 
GAAGGAGCTA GCTCTAAGAA TATCCTGGGC AATCCCAACC AACGGGATAG AGAGTTCAAG 
AAATTTCTAG AGGATTTAAA GATGTGGACA GCGTCTAGAA AAGCGGCCGA AGAAGAACTT 
AGAATGGTAA CTAAGAAAGA GAGTGAAGGA CTAAAACTGT CTAAACTTTT GACCAGACAC 
CAAGGCTCAC TTGATGAATC TTACTATGAT TGGTACATTC TTGTAACAAA TACCTGTGCA 
CCAACTCAAT TAGAGCACTT AGAGTTCATA AAGGAAATGA AATTGTTTGC TGTGCTAGAT 
TTTGATCCTT ATTCTCACAT CAAGGGAGTG GTCAAAGCTT ACAGAGAAAG CAGAATAGCA 
AACCTTCACC TGCCCAGTCA CTATGAGGAA AAAACTACCA TAGCAGAGAA AATTTCTACT 
CTGAAACTTT ATGAGCAACC TAGCTGGATC TTCTGCAATG GCAGAGTAGA CTTGTCATGT 
CAACCTCTAG AGCCACATTT ATGGCAGAGA GATAGAGCTT CTGGGGTTAG AAGACTTATT 
TCATTCCTCA CAGACGAAAA TATCATAGTA AAAGGGAAGG TTTTGGTGGT GTTCCTCTTA 
CTTTCTCCCA TAGAAAACCA AAAAGATCCA CTCATTGAGA CTTTTTGTGC TTTCTATCAA 
GTTTTCAATG GAATGGACAA TATGTTGTGT ATCTGTGTCA ACTCAGCTAT CTACCAACAA 
TGGAGTGATC TACTACAAGT AAGACTGGAA ATCAAAGATG ATCTGGCAAA ACATAGCATT 
TCCACTTTAA ACATAGAACT AGTCAACAAT ACCATCCTCA AACTGAAATC AGTGATTCAA 
TCTTCAAGGA GATTTTTGCC CTCCTGTGGC TCCTCCTCTG TTATTCTGGA GAAAATGGAT 
GAAGATATCA TGAGTGCATT GGAAATCCTC TGTGAAAATG AGTGTAAAGA CACAGACATA 
GAGAAAGATG AATCTCAATT CCTAGAATTT AAGAAATCAA GAGAAGAACA CTTTTATCGA 
GGAGGCAGAG TATCCTGGTG GAATTTCTAT TTTTCTTCTG AAAACTATTC TTCAGCTTTT 
GTAAAAAGGG ATAGTTTTGA AGAGCTAACA ACATTAATAC AACAGTGTGC AGACTCTCCT 
AAACCAGTGT TTGTCAAAGT CATCAACCTG TACCATCACC CAGGCTGTGG AGGTACTACG 
TTGGCGATGC ATGTTCTCTG GGACTTAAAG CAGAAGTTTC GGTGTGCTGT CTTGAAAAAC 
AAAGCAACTG ATTTTGTAGA GATTGGAGAA CAAGTAAGCA AGCTAATGAG CTACAAGGCT 
ACCAGCCACG AGGACTTCAT TCCCGTTCTT CTCCTTGTGG ATGATTTCGA AGAACAAGAG 
AACGCCTATA TTCTGCAGAA TGCCATCAAT GCCTTTATAG CAGAAAAGGG TCTGAGATAT 
GAAAAAACAT TAGTCATAAT CCTGAACTGC ATGAGATCTC AGAATCCAGA TGAAAGTGCA 
AAGTTAGCAA ATAGCATTTC ACTAAAATAC CAACTTTCTC CAAAAGAACA AAGAGCCTTT 
GAGGCCAAAC TACAGGAAAT TGAAAAGGAG CATAAGAACT GTGAAAACTT TTATTCGTTC 
ATGATCTTGA AAGGCAACTT TGATACAACT TACATAAAGA ATGTAGTGAA GAATACTCTG 
AAGGACCTGG ATGCTAAAAG CAGGAGGGCC CAGCTCATTT CTTACCTGGC ATTACTCAAC 
TCTTATGTTA CAGATTCTAC CATTTCAGTA TCACAGTGTG AAATATTTTT GGGAATCACT 
TACACCAAGA AATATGGGAA ACCTGAAACT GTAGAAAAGA ACATGGGAAC CTATTCCACA 
CTTCTAATAA GAACTGAAGT TTCAGATTAT GGGAGGTACA CTGGTATACG TATCATTCAC 
CCTCTAATTG CCACCCACTG TTTAAAAGAA CTGGAAATGA GCTACAGAAT GGATAAGTGT 
CAGATTGCAC TAAATATGCT AGAAGAGAAT GTATTGTATG ATTCTGGTCT AGGAAGGGAC 
AAATTTAAAT ATGATGTGCA AACTCTATTG CTTACAAGAC AACGCAAGGA ACATGGAGCT 
GAAACAGACA CTCTCTTTTC CCCATTGATT GAAGAATTGC AGAATGAGGA AACTGAAAAG 
GTCTTGATCG CAGGAAGTGA TCGATTCCCA CAAAATGCAT TCATTTGTCA AGCTTTAGCA 
AGACACTTCT ATATTAAAGA GAAGAACTTT AGCACTGCTT TAGTCTGGGC AAATCTGGCC 
AAAAGGAAAG CACCTAAGAA TTCTTATATT TCAGATACAC TTGGTCAAGT TTACAAAAGT 
GAGCTCAAAC AGTGGTTGGG TAAAAATAAG ACATGTGGAA ATATTAGTGT GGATGATCTG 
GCCTATTTCC TAGAAGTTGC TGAAAAGGCT TCAAAAGCCT TCAAAGAGTC TCAGAATCAA 
TCTGATAGTA AGGACTATGG AACTGAGGCA TGGTCACCAC AGAATTCCCA AAGAAGATAT 
GACACTTTCA ACACAGCCGG CTTCTTCGGA GAAATAGAAG TAGGTCTTGA CACTATCCAG 
CTTCTTCAGC TCACACCCCT TTTCCATAAA GAAAATGAAA TATCAAAAGA ATCTATGGCA 
GAGTTTTTAT CTGGAAAGGG GACCATCCTT TCAGACCCAA AAGGTGAATA TTGTGTTGTT 
CTCAGCAAAT TTACATCCCT TCTACAGAAT TTACATTCAG ATTTGGAAAG ATGTTTTCAT 
TTTTTTGGTG ATTATATGGG TTTTCTGAAA CCAAGGAATA CTCCAAAAGA ATTGACAGAA 
CTCTTACTAA GTAAGAAAGT CAGCCGCTGT TTCAAGAAAT ATGTAGAACT TTTCTGCCAT 
TTAGATACCA ACTTGGTACA GGGCAAAGAA GATCTGTTAC TTCAAAAGGA GAACTGTAGG 
AAGCGCATAC AAGCTTGGCG AGCAGATACA TTTTCAGGAC TCCTTGAATA TCTTAATCCA 
AATCACAAAG AAGCTAACAA CATAGAAAAT ATAGTGGGAA ACTATACCTT CCTATTACAG 
GATATCCTAA ACAAGCAACT GTCAAAGGTG CTGACCAAGG ACATACAAAA TTTCATTTTG 
GCCAACATTA TTCTCAGTTG TCTAAAGCCC AGTTCCAAGT ATATCTTGCC ATTTAGCACA 
CTGAAAAAAA AGCTCAGAGA GGTCCTGCAG ATTGTGGGGC TAACTCATTC ATATCCTGAT 
CCTTATTTCT TGGCCTGCCT CCTATTCTGG CCAGAAAACA AAGAGCTAGA TGAAGACTCC 
ACACTAATAG AAAAGTATGT CTCATCCTTG AATCGATCCT TCAGGAGACA GTACAAGCAC 
ATGTGTAGGT CCAGGCAGCC AAGCACACTC TTCTACCTGG GGCAGAAGAA GGGTCTTAAC 
AGTCTTGTTC ATAAGGCTGA AATCGAGCGC TACTTCAGTG AAGTGCAAGA TTCAAATTCC 
TTCTGGCACA GTGGAGTAGT GTGGGAAAAA AGAGAGGTCA AAGACCTCCT ACGCCTGCTG 
GATGGCCAGG CTGAAGGCAA ACTAATCTCA CTAGAATATG GAACAGAGGC AAAAATAAAA 
ATACCAGTGA CTTCTGTGTA TTCAGCTCCA CTCAGAAGTG GAAGGAACAT AGAGAGAGTG 
TCCTTCTACC TAGGATTTTC CATTGAGGGT CCTCTGGCAT ATGGCATAAA AGTGATCTAA

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

RefSeq	XP_006505089.1
CDS	174..4913
Translation	MSGQVTQPKLIKDWTKEHVRKWVTEDLNIVEKYAQILFKEEVTGMVLQELTEEDLREMGLPRGPALLIKRMYNKLISSPESHNQDSRELNDKKLSTKEQQTKTKNEEENSVSSNSDHGLRETGQNEEQEPSLTKENMLGDVVTKDMEDNKPKPEQMSCTPYPFDSFCDVKQYIEHSILRVAETGPLNLIDPIHEFKAFTNTKKATEEDIKMKFSNETFRFAAACMNSRTNGTIHFGVKDKPHGEIVGVQVTSKDIFVNHFNTMITKYFEDSEISEARACIREPRFVEVLLQNNTQSNRFVIEVDVIPRHSICQEKYFYIMMQSSTGKTWKQSKDTSLFVREGASSKNILGNPNQRDREFKKFLEDLKMWTASRKAAEEELRMVTKKESEGLKLSKLLTRHQGSLDESYYDWYILVTNTCAPTQLEHLEFIKEMKLFAVLDFDPYSHIKGVVKAYRESRIANLHLPSHYEEKTTIAEKISTLKLYEQPSWIFCNGRVDLSCQPLEPHLWQRDRASGVRRLISFLTDENIIVKGKVLVVFLLLSPIENQKDPLIETFCAFYQVFNGMDNMLCICVNSAIYQQWSDLLQVRLEIKDDLAKHSISTLNIELVNNTILKLKSVIQSSRRFLPSCGSSSVILEKMDEDIMSALEILCENECKDTDIEKDESQFLEFKKSREEHFYRGGRVSWWNFYFSSENYSSAFVKRDSFEELTTLIQQCADSPKPVFVKVINLYHHPGCGGTTLAMHVLWDLKQKFRCAVLKNKATDFVEIGEQVSKLMSYKATSHEDFIPVLLLVDDFEEQENAYILQNAINAFIAEKGLRYEKTLVIILNCMRSQNPDESAKLANSISLKYQLSPKEQRAFEAKLQEIEKEHKNCENFYSFMILKGNFDTTYIKNVVKNTLKDLDAKSRRAQLISYLALLNSYVTDSTISVSQCEIFLGITYTKKYGKPETVEKNMGTYSTLLIRTEVSDYGRYTGIRIIHPLIATHCLKELEMSYRMDKCQIALNMLEENVLYDSGLGRDKFKYDVQTLLLTRQRKEHGAETDTLFSPLIEELQNEETEKVLIAGSDRFPQNAFICQALARHFYIKEKNFSTALVWANLAKRKAPKNSYISDTLGQVYKSELKQWLGKNKTCGNISVDDLAYFLEVAEKASKAFKESQNQSDSKDYGTEAWSPQNSQRRYDTFNTAGFFGEIEVGLDTIQLLQLTPLFHKENEISKESMAEFLSGKGTILSDPKGEYCVVLSKFTSLLQNLHSDLERCFHFFGDYMGFLKPRNTPKELTELLLSKKVSRCFKKYVELFCHLDTNLVQGKEDLLLQKENCRKRIQAWRADTFSGLLEYLNPNHKEANNIENIVGNYTFLLQDILNKQLSKVLTKDIQNFILANIILSCLKPSSKYILPFSTLKKKLREVLQIVGLTHSYPDPYFLACLLFWPENKELDEDSTLIEKYVSSLNRSFRRQYKHMCRSRQPSTLFYLGQKKGLNSLVHKAEIERYFSEVQDSNSFWHSGVVWEKREVKDLLRLLDGQAEGKLISLEYGTEAKIKIPVTSVYSAPLRSGRNIERVSFYLGFSIEGPLAYGIKVI

Target ORF information:

RefSeq Version	XM_006505026.2
Organism	Mus musculus(house mouse)
Definition	Mus musculus sterile alpha motif domain containing 9-like (Samd9l), transcript variant X1, mRNA.

Target ORF information:

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

XM_006505026.2

ORF Insert Sequence:

ATGAGTGGAC AAGTAACTCA ACCAAAATTG ATCAAAGACT GGACCAAAGA ACATGTAAGA 
AAATGGGTTA CTGAAGATCT TAACATTGTT GAGAAATATG CTCAAATCTT GTTCAAAGAA 
GAGGTAACAG GGATGGTCCT GCAGGAATTA ACTGAAGAGG ATCTTAGAGA AATGGGCTTG 
CCACGGGGTC CAGCACTTCT GATAAAACGC ATGTATAACA AACTAATTAG TTCCCCTGAA 
AGTCACAATC AAGATTCCAG AGAATTAAAT GATAAAAAAC TCTCAACAAA AGAACAGCAA 
ACAAAGACCA AAAATGAGGA AGAAAACTCA GTTTCATCCA ACAGTGATCA TGGTCTCAGG 
GAGACAGGGC AGAATGAAGA ACAAGAACCA AGTCTTACGA AAGAAAACAT GTTAGGTGAT 
GTGGTGACTA AAGACATGGA AGATAATAAG CCCAAACCAG AACAGATGTC TTGCACGCCA 
TACCCTTTTG ATTCTTTTTG TGATGTCAAA CAATACATAG AACATTCTAT TCTACGTGTT 
GCTGAGACAG GGCCACTCAA TCTCATTGAC CCAATACATG AATTCAAAGC CTTTACAAAC 
ACAAAGAAAG CCACAGAAGA GGACATAAAA ATGAAATTTA GCAATGAGAC TTTCCGATTT 
GCAGCAGCTT GTATGAATTC ACGTACCAAT GGCACTATTC ATTTTGGAGT AAAAGACAAA 
CCACACGGGG AAATTGTTGG TGTGCAAGTC ACCAGTAAAG ATATCTTTGT TAACCATTTC 
AACACAATGA TCACGAAGTA TTTTGAAGAC AGTGAAATCA GTGAAGCCAG GGCTTGTATC 
CGGGAACCAC GGTTCGTGGA AGTCCTTTTG CAGAATAATA CACAATCTAA TAGATTTGTC 
ATTGAGGTAG ATGTTATTCC CAGACATTCT ATATGTCAAG AAAAGTATTT CTACATTATG 
ATGCAAAGTA GCACAGGCAA AACATGGAAA CAAAGCAAAG ATACTTCATT GTTTGTAAGA 
GAAGGAGCTA GCTCTAAGAA TATCCTGGGC AATCCCAACC AACGGGATAG AGAGTTCAAG 
AAATTTCTAG AGGATTTAAA GATGTGGACA GCGTCTAGAA AAGCGGCCGA AGAAGAACTT 
AGAATGGTAA CTAAGAAAGA GAGTGAAGGA CTAAAACTGT CTAAACTTTT GACCAGACAC 
CAAGGCTCAC TTGATGAATC TTACTATGAT TGGTACATTC TTGTAACAAA TACCTGTGCA 
CCAACTCAAT TAGAGCACTT AGAGTTCATA AAGGAAATGA AATTGTTTGC TGTGCTAGAT 
TTTGATCCTT ATTCTCACAT CAAGGGAGTG GTCAAAGCTT ACAGAGAAAG CAGAATAGCA 
AACCTTCACC TGCCCAGTCA CTATGAGGAA AAAACTACCA TAGCAGAGAA AATTTCTACT 
CTGAAACTTT ATGAGCAACC TAGCTGGATC TTCTGCAATG GCAGAGTAGA CTTGTCATGT 
CAACCTCTAG AGCCACATTT ATGGCAGAGA GATAGAGCTT CTGGGGTTAG AAGACTTATT 
TCATTCCTCA CAGACGAAAA TATCATAGTA AAAGGGAAGG TTTTGGTGGT GTTCCTCTTA 
CTTTCTCCCA TAGAAAACCA AAAAGATCCA CTCATTGAGA CTTTTTGTGC TTTCTATCAA 
GTTTTCAATG GAATGGACAA TATGTTGTGT ATCTGTGTCA ACTCAGCTAT CTACCAACAA 
TGGAGTGATC TACTACAAGT AAGACTGGAA ATCAAAGATG ATCTGGCAAA ACATAGCATT 
TCCACTTTAA ACATAGAACT AGTCAACAAT ACCATCCTCA AACTGAAATC AGTGATTCAA 
TCTTCAAGGA GATTTTTGCC CTCCTGTGGC TCCTCCTCTG TTATTCTGGA GAAAATGGAT 
GAAGATATCA TGAGTGCATT GGAAATCCTC TGTGAAAATG AGTGTAAAGA CACAGACATA 
GAGAAAGATG AATCTCAATT CCTAGAATTT AAGAAATCAA GAGAAGAACA CTTTTATCGA 
GGAGGCAGAG TATCCTGGTG GAATTTCTAT TTTTCTTCTG AAAACTATTC TTCAGCTTTT 
GTAAAAAGGG ATAGTTTTGA AGAGCTAACA ACATTAATAC AACAGTGTGC AGACTCTCCT 
AAACCAGTGT TTGTCAAAGT CATCAACCTG TACCATCACC CAGGCTGTGG AGGTACTACG 
TTGGCGATGC ATGTTCTCTG GGACTTAAAG CAGAAGTTTC GGTGTGCTGT CTTGAAAAAC 
AAAGCAACTG ATTTTGTAGA GATTGGAGAA CAAGTAAGCA AGCTAATGAG CTACAAGGCT 
ACCAGCCACG AGGACTTCAT TCCCGTTCTT CTCCTTGTGG ATGATTTCGA AGAACAAGAG 
AACGCCTATA TTCTGCAGAA TGCCATCAAT GCCTTTATAG CAGAAAAGGG TCTGAGATAT 
GAAAAAACAT TAGTCATAAT CCTGAACTGC ATGAGATCTC AGAATCCAGA TGAAAGTGCA 
AAGTTAGCAA ATAGCATTTC ACTAAAATAC CAACTTTCTC CAAAAGAACA AAGAGCCTTT 
GAGGCCAAAC TACAGGAAAT TGAAAAGGAG CATAAGAACT GTGAAAACTT TTATTCGTTC 
ATGATCTTGA AAGGCAACTT TGATACAACT TACATAAAGA ATGTAGTGAA GAATACTCTG 
AAGGACCTGG ATGCTAAAAG CAGGAGGGCC CAGCTCATTT CTTACCTGGC ATTACTCAAC 
TCTTATGTTA CAGATTCTAC CATTTCAGTA TCACAGTGTG AAATATTTTT GGGAATCACT 
TACACCAAGA AATATGGGAA ACCTGAAACT GTAGAAAAGA ACATGGGAAC CTATTCCACA 
CTTCTAATAA GAACTGAAGT TTCAGATTAT GGGAGGTACA CTGGTATACG TATCATTCAC 
CCTCTAATTG CCACCCACTG TTTAAAAGAA CTGGAAATGA GCTACAGAAT GGATAAGTGT 
CAGATTGCAC TAAATATGCT AGAAGAGAAT GTATTGTATG ATTCTGGTCT AGGAAGGGAC 
AAATTTAAAT ATGATGTGCA AACTCTATTG CTTACAAGAC AACGCAAGGA ACATGGAGCT 
GAAACAGACA CTCTCTTTTC CCCATTGATT GAAGAATTGC AGAATGAGGA AACTGAAAAG 
GTCTTGATCG CAGGAAGTGA TCGATTCCCA CAAAATGCAT TCATTTGTCA AGCTTTAGCA 
AGACACTTCT ATATTAAAGA GAAGAACTTT AGCACTGCTT TAGTCTGGGC AAATCTGGCC 
AAAAGGAAAG CACCTAAGAA TTCTTATATT TCAGATACAC TTGGTCAAGT TTACAAAAGT 
GAGCTCAAAC AGTGGTTGGG TAAAAATAAG ACATGTGGAA ATATTAGTGT GGATGATCTG 
GCCTATTTCC TAGAAGTTGC TGAAAAGGCT TCAAAAGCCT TCAAAGAGTC TCAGAATCAA 
TCTGATAGTA AGGACTATGG AACTGAGGCA TGGTCACCAC AGAATTCCCA AAGAAGATAT 
GACACTTTCA ACACAGCCGG CTTCTTCGGA GAAATAGAAG TAGGTCTTGA CACTATCCAG 
CTTCTTCAGC TCACACCCCT TTTCCATAAA GAAAATGAAA TATCAAAAGA ATCTATGGCA 
GAGTTTTTAT CTGGAAAGGG GACCATCCTT TCAGACCCAA AAGGTGAATA TTGTGTTGTT 
CTCAGCAAAT TTACATCCCT TCTACAGAAT TTACATTCAG ATTTGGAAAG ATGTTTTCAT 
TTTTTTGGTG ATTATATGGG TTTTCTGAAA CCAAGGAATA CTCCAAAAGA ATTGACAGAA 
CTCTTACTAA GTAAGAAAGT CAGCCGCTGT TTCAAGAAAT ATGTAGAACT TTTCTGCCAT 
TTAGATACCA ACTTGGTACA GGGCAAAGAA GATCTGTTAC TTCAAAAGGA GAACTGTAGG 
AAGCGCATAC AAGCTTGGCG AGCAGATACA TTTTCAGGAC TCCTTGAATA TCTTAATCCA 
AATCACAAAG AAGCTAACAA CATAGAAAAT ATAGTGGGAA ACTATACCTT CCTATTACAG 
GATATCCTAA ACAAGCAACT GTCAAAGGTG CTGACCAAGG ACATACAAAA TTTCATTTTG 
GCCAACATTA TTCTCAGTTG TCTAAAGCCC AGTTCCAAGT ATATCTTGCC ATTTAGCACA 
CTGAAAAAAA AGCTCAGAGA GGTCCTGCAG ATTGTGGGGC TAACTCATTC ATATCCTGAT 
CCTTATTTCT TGGCCTGCCT CCTATTCTGG CCAGAAAACA AAGAGCTAGA TGAAGACTCC 
ACACTAATAG AAAAGTATGT CTCATCCTTG AATCGATCCT TCAGGAGACA GTACAAGCAC 
ATGTGTAGGT CCAGGCAGCC AAGCACACTC TTCTACCTGG GGCAGAAGAA GGGTCTTAAC 
AGTCTTGTTC ATAAGGCTGA AATCGAGCGC TACTTCAGTG AAGTGCAAGA TTCAAATTCC 
TTCTGGCACA GTGGAGTAGT GTGGGAAAAA AGAGAGGTCA AAGACCTCCT ACGCCTGCTG 
GATGGCCAGG CTGAAGGCAA ACTAATCTCA CTAGAATATG GAACAGAGGC AAAAATAAAA 
ATACCAGTGA CTTCTGTGTA TTCAGCTCCA CTCAGAAGTG GAAGGAACAT AGAGAGAGTG 
TCCTTCTACC TAGGATTTTC CATTGAGGGT CCTCTGGCAT ATGGCATAAA AGTGATCTAA

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

PubMed

High-throughput discovery of novel developmental phenotypes.
Nature537(7621)508-514(2016 09)
Dickinson ME,Flenniken AM,Ji X,Teboul L,Wong MD,White JK,Meehan TF,Weninger WJ,Westerberg H,Adissu H,Baker CN,Bower L,Brown JM,Caddle LB,Chiani F,Clary D,Cleak J,Daly MJ,Denegre JM,Doe B,Dolan ME,Edie SM,Fuchs H,Gailus-Durner V,Galli A,Gambadoro A,Gallegos J,Guo S,Horner NR,Hsu CW,Johnson SJ,Kalaga S,Keith LC,Lanoue L,Lawson TN,Lek M,Mark M,Marschall S,Mason J,McElwee ML,Newbigging S,Nutter LM,Peterson KA,Ramirez-Solis R,Rowland DJ,Ryder E,Samocha KE,Seavitt JR,Selloum M,Szoke-Kovacs Z,Tamura M,Trainor AG,Tudose I,Wakana S,Warren J,Wendling O,West DB,Wong L,Yoshiki A,,,,,,,,,MacArthur DG,Tocchini-Valentini GP,Gao X,Flicek P,Bradley A,Skarnes WC,Justice MJ,Parkinson HE,Moore M,Wells S,Braun RE,Svenson KL,de Angelis MH,Herault Y,Mohun T,Mallon AM,Henkelman RM,Brown SD,Adams DJ,Lloyd KC,McKerlie C,Beaudet AL,Bu?an M,Murray SA

The International Mouse Phenotyping Consortium Web Portal, a unified point of access for knockout mice and related phenotyping data.
Nucleic acids research42(Database issue)D802-9(2014 Jan)
Koscielny G,Yaikhom G,Iyer V,Meehan TF,Morgan H,Atienza-Herrero J,Blake A,Chen CK,Easty R,Di Fenza A,Fiegel T,Grifiths M,Horne A,Karp NA,Kurbatova N,Mason JC,Matthews P,Oakley DJ,Qazi A,Regnart J,Retha A,Santos LA,Sneddon DJ,Warren J,Westerberg H,Wilson RJ,Melvin DG,Smedley D,Brown SD,Flicek P,Skarnes WC,Mallon AM,Parkinson H

Haploinsufficiency of SAMD9L, an endosome fusion facilitator, causes myeloid malignancies in mice mimicking human diseases with monosomy 7.
Cancer cell24(3)305-17(2013 Sep)
Nagamachi A,Matsui H,Asou H,Ozaki Y,Aki D,Kanai A,Takubo K,Suda T,Nakamura T,Wolff L,Honda H,Inaba T

Mouse Samd9l is not a functional paralogue of the human SAMD9, the gene mutated in normophosphataemic familial tumoral calcinosis.
Experimental dermatology21(7)554-6(2012 Jul)
Li Q,Guo H,Matsui H,Honda H,Inaba T,Sundberg JP,Sprecher E,Uitto J

The Samd9L gene: transcriptional regulation and tissue-specific expression in mouse development.
The Journal of investigative dermatology131(7)1428-34(2011 Jul)
Jiang Q,Quaynor B,Sun A,Li Q,Matsui H,Honda H,Inaba T,Sprecher E,Uitto J

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Samd9l cDNA ORF clone, Mus musculus(house mouse)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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