SAMD9L gene cDNA ORF clone, Homo sapiens(human)

mRNA	Protein	Name
XM_017011823.1	XP_016867312.1	sterile alpha motif domain-containing protein 9-like isoform X1
XM_006715890.1	XP_006715953.1	sterile alpha motif domain-containing protein 9-like isoform X1
NM_001350083.1	NP_001337012.1	sterile alpha motif domain-containing protein 9-like
NM_001303497.2	NP_001290426.1	sterile alpha motif domain-containing protein 9-like
NM_001303500.2	NP_001290429.1	sterile alpha motif domain-containing protein 9-like
NM_001350084.1	NP_001337013.1	sterile alpha motif domain-containing protein 9-like
NM_001350085.1	NP_001337014.1	sterile alpha motif domain-containing protein 9-like
NM_152703.5	NP_689916.2	sterile alpha motif domain-containing protein 9-like
NM_001303498.3	NP_001290427.1	sterile alpha motif domain-containing protein 9-like
XM_005250193.3	XP_005250250.1	sterile alpha motif domain-containing protein 9-like isoform X1
NM_001350082.1	NP_001337011.1	sterile alpha motif domain-containing protein 9-like
NM_001303497.3	NP_001290426.1	sterile alpha motif domain-containing protein 9-like
XM_011515903.2	XP_011514205.1	sterile alpha motif domain-containing protein 9-like isoform X1
NM_001303496.2	NP_001290425.1	sterile alpha motif domain-containing protein 9-like
NM_001350084.2	NP_001337013.1	sterile alpha motif domain-containing protein 9-like
NM_001350082.2	NP_001337011.1	sterile alpha motif domain-containing protein 9-like
NM_001303498.2	NP_001290427.1	sterile alpha motif domain-containing protein 9-like
NM_152703.4	NP_689916.2	sterile alpha motif domain-containing protein 9-like
XM_017011822.1	XP_016867311.1	sterile alpha motif domain-containing protein 9-like isoform X1
NM_001350085.2	NP_001337014.1	sterile alpha motif domain-containing protein 9-like
NM_001303500.3	NP_001290429.1	sterile alpha motif domain-containing protein 9-like
NM_001303496.3	NP_001290425.1	sterile alpha motif domain-containing protein 9-like
NM_001350083.2	NP_001337012.1	sterile alpha motif domain-containing protein 9-like

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OHu13114	NM_001350083.2 Latest version!	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_001350082.2 Latest version!	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_001350085.2 Latest version!	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 9, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_001303500.3 Latest version!	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_152703.5 Latest version!	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_001350084.2 Latest version!	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_001303496.3 Latest version!	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_001303497.3 Latest version!	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_001303498.3 Latest version!	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	XM_005250193.3 Latest version!	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	XM_017011822.1 Latest version!	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	XM_017011823.1 Latest version!	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	XM_011515903.2 Latest version!	Homo sapiens 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
OHu13114	XM_006715890.1 Latest version!	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
View Old Accession Versions >>
OHu13114	NM_001303497.2	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_001350084.1	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_001350082.1	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_001303498.2	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_152703.4	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_001350085.1	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 9, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_001303500.2	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_001303496.2	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
OHu13114	NM_001350083.1	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$811.30 $1159.00
Hide Old Accession Versions >>

SAMD9L ( NM_001350083.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001337012.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 7, mRNA.

Price & Availability↑

CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001350083.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2019-03-11
Organism	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1. Transcript Variant: This variant (7) lacks an alternate exon in the 5' UTR, compared to variant 1. Variants 1-9 encode the same protein. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1660803.179365.1, SRR1803611.214169.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001337012.1
CDS	985..5739
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001350083.1
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 7, mRNA.

Target ORF information:

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

NM_001350083.1

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_001303497.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001290426.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 3, mRNA.

Price & Availability↑

CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001303497.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2019-03-11
Organism	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1, AY195584.1, BC127117.1 and AB095926.1. On Apr 7, 2017 this sequence version replaced NM_001303497.1. Transcript Variant: This variant (3) contains an alternate splice structure in the 5' UTR compared to variant 1. Variants 1-9 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: SRR5189667.403961.1, SRR1163658.418565.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001290426.1
CDS	873..5627
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001303497.2
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 3, mRNA.

Target ORF information:

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

NM_001303497.2

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_001303500.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001290429.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 5, mRNA.

Price & Availability↑

CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001303500.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2019-03-11
Organism	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1, AY195582.1, BC127117.1 and AB095926.1. On Apr 7, 2017 this sequence version replaced NM_001303500.1. Transcript Variant: This variant (5) lacks an alternate exon and uses an alternate splice site in the 5' UTR, compared to variant 1. Variants 1-9 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: SRR1163658.355585.1, SRR1163657.287193.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968540 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001290429.1
CDS	477..5231
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001303500.2
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 5, mRNA.

Target ORF information:

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

NM_001303500.2

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_001350084.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001337013.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 8, mRNA.

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CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001350084.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2019-03-11
Organism	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1. Transcript Variant: This variant (8) contains an alternate splice structure in the 5' UTR compared to variant 1. Variants 1-9 encode the same protein. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1163657.19478.1, SRR1163657.433663.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001337013.1
CDS	668..5422
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001350084.1
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 8, mRNA.

Target ORF information:

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

NM_001350084.1

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_001350085.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001337014.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 9, mRNA.

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CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001350085.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2019-03-11
Organism	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1. Transcript Variant: This variant (9) uses an alternate splice site in the 5' UTR, compared to variant 1. Variants 1-9 encode the same protein. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1163657.77495.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968189 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001337014.1
CDS	741..5495
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001350085.1
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 9, mRNA.

Target ORF information:

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

NM_001350085.1

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_152703.5 ) cDNA ORF clone, Homo sapiens(human) -> NP_689916.2 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 1, mRNA.

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CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_152703.5 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2019-08-21
Organism	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1, AY195586.1, BC127117.1 and AB095926.1. This sequence is a reference standard in the RefSeqGene project. On Nov 23, 2018 this sequence version replaced NM_152703.4. Transcript Variant: This variant (1) represents the longest transcript. Variants 1-9 encode the same protein. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AB095926.1, SRR1163657.340727.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000318238.9/ ENSP00000326247.4 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_689916.2
CDS	1235..5989
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_152703.5
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 1, mRNA.

Target ORF information:

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

NM_152703.5

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_001303498.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_001290427.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 4, mRNA.

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CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001303498.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1, DQ068177.1, BC127117.1 and AB095926.1. On May 31, 2019 this sequence version replaced NM_001303498.2. Transcript Variant: This variant (4) lacks an alternate exon and contains an alternate splice structure in the 5' UTR, compared to variant 1. Variants 1-9 encode the same protein. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1163657.30881.1, SRR1163657.488757.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001290427.1
CDS	595..5349
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001303498.3
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 4, mRNA.

Target ORF information:

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

NM_001303498.3

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_001350082.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001337011.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 6, mRNA.

Price & Availability↑

CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001350082.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2019-03-11
Organism	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1. Transcript Variant: This variant (6) contains an alternate splice structure in the 5' UTR compared to variant 1. Variants 1-9 encode the same protein. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1163658.21792.1, SRR1163658.448477.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001337011.1
CDS	921..5675
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001350082.1
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 6, mRNA.

Target ORF information:

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

NM_001350082.1

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_001303497.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_001290426.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 3, mRNA.

Price & Availability↑

CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001303497.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1, AY195584.1, BC127117.1 and AB095926.1. On May 31, 2019 this sequence version replaced NM_001303497.2. Transcript Variant: This variant (3) contains an alternate splice structure in the 5' UTR compared to variant 1. Variants 1-9 encode the same protein. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1163657.395387.1, SRR1163657.36900.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001290426.1
CDS	859..5613
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001303497.3
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 3, mRNA.

Target ORF information:

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

NM_001303497.3

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_001303496.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001290425.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 2, mRNA.

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CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001303496.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2019-03-11
Organism	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1, AY195585.1, BC127117.1 and AB095926.1. On Apr 7, 2017 this sequence version replaced NM_001303496.1. Transcript Variant: This variant (2) uses an alternate splice site in the 5' UTR compared to variant 1. Variants 1-9 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.275598.1, SRR1163655.358060.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001290425.1
CDS	1044..5798
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001303496.2
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 2, mRNA.

Target ORF information:

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

NM_001303496.2

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_001350084.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001337013.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 8, mRNA.

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CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001350084.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1. On May 31, 2019 this sequence version replaced NM_001350084.1. Transcript Variant: This variant (8) contains an alternate splice structure in the 5' UTR compared to variant 1. Variants 1-9 encode the same protein. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1163657.433663.1, SRR1163657.19478.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001337013.1
CDS	654..5408
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001350084.2
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 8, mRNA.

Target ORF information:

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

NM_001350084.2

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_001350082.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001337011.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 6, mRNA.

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CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001350082.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1. On May 31, 2019 this sequence version replaced NM_001350082.1. Transcript Variant: This variant (6) contains an alternate splice structure in the 5' UTR compared to variant 1. Variants 1-9 encode the same protein. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1163657.150043.1, SRR1163658.21792.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001337011.1
CDS	907..5661
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001350082.2
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 6, mRNA.

Target ORF information:

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

NM_001350082.2

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_001303498.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001290427.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 4, mRNA.

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CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001303498.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2019-03-11
Organism	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1, DQ068177.1, BC127117.1 and AB095926.1. On Apr 7, 2017 this sequence version replaced NM_001303498.1. Transcript Variant: This variant (4) lacks an alternate exon and contains an alternate splice structure in the 5' UTR, compared to variant 1. Variants 1-9 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: SRR1163657.488757.1, SRR1163657.180010.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001290427.1
CDS	609..5363
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001303498.2
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 4, mRNA.

Target ORF information:

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

NM_001303498.2

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_152703.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_689916.2 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 1, mRNA.

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CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_152703.4	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2017-11-29
Organism	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1, AY195586.1, BC127117.1 and AB095926.1. This sequence is a reference standard in the RefSeqGene project. On Apr 7, 2017 this sequence version replaced NM_152703.3. Transcript Variant: This variant (1) represents the longest transcript. Variants 1-9 encode the same protein. COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_689916.2
CDS	1249..6003
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_152703.4
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 1, mRNA.

Target ORF information:

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

NM_152703.4

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_001350085.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001337014.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 9, mRNA.

Price & Availability↑

CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001350085.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1. On May 31, 2019 this sequence version replaced NM_001350085.1. Transcript Variant: This variant (9) uses an alternate splice site in the 5' UTR, compared to variant 1. Variants 1-9 encode the same protein. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1163657.77495.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968189 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001337014.1
CDS	727..5481
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001350085.2
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 9, mRNA.

Target ORF information:

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

NM_001350085.2

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_001303500.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_001290429.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 5, mRNA.

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CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001303500.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2019-08-06
Organism	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1, AY195582.1, BC127117.1 and AB095926.1. On May 31, 2019 this sequence version replaced NM_001303500.2. Transcript Variant: This variant (5) lacks an alternate exon and uses an alternate splice site in the 5' UTR, compared to variant 1. Variants 1-9 encode the same protein. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1163657.287193.1, AY195582.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968540 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001290429.1
CDS	463..5217
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001303500.3
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 5, mRNA.

Target ORF information:

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

NM_001303500.3

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_001303496.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_001290425.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 2, mRNA.

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CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001303496.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1, AY195585.1, BC127117.1 and AB095926.1. On May 31, 2019 this sequence version replaced NM_001303496.2. Transcript Variant: This variant (2) uses an alternate splice site in the 5' UTR compared to variant 1. Variants 1-9 encode the same protein. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.275598.1, AY195585.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001290425.1
CDS	1030..5784
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001303496.3
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 2, mRNA.

Target ORF information:

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

NM_001303496.3

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( NM_001350083.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001337012.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 7, mRNA.

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CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	NM_001350083.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2019-08-08
Organism	Homo sapiens(human)
Product	sterile alpha motif domain-containing protein 9-like
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC000119.1. On Jun 1, 2019 this sequence version replaced NM_001350083.1. Transcript Variant: This variant (7) lacks an alternate exon in the 5' UTR, compared to variant 1. Variants 1-9 encode the same protein. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660803.179365.1, SRR1803611.214169.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	NP_001337012.1
CDS	971..5725
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	NM_001350083.2
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant 7, mRNA.

Target ORF information:

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

NM_001350083.2

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( XM_017011823.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867312.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant X4, mRNA.

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CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	XM_017011823.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2016-06-05
Organism	Homo sapiens(human)
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_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	XP_016867312.1
CDS	743..5497
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	XM_017011823.1
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant X4, mRNA.

Target ORF information:

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

XM_017011823.1

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( XM_006715890.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_006715953.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	XM_006715890.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2016-06-05
Organism	Homo sapiens(human)
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_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	XP_006715953.1
CDS	39..4793
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	XM_006715890.1
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant X5, mRNA.

Target ORF information:

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

XM_006715890.1

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( XM_005250193.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005250250.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	XM_005250193.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2016-06-05
Organism	Homo sapiens(human)
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_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005250193.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	XP_005250250.1
CDS	670..5424
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	XM_005250193.3
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant X3, mRNA.

Target ORF information:

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

XM_005250193.3

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( XM_011515903.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011514205.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant X1, mRNA.

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CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	XM_011515903.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2016-06-05
Organism	Homo sapiens(human)
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_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011515903.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	XP_011514205.1
CDS	923..5677
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	XM_011515903.2
Organism	Homo sapiens(human)
Definition	Homo sapiens 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_011515903.2

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

SAMD9L ( XM_017011822.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016867311.1 Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant X2, mRNA.

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CloneID	OHu13114
Clone ID Related Accession (Same CDS sequence)	XM_017011823.1 , XM_006715890.1 , NM_001350083.1 , NM_001303497.2 , NM_001303500.2 , NM_001350084.1 , NM_001350085.1 , NM_152703.5 , NM_001303498.3 , XM_005250193.3 , NM_001350082.1 , NM_001303497.3 , XM_011515903.2 , NM_001303496.2 , NM_001350084.2 , NM_001350082.2 , NM_001303498.2 , NM_152703.4 , XM_017011822.1 , NM_001350085.2 , NM_001303500.3 , NM_001303496.3 , NM_001350083.2
Accession Version	XM_017011822.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4755bp) 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	2016-06-05
Organism	Homo sapiens(human)
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_000007.14) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

RefSeq	XP_016867311.1
CDS	987..5741
Translation	MSKQVSLPEMIKDWTKEHVKKWVNEDLKINEQYGQILLSEEVTGLVLQELTEKDLVEMGLPWGPALLIKRSYNKLNSKSPESDNHDPGQLDNSKPSKTEHQKNPKHTKKEEENSMSSNIDYDPREIRDIKQEESILMKENVLDEVANAKHKKKGKLKPEQLTCMPYPFDQFHDSHRYIEHYTLQPETGALNLIDPIHEFKALTNTETATEVDIKMKFSNEVFRFASACMNSRTNGTIHFGVKDKPHGEIVGVKITSKAAFIDHFNVMIKKYFEESEINEAKKCIREPRFVEVLLQNNTPSDRFVIEVDTIPKHSICNDKYFYIQMQICKDKIWKQNQNLSLFVREGASSRDILANSKQRDVDFKAFLQNLKSLVASRKEAEEEYGMKAMKKESEGLKLVKLLIGNRDSLDNSYYDWYILVTNKCHPNQIKHLDFLKEIKWFAVLEFDPESMINGVVKAYKESRVANLHFPNQYEDKTTNMWEKISTLNLYQQPSWIFCNGRSDLKSETYKPLEPHLWQRERASEVRKLILFLTDENIMTRGKFLVVFLLLSSVESPGDPLIETFWAFYQALKGMENMLCISVNSHIYQRWKDLLQTRMKMEDELTNHSISTLNIELVNSTILKLKSVTRSSRRFLPARGSSSVILEKKKEDVLTALEILCENECTETDIEKDKSKFLEFKKSKEEHFYRGGKVSWWNFYFSSENYSSDFVKRDSYEKLKDLIHCWAESPKPIFAKIINLYHHPGCGGTTLAMHVLWDLKKNFRCAVLKNKTTDFAEIAEQVINLVTYRAKSHQDYIPVLLLVDDFEEQENVYFLQNAIHSVLAEKDLRYEKTLVIILNCMRSRNPDESAKLADSIALNYQLSSKEQRAFGAKLKEIEKQHKNCENFYSFMIMKSNFDETYIENVVRNILKGQDVDSKEAQLISFLALLSSYVTDSTISVSQCEIFLGIIYTSTPWEPESLEDKMGTYSTLLIKTEVAEYGRYTGVRIIHPLIALYCLKELERSYHLDKCQIALNILEENLFYDSGIGRDKFQHDVQTLLLTRQRKVYGDETDTLFSPLMEALQNKDIEKVLSAGSRRFPQNAFICQALARHFYIKEKDFNTALDWARQAKMKAPKNSYISDTLGQVYKSEIKWWLDGNKNCRSITVNDLTHLLEAAEKASRAFKESQRQTDSKNYETENWSPQKSQRRYDMYNTACFLGEIEVGLYTIQILQLTPFFHKENELSKKHMVQFLSGKWTIPPDPRNECYLALSKFTSHLKNLQSDLKRCFDFFIDYMVLLKMRYTQKEIAEIMLSKKVSRCFRKYTELFCHLDPCLLQSKESQLLQEENCRKKLEALRADRFAGLLEYLNPNYKDATTMESIVNEYAFLLQQNSKKPMTNEKQNSILANIILSCLKPNSKLIQPLTTLKKQLREVLQFVGLSHQYPGPYFLACLLFWPENQELDQDSKLIEKYVSSLNRSFRGQYKRMCRSKQASTLFYLGKRKGLNSIVHKAKIEQYFDKAQNTNSLWHSGDVWKKNEVKDLLRRLTGQAEGKLISVEYGTEEKIKIPVISVYSGPLRSGRNIERVSFYLGFSIEGPLAYDIEVI

Target ORF information:

RefSeq Version	XM_017011822.1
Organism	Homo sapiens(human)
Definition	Homo sapiens sterile alpha motif domain containing 9 like (SAMD9L), transcript variant X2, mRNA.

Target ORF information:

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

XM_017011822.1

ORF Insert Sequence:

ATGAGTAAAC AAGTATCTCT ACCTGAAATG ATTAAAGACT GGACCAAAGA GCATGTGAAA 
AAATGGGTAA ATGAAGACCT TAAGATTAAT GAGCAATACG GGCAAATTCT GCTCAGTGAA 
GAAGTAACAG GATTAGTCCT GCAGGAATTA ACTGAGAAGG ACCTTGTAGA AATGGGGCTA 
CCATGGGGTC CAGCACTTTT GATAAAACGT TCATACAACA AATTGAATAG TAAGTCCCCT 
GAAAGTGACA ATCATGATCC GGGACAATTA GATAATTCAA AACCGTCCAA AACAGAACAC 
CAGAAAAATC CAAAACACAC CAAAAAGGAA GAAGAAAATT CAATGTCATC TAATATTGAT 
TATGATCCCA GAGAGATCAG AGATATCAAA CAAGAAGAAT CAATTCTTAT GAAAGAAAAT 
GTGTTAGATG AAGTAGCAAA TGCTAAACAC AAGAAAAAGG GTAAGCTAAA ACCTGAACAA 
TTGACTTGTA TGCCATATCC TTTTGATCAG TTCCATGACA GCCATCGCTA CATAGAACAT 
TATACTCTAC AACCTGAAAC AGGAGCACTC AATCTCATTG ATCCAATACA TGAGTTCAAA 
GCTCTCACAA ACACAGAAAC AGCCACGGAA GTGGACATTA AGATGAAATT CAGCAATGAA 
GTCTTCCGAT TTGCATCAGC TTGTATGAAT TCACGCACCA ATGGCACCAT CCATTTTGGA 
GTCAAGGACA AACCCCATGG AGAAATTGTT GGTGTGAAAA TCACCAGTAA GGCTGCCTTC 
ATTGACCACT TCAATGTAAT GATCAAAAAG TATTTTGAAG AAAGTGAGAT CAATGAAGCC 
AAGAAGTGTA TTCGGGAGCC AAGGTTTGTG GAAGTCCTTC TGCAGAACAA TACACCATCT 
GACAGATTTG TCATTGAAGT TGATACTATT CCAAAACACT CTATATGTAA TGATAAGTAT 
TTCTACATTC AGATGCAAAT TTGTAAAGAT AAAATATGGA AACAAAACCA AAATCTTTCA 
CTGTTTGTAA GAGAAGGGGC TAGCTCTAGG GATATCCTGG CCAATTCCAA GCAACGGGAT 
GTAGATTTCA AGGCATTTTT ACAAAATTTA AAGTCACTGG TAGCATCTAG AAAAGAGGCT 
GAAGAAGAGT ATGGAATGAA GGCAATGAAG AAGGAGAGTG AAGGACTAAA GCTGGTTAAA 
CTTCTCATAG GAAACCGAGA CTCACTGGAT AATTCATACT ATGACTGGTA CATTCTTGTA 
ACAAATAAAT GCCATCCAAA CCAAATAAAG CACTTAGATT TTTTAAAAGA AATTAAATGG 
TTTGCTGTGT TGGAGTTTGA TCCTGAATCT ATGATCAATG GAGTGGTCAA AGCTTACAAA 
GAAAGTCGGG TGGCAAACCT TCACTTTCCA AATCAATATG AAGACAAGAC AACTAACATG 
TGGGAGAAGA TTTCTACTCT TAATCTTTAC CAACAGCCCA GCTGGATTTT CTGCAACGGC 
AGATCAGACC TGAAAAGCGA GACATATAAA CCTCTAGAAC CACATTTATG GCAGAGAGAA 
AGAGCTTCAG AAGTCAGGAA ACTAATTTTA TTTCTCACAG ATGAAAATAT AATGACAAGA 
GGAAAATTTT TGGTAGTGTT TCTATTACTC TCTTCAGTGG AAAGCCCAGG AGATCCACTC 
ATTGAAACTT TCTGGGCTTT CTATCAAGCT CTCAAAGGAA TGGAAAATAT GTTGTGTATC 
TCTGTAAACT CACATATTTA TCAACGATGG AAAGATCTAC TACAAACAAG AATGAAGATG 
GAAGATGAAC TAACAAACCA CAGTATTTCC ACTTTAAATA TAGAACTGGT AAACAGCACT 
ATCCTTAAAC TAAAATCGGT GACTCGGTCA TCAAGAAGGT TTTTGCCCGC CCGTGGATCT 
TCTTCAGTTA TCCTAGAGAA AAAGAAAGAG GATGTCTTGA CTGCACTGGA AATCCTCTGT 
GAAAATGAGT GTACAGAGAC AGACATCGAG AAAGACAAAT CTAAATTCCT GGAGTTTAAG 
AAATCAAAAG AAGAACACTT TTATCGAGGT GGCAAAGTAT CCTGGTGGAA CTTCTATTTT 
TCTTCTGAAA ACTATTCTTC AGATTTTGTT AAAAGGGACA GTTATGAAAA GCTTAAAGAT 
TTAATACACT GCTGGGCAGA GTCTCCTAAA CCAATATTTG CAAAAATCAT CAATCTTTAT 
CATCATCCAG GCTGTGGAGG TACCACACTG GCTATGCATG TTCTCTGGGA CTTAAAGAAA 
AACTTCAGAT GTGCTGTGTT AAAAAACAAG ACAACTGATT TTGCAGAAAT TGCAGAGCAA 
GTGATCAATC TGGTCACCTA TAGGGCAAAG AGCCATCAGG ATTACATTCC TGTGCTTCTC 
CTTGTGGATG ATTTTGAAGA ACAAGAAAAT GTCTACTTTC TACAAAATGC CATCCATTCC 
GTTTTAGCAG AAAAGGATTT GCGATATGAA AAAACATTGG TAATTATCTT AAACTGCATG 
AGATCCCGGA ATCCAGATGA AAGTGCAAAA TTGGCAGACA GTATTGCACT AAATTACCAA 
CTTTCTTCCA AGGAACAAAG AGCTTTTGGT GCCAAACTGA AGGAAATTGA AAAGCAGCAC 
AAGAACTGTG AAAACTTTTA TTCCTTCATG ATCATGAAAA GCAATTTTGA TGAAACATAT 
ATAGAAAATG TAGTCAGGAA TATCCTAAAA GGACAGGATG TTGACAGCAA GGAAGCACAA 
CTCATTTCCT TCCTGGCTTT ACTCAGCTCT TATGTTACTG ACTCTACAAT TTCAGTTTCA 
CAGTGTGAAA TATTTTTGGG AATCATATAC ACTAGTACAC CCTGGGAACC TGAAAGCTTA 
GAAGACAAGA TGGGAACTTA TTCTACACTT CTAATAAAAA CAGAAGTTGC AGAATATGGG 
AGATACACAG GTGTGCGTAT CATTCACCCT CTGATTGCCC TGTACTGTCT AAAAGAACTG 
GAAAGAAGCT ATCACTTGGA TAAATGTCAA ATTGCATTGA ATATATTAGA AGAGAATTTA 
TTCTATGATT CTGGAATAGG AAGAGACAAA TTTCAACATG ATGTTCAAAC TCTTCTGCTT 
ACAAGACAGC GCAAGGTGTA TGGAGATGAA ACAGACACTC TGTTTTCCCC ATTAATGGAA 
GCTTTACAGA ATAAAGACAT TGAAAAGGTC TTGAGTGCAG GAAGTAGACG ATTCCCACAA 
AATGCATTCA TTTGTCAAGC CTTAGCAAGA CATTTCTACA TTAAAGAGAA GGACTTTAAC 
ACAGCTCTGG ACTGGGCACG TCAGGCCAAA ATGAAAGCAC CTAAAAATTC CTATATTTCA 
GATACACTAG GTCAAGTCTA CAAAAGTGAA ATCAAATGGT GGTTGGATGG GAACAAAAAC 
TGTAGGAGCA TTACTGTTAA TGACCTAACA CATCTCCTAG AAGCTGCGGA AAAAGCCTCA 
AGAGCTTTCA AAGAATCCCA AAGGCAAACT GATAGTAAAA ACTATGAAAC CGAGAACTGG 
TCACCACAGA AGTCCCAGAG ACGATATGAC ATGTATAACA CAGCTTGTTT CTTGGGTGAA 
ATAGAAGTTG GTCTTTACAC TATCCAGATT CTTCAGCTCA CTCCCTTTTT CCACAAAGAA 
AATGAATTAT CCAAAAAACA TATGGTGCAA TTTTTATCAG GAAAGTGGAC CATTCCTCCT 
GATCCCAGAA ATGAATGTTA TTTGGCTCTT AGCAAGTTCA CATCCCACCT AAAAAATTTA 
CAATCAGATC TGAAAAGGTG CTTTGACTTT TTTATTGATT ATATGGTTCT TCTGAAAATG 
AGGTATACCC AAAAAGAAAT TGCAGAAATC ATGTTAAGCA AGAAAGTCAG TCGTTGTTTC 
AGGAAATACA CAGAACTTTT CTGTCATTTG GATCCATGTC TATTACAAAG TAAAGAGAGT 
CAATTACTCC AGGAGGAGAA TTGCAGGAAA AAGCTAGAAG CTCTGAGAGC AGATAGGTTT 
GCTGGACTCT TGGAATATCT TAATCCAAAC TACAAAGATG CTACCACCAT GGAAAGTATA 
GTGAATGAAT ATGCCTTCCT ACTGCAGCAA AACTCAAAAA AGCCCATGAC AAATGAGAAA 
CAAAATTCCA TTTTGGCCAA CATTATTCTG AGTTGTCTAA AGCCCAACTC CAAGTTAATT 
CAACCACTTA CCACGCTAAA AAAACAACTC CGAGAGGTCT TGCAATTTGT AGGACTAAGT 
CATCAATATC CAGGTCCTTA TTTCTTGGCC TGCCTCCTGT TCTGGCCAGA AAATCAAGAG 
CTAGATCAAG ATTCCAAACT AATAGAAAAG TATGTTTCAT CCTTAAATAG ATCCTTCAGG 
GGACAGTACA AGCGCATGTG CAGGTCCAAG CAGGCAAGCA CACTTTTCTA TCTGGGCAAA 
AGGAAGGGTC TAAACAGTAT TGTTCACAAG GCCAAAATAG AGCAGTACTT TGATAAAGCA 
CAAAATACAA ATTCCCTCTG GCACAGTGGG GATGTGTGGA AAAAAAATGA AGTCAAAGAC 
CTCCTGCGTC GTCTAACTGG TCAGGCTGAA GGCAAGCTAA TCTCTGTAGA ATATGGAACA 
GAGGAAAAAA TAAAAATACC AGTAATATCT GTTTATTCAG GTCCACTCAG AAGTGGTAGG 
AACATAGAAA GAGTGTCTTT CTACCTAGGA TTTTCCATTG AAGGCCCTCT GGCATATGAT 
ATAGAAGTAA TTTAA

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

Gene Symbol	SAMD9L
Entrez Gene ID	219285
Full Name	sterile alpha motif domain containing 9 like
Synonyms	ATXPC,C7orf6,DRIF2,UEF1
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
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 7 Map Location: 7q21.2
Summary	This gene encodes a cytoplasmic protein that acts as a tumor suppressor but also plays a key role in cell proliferation and the innate immune response to viral infection. The encoded protein contains an N-terminal sterile alpha motif domain. Naturally occurring mutations in this gene are associated with myeloid disorders such as juvenile myelomonocytic leukemia, acute myeloid leukemia, and myelodysplastic syndrome. Naturally occurring mutations are also associated with hepatitis-B related hepatocellular carcinoma, normophosphatemic familial tumoral calcinosis, and ataxia-pancytopenia syndrome. [provided by RefSeq, Apr 2017].
Disorder MIM:	611170
Disorder Html:	Ataxia-pancytopenia syndrome, 159550 (3)

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

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

SAMD9L cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

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