TMPRSS15 gene cDNA ORF clone, Homo sapiens(human)

mRNA	Protein	Name
XM_011529657.1	XP_011527959.1	enteropeptidase isoform X2
NM_002772.2	NP_002763.2	enteropeptidase precursor
XM_011529658.2	XP_011527960.1	enteropeptidase isoform X3
XM_011529654.2	XP_011527956.1	enteropeptidase isoform X1
XM_011529658.1	XP_011527960.1	enteropeptidase isoform X3
XM_011529657.2	XP_011527959.1	enteropeptidase isoform X2
XM_011529654.1	XP_011527956.1	enteropeptidase isoform X1
XM_011529655.1	XP_011527957.1	enteropeptidase isoform X1
XM_011529656.2	XP_011527958.1	enteropeptidase isoform X1
XM_011529659.1	XP_011527961.1	enteropeptidase isoform X4
NM_002772.3	NP_002763.3	enteropeptidase precursor

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OHu22654	NM_002772.2 Latest version!	Homo sapiens transmembrane protease, serine 15 (TMPRSS15), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$274.50-$384.30 $549.00
OHu107721	NM_002772.3 Latest version!	Homo sapiens transmembrane serine protease 15 (TMPRSS15), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OHu59972	XM_011529656.2 Latest version!	Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu59972	XM_011529654.2 Latest version!	Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu59972	XM_011529655.1 Latest version!	Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu59973	XM_011529657.2 Latest version!	Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu59974	XM_011529658.2 Latest version!	Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu59975	XM_011529659.1 Latest version!	Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
View Old Accession Versions >>
OHu59974	XM_011529658.1	Homo sapiens transmembrane protease, serine 15 (TMPRSS15), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu59973	XM_011529657.1	Homo sapiens transmembrane protease, serine 15 (TMPRSS15), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
OHu59972	XM_011529654.1	Homo sapiens transmembrane protease, serine 15 (TMPRSS15), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00
Hide Old Accession Versions >>

TMPRSS15 ( NM_002772.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_002763.2 Homo sapiens transmembrane protease, serine 15 (TMPRSS15), mRNA.

Price & Availability↑

CloneID	OHu22654
Clone ID Related Accession (Same CDS sequence)	NM_002772.2
Accession Version	NM_002772.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3060bp) 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	2017-10-01
Organism	Homo sapiens(human)
Product	enteropeptidase precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB242953.1, U09860.1, BM015908.1, AI279666.1 and AL078474.2. This sequence is a reference standard in the RefSeqGene project. On Feb 21, 2009 this sequence version replaced NM_002772.1. 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 :: U09860.1, BC111749.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGAAAATGG CAGCATTATA 
GTCGTATTTG ACCTTTTCTT TGCCCAGTGG GTGTCAGATG AAAATGTAAA AGAAGAACTG 
ATTCAAGGCC TTGAAGCAAA TAAATCCAGC CAACTGGTCA CTTTCCATAT TGATTTGAAC 
AGCGTTGATA TCCTAGACAA GCTAACAACC ACCAGTCATC TGGCAACTCC AGGAAATGTC 
TCAATAGAGT GCCTGCCTGG TTCAAGTCCT TGTACTGATG CTCTAACGTG TATAAAAGCT 
GATTTATTTT GTGATGGAGA AGTAAACTGT CCAGATGGTT CTGACGAAGA CAATAAAATG 
TGTGCCACAG TTTGTGATGG AAGATTTTTG TTAACTGGAT CATCTGGGTC TTTCCAGGCT 
ACTCATTATC CAAAACCTTC TGAAACAAGT GTTGTCTGCC AGTGGATCAT ACGTGTAAAC 
CAAGGACTTT CCATTAAACT GAGCTTCGAT GATTTTAATA CATATTATAC AGATATATTA 
GATATTTATG AAGGTGTAGG ATCAAGCAAG ATTTTAAGAG CTTCTATTTG GGAAACTAAT 
CCTGGCACAA TAAGAATTTT TTCCAACCAA GTTACTGCCA CCTTTCTTAT AGAATCTGAT 
GAAAGTGATT ATGTTGGCTT TAATGCAACA TATACTGCAT TTAACAGCAG TGAGCTTAAT 
AATTATGAGA AAATTAATTG TAACTTTGAG GATGGCTTTT GTTTCTGGGT CCAGGATCTA 
AATGATGATA ATGAATGGGA AAGGATTCAG GGAAGCACCT TTTCTCCTTT TACTGGACCC 
AATTTTGACC ACACTTTTGG CAATGCTTCA GGATTTTACA TTTCTACCCC AACTGGACCA 
GGAGGGAGAC AAGAACGAGT GGGGCTTTTA AGCCTCCCTT TGGACCCCAC TTTGGAGCCA 
GCTTGCCTTA GTTTCTGGTA TCATATGTAT GGTGAAAATG TCCATAAATT AAGCATTAAT 
ATCAGCAATG ACCAAAATAT GGAGAAGACA GTTTTCCAAA AGGAAGGAAA TTATGGAGAC 
AATTGGAATT ATGGACAAGT AACCCTAAAT GAAACAGTTA AATTTAAGGT TGCTTTTAAT 
GCTTTTAAAA ACAAGATCCT GAGTGATATT GCGTTGGATG ACATTAGCCT AACATATGGG 
ATTTGCAATG GGAGTCTTTA TCCAGAACCA ACTTTGGTGC CAACTCCTCC ACCAGAACTT 
CCTACGGACT GTGGAGGACC TTTTGAGCTG TGGGAGCCAA ATACAACATT CAGTTCTACG 
AACTTTCCAA ACAGCTACCC TAATCTGGCT TTCTGTGTTT GGATTTTAAA TGCACAAAAA 
GGAAAGAATA TACAACTTCA TTTTCAAGAA TTTGACTTAG AAAATATTAA CGATGTAGTT 
GAAATAAGAG ATGGTGAAGA AGCTGATTCC TTGCTCTTAG CTGTGTACAC AGGGCCTGGC 
CCAGTAAAGG ATGTGTTCTC TACCACCAAC AGAATGACTG TGCTTCTCAT CACTAACGAT 
GTGTTGGCAA GAGGAGGGTT TAAAGCAAAC TTTACTACTG GCTATCACTT GGGGATTCCA 
GAGCCATGCA AGGCAGACCA TTTTCAATGT AAAAATGGAG AGTGTGTTCC ACTGGTGAAT 
CTCTGTGACG GTCATCTGCA CTGTGAGGAT GGCTCAGATG AAGCAGATTG TGTGCGTTTT 
TTCAATGGCA CAACGAACAA CAATGGTTTA GTGCGGTTCA GAATCCAGAG CATATGGCAT 
ACAGCTTGTG CTGAGAACTG GACCACCCAG ATTTCAAATG ATGTTTGTCA ACTGCTGGGA 
CTAGGGAGTG GAAACTCATC AAAGCCAATC TTCTCTACCG ATGGTGGACC ATTTGTCAAA 
TTAAACACAG CACCTGATGG CCACTTAATA CTAACACCCA GTCAACAGTG TTTACAGGAT 
TCCTTGATTC GGTTACAGTG TAACCATAAA TCTTGTGGAA AAAAACTGGC AGCTCAAGAC 
ATCACCCCAA AGATTGTTGG AGGAAGTAAT GCCAAAGAAG GGGCCTGGCC CTGGGTTGTG 
GGTCTGTATT ATGGCGGCCG ACTGCTCTGC GGCGCATCTC TCGTCAGCAG TGACTGGCTG 
GTGTCCGCCG CACACTGCGT GTATGGGAGA AACTTAGAGC CATCCAAGTG GACAGCAATC 
CTAGGCCTGC ATATGAAATC AAATCTGACC TCTCCTCAAA CAGTCCCTCG ATTAATAGAT 
GAAATTGTCA TAAACCCTCA TTACAATAGG CGAAGAAAGG ACAACGACAT TGCCATGATG 
CATCTGGAAT TTAAAGTGAA TTACACAGAT TACATACAAC CTATTTGTTT ACCGGAAGAA 
AATCAAGTTT TTCCTCCAGG AAGAAATTGT TCTATTGCTG GTTGGGGGAC GGTTGTATAT 
CAAGGTACTA CTGCAAACAT ATTGCAAGAA GCTGATGTTC CTCTTCTATC AAATGAGAGA 
TGCCAACAGC AGATGCCAGA ATATAACATT ACTGAAAATA TGATATGTGC AGGCTATGAA 
GAAGGAGGAA TAGATTCTTG TCAGGGGGAT TCAGGAGGAC CATTAATGTG CCAAGAAAAC 
AACAGGTGGT TCCTTGCTGG TGTGACCTCA TTTGGATACA AGTGTGCCCT GCCTAATCGC 
CCCGGAGTGT ATGCCAGGGT CTCAAGGTTT ACCGAATGGA TACAAAGTTT TCTACATTAG

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

RefSeq	NP_002763.2
CDS	32..3091
Translation	MGSKRGISSRHHSLSSYEIMFAALFAILVVLCAGLIAVSCLTIKESQRGAALGQSHEARATFKITSGVTYNPNLQDKLSVDFKVLAFDLQQMIDEIFLSSNLKNEYKNSRVLQFENGSIIVVFDLFFAQWVSDENVKEELIQGLEANKSSQLVTFHIDLNSVDILDKLTTTSHLATPGNVSIECLPGSSPCTDALTCIKADLFCDGEVNCPDGSDEDNKMCATVCDGRFLLTGSSGSFQATHYPKPSETSVVCQWIIRVNQGLSIKLSFDDFNTYYTDILDIYEGVGSSKILRASIWETNPGTIRIFSNQVTATFLIESDESDYVGFNATYTAFNSSELNNYEKINCNFEDGFCFWVQDLNDDNEWERIQGSTFSPFTGPNFDHTFGNASGFYISTPTGPGGRQERVGLLSLPLDPTLEPACLSFWYHMYGENVHKLSINISNDQNMEKTVFQKEGNYGDNWNYGQVTLNETVKFKVAFNAFKNKILSDIALDDISLTYGICNGSLYPEPTLVPTPPPELPTDCGGPFELWEPNTTFSSTNFPNSYPNLAFCVWILNAQKGKNIQLHFQEFDLENINDVVEIRDGEEADSLLLAVYTGPGPVKDVFSTTNRMTVLLITNDVLARGGFKANFTTGYHLGIPEPCKADHFQCKNGECVPLVNLCDGHLHCEDGSDEADCVRFFNGTTNNNGLVRFRIQSIWHTACAENWTTQISNDVCQLLGLGSGNSSKPIFSTDGGPFVKLNTAPDGHLILTPSQQCLQDSLIRLQCNHKSCGKKLAAQDITPKIVGGSNAKEGAWPWVVGLYYGGRLLCGASLVSSDWLVSAAHCVYGRNLEPSKWTAILGLHMKSNLTSPQTVPRLIDEIVINPHYNRRRKDNDIAMMHLEFKVNYTDYIQPICLPEENQVFPPGRNCSIAGWGTVVYQGTTANILQEADVPLLSNERCQQQMPEYNITENMICAGYEEGGIDSCQGDSGGPLMCQENNRWFLAGVTSFGYKCALPNRPGVYARVSRFTEWIQSFLH

Target ORF information:

RefSeq Version	NM_002772.2
Organism	Homo sapiens(human)
Definition	Homo sapiens transmembrane protease, serine 15 (TMPRSS15), mRNA.

Target ORF information:

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

NM_002772.2

ORF Insert Sequence:

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGAAAATGG CAGCATTATA 
GTCGTATTTG ACCTTTTCTT TGCCCAGTGG GTGTCAGATG AAAATGTAAA AGAAGAACTG 
ATTCAAGGCC TTGAAGCAAA TAAATCCAGC CAACTGGTCA CTTTCCATAT TGATTTGAAC 
AGCGTTGATA TCCTAGACAA GCTAACAACC ACCAGTCATC TGGCAACTCC AGGAAATGTC 
TCAATAGAGT GCCTGCCTGG TTCAAGTCCT TGTACTGATG CTCTAACGTG TATAAAAGCT 
GATTTATTTT GTGATGGAGA AGTAAACTGT CCAGATGGTT CTGACGAAGA CAATAAAATG 
TGTGCCACAG TTTGTGATGG AAGATTTTTG TTAACTGGAT CATCTGGGTC TTTCCAGGCT 
ACTCATTATC CAAAACCTTC TGAAACAAGT GTTGTCTGCC AGTGGATCAT ACGTGTAAAC 
CAAGGACTTT CCATTAAACT GAGCTTCGAT GATTTTAATA CATATTATAC AGATATATTA 
GATATTTATG AAGGTGTAGG ATCAAGCAAG ATTTTAAGAG CTTCTATTTG GGAAACTAAT 
CCTGGCACAA TAAGAATTTT TTCCAACCAA GTTACTGCCA CCTTTCTTAT AGAATCTGAT 
GAAAGTGATT ATGTTGGCTT TAATGCAACA TATACTGCAT TTAACAGCAG TGAGCTTAAT 
AATTATGAGA AAATTAATTG TAACTTTGAG GATGGCTTTT GTTTCTGGGT CCAGGATCTA 
AATGATGATA ATGAATGGGA AAGGATTCAG GGAAGCACCT TTTCTCCTTT TACTGGACCC 
AATTTTGACC ACACTTTTGG CAATGCTTCA GGATTTTACA TTTCTACCCC AACTGGACCA 
GGAGGGAGAC AAGAACGAGT GGGGCTTTTA AGCCTCCCTT TGGACCCCAC TTTGGAGCCA 
GCTTGCCTTA GTTTCTGGTA TCATATGTAT GGTGAAAATG TCCATAAATT AAGCATTAAT 
ATCAGCAATG ACCAAAATAT GGAGAAGACA GTTTTCCAAA AGGAAGGAAA TTATGGAGAC 
AATTGGAATT ATGGACAAGT AACCCTAAAT GAAACAGTTA AATTTAAGGT TGCTTTTAAT 
GCTTTTAAAA ACAAGATCCT GAGTGATATT GCGTTGGATG ACATTAGCCT AACATATGGG 
ATTTGCAATG GGAGTCTTTA TCCAGAACCA ACTTTGGTGC CAACTCCTCC ACCAGAACTT 
CCTACGGACT GTGGAGGACC TTTTGAGCTG TGGGAGCCAA ATACAACATT CAGTTCTACG 
AACTTTCCAA ACAGCTACCC TAATCTGGCT TTCTGTGTTT GGATTTTAAA TGCACAAAAA 
GGAAAGAATA TACAACTTCA TTTTCAAGAA TTTGACTTAG AAAATATTAA CGATGTAGTT 
GAAATAAGAG ATGGTGAAGA AGCTGATTCC TTGCTCTTAG CTGTGTACAC AGGGCCTGGC 
CCAGTAAAGG ATGTGTTCTC TACCACCAAC AGAATGACTG TGCTTCTCAT CACTAACGAT 
GTGTTGGCAA GAGGAGGGTT TAAAGCAAAC TTTACTACTG GCTATCACTT GGGGATTCCA 
GAGCCATGCA AGGCAGACCA TTTTCAATGT AAAAATGGAG AGTGTGTTCC ACTGGTGAAT 
CTCTGTGACG GTCATCTGCA CTGTGAGGAT GGCTCAGATG AAGCAGATTG TGTGCGTTTT 
TTCAATGGCA CAACGAACAA CAATGGTTTA GTGCGGTTCA GAATCCAGAG CATATGGCAT 
ACAGCTTGTG CTGAGAACTG GACCACCCAG ATTTCAAATG ATGTTTGTCA ACTGCTGGGA 
CTAGGGAGTG GAAACTCATC AAAGCCAATC TTCTCTACCG ATGGTGGACC ATTTGTCAAA 
TTAAACACAG CACCTGATGG CCACTTAATA CTAACACCCA GTCAACAGTG TTTACAGGAT 
TCCTTGATTC GGTTACAGTG TAACCATAAA TCTTGTGGAA AAAAACTGGC AGCTCAAGAC 
ATCACCCCAA AGATTGTTGG AGGAAGTAAT GCCAAAGAAG GGGCCTGGCC CTGGGTTGTG 
GGTCTGTATT ATGGCGGCCG ACTGCTCTGC GGCGCATCTC TCGTCAGCAG TGACTGGCTG 
GTGTCCGCCG CACACTGCGT GTATGGGAGA AACTTAGAGC CATCCAAGTG GACAGCAATC 
CTAGGCCTGC ATATGAAATC AAATCTGACC TCTCCTCAAA CAGTCCCTCG ATTAATAGAT 
GAAATTGTCA TAAACCCTCA TTACAATAGG CGAAGAAAGG ACAACGACAT TGCCATGATG 
CATCTGGAAT TTAAAGTGAA TTACACAGAT TACATACAAC CTATTTGTTT ACCGGAAGAA 
AATCAAGTTT TTCCTCCAGG AAGAAATTGT TCTATTGCTG GTTGGGGGAC GGTTGTATAT 
CAAGGTACTA CTGCAAACAT ATTGCAAGAA GCTGATGTTC CTCTTCTATC AAATGAGAGA 
TGCCAACAGC AGATGCCAGA ATATAACATT ACTGAAAATA TGATATGTGC AGGCTATGAA 
GAAGGAGGAA TAGATTCTTG TCAGGGGGAT TCAGGAGGAC CATTAATGTG CCAAGAAAAC 
AACAGGTGGT TCCTTGCTGG TGTGACCTCA TTTGGATACA AGTGTGCCCT GCCTAATCGC 
CCCGGAGTGT ATGCCAGGGT CTCAAGGTTT ACCGAATGGA TACAAAGTTT TCTACATTAG

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

TMPRSS15 ( NM_002772.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_002763.3 Homo sapiens transmembrane serine protease 15 (TMPRSS15), mRNA.

Price & Availability↑

CloneID	OHu107721
Clone ID Related Accession (Same CDS sequence)	NM_002772.3
Accession Version	NM_002772.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3060bp) 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	2019-09-26
Organism	Homo sapiens(human)
Product	enteropeptidase precursor
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AP000455.5, AP000456.4 and AL078474.2. On Nov 23, 2018 this sequence version replaced NM_002772.2. 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 :: U09860.1, BC111749.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000284885.8/ ENSP00000284885.3 RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGAAAATGG CAGCATTATA 
GTCGTATTTG ACCTTTTCTT TGCCCAGTGG GTGTCAGATG AAAATGTAAA AGAAGAACTG 
ATTCAAGGCC TTGAAGCAAA TAAATCCAGC CAACTGGTCA CTTTCCATAT TGATTTGAAC 
AGCGTTGATA TCCTAGACAA GCTAACAACC ACCAGTCATC TGGCAACTCC AGGAAATGTC 
TCAATAGAGT GCCTGCCTGG TTCAAGTCCT TGTACTGATG CTCTAACGTG TATAAAAGCT 
GATTTATTTT GTGATGGAGA AGTAAACTGT CCAGATGGTT CTGACGAAGA CAATAAAATG 
TGTGCCACAG TTTGTGATGG AAGATTTTTG TTAACTGGAT CATCTGGGTC TTTCCAGGCT 
ACTCATTATC CAAAACCTTC TGAAACAAGT GTTGTCTGCC AGTGGATCAT ACGTGTAAAC 
CAAGGACTTT CCATTAAACT GAGCTTCGAT GATTTTAATA CATATTATAC AGATATATTA 
GATATTTATG AAGGTGTAGG ATCAAGCAAG ATTTTAAGAG CTTCTATTTG GGAAACTAAT 
CCTGGCACAA TAAGAATTTT TTCCAACCAA GTTACTGCCA CCTTTCTTAT AGAATCTGAT 
GAAAGTGATT ATGTTGGCTT TAATGCAACA TATACTGCAT TTAACAGCAG TGAGCTTAAT 
AATTATGAGA AAATTAATTG TAACTTTGAG GATGGCTTTT GTTTCTGGGT CCAGGATCTA 
AATGATGATA ATGAATGGGA AAGGATTCAG GGAAGCACCT TTTCTCCTTT TACTGGACCC 
AATTTTGACC ACACTTTTGG CAATGCTTCA GGATTTTACA TTTCTACCCC AACTGGACCA 
GGAGGGAGAC AAGAACGAGT GGGGCTTTTA AGCCTCCCTT TGGACCCCAC TTTGGAGCCA 
GCTTGCCTTA GTTTCTGGTA TCATATGTAT GGTGAAAATG TCCATAAATT AAGCATTAAT 
ATCAGCAATG ACCAAAATAT GGAGAAGACA GTTTTCCAAA AGGAAGGAAA TTATGGAGAC 
AATTGGAATT ATGGACAAGT AACCCTAAAT GAAACAGTTA AATTTAAGGT TGCTTTTAAT 
GCTTTTAAAA ACAAGATCCT GAGTGATATT GCGTTGGATG ACATTAGCCT AACATATGGG 
ATTTGCAATG GGAGTCTTTA TCCAGAACCA ACTTTGGTGC CAACTCCTCC ACCAGAACTT 
CCTACGGACT GTGGAGGACC TTTTGAGCTG TGGGAGCCAA ATACAACATT CAGTTCTACG 
AACTTTCCAA ACAGCTACCC TAATCTGGCT TTCTGTGTTT GGATTTTAAA TGCACAAAAA 
GGAAAGAATA TACAACTTCA TTTTCAAGAA TTTGACTTAG AAAATATTAA CGATGTAGTT 
GAAATAAGAG ATGGTGAAGA AGCTGATTCC TTGCTCTTAG CTGTGTACAC AGGGCCTGGC 
CCAGTAAAGG ATGTGTTCTC TACCACCAAC AGAATGACTG TGCTTCTCAT CACTAACGAT 
GTGTTGGCAA GAGGAGGGTT TAAAGCAAAC TTTACTACTG GCTATCACTT GGGGATTCCA 
GAGCCATGCA AGGCAGACCA TTTTCAATGT AAAAATGGAG AGTGTGTTCC ACTGGTGAAT 
CTCTGTGACG GTCATCTGCA CTGTGAGGAT GGCTCAGATG AAGCAGATTG TGTGCGTTTT 
TTCAATGGCA CAACGAACAA CAATGGTTTA GTGCGGTTCA GAATCCAGAG CATATGGCAT 
ACAGCTTGTG CTGAGAACTG GACCACCCAG ATTTCAAATG ATGTTTGTCA ACTGCTGGGA 
CTAGGGAGTG GAAACTCATC AAAGCCAATC TTCCCTACCG ATGGTGGACC ATTTGTCAAA 
TTAAACACAG CACCTGATGG CCACTTAATA CTAACACCCA GTCAACAGTG TTTACAGGAT 
TCCTTGATTC GGTTACAGTG TAACCATAAA TCTTGTGGAA AAAAACTGGC AGCTCAAGAC 
ATCACCCCAA AGATTGTTGG AGGAAGTAAT GCCAAAGAAG GGGCCTGGCC CTGGGTTGTG 
GGTCTGTATT ATGGCGGCCG ACTGCTCTGC GGCGCATCTC TCGTCAGCAG TGACTGGCTG 
GTGTCCGCCG CACACTGCGT GTATGGGAGA AACTTAGAGC CATCCAAGTG GACAGCAATC 
CTAGGCCTGC ATATGAAATC AAATCTGACC TCTCCTCAAA CAGTCCCTCG ATTAATAGAT 
GAAATTGTCA TAAACCCTCA TTACAATAGG CGAAGAAAGG ACAACGACAT TGCCATGATG 
CATCTGGAAT TTAAAGTGAA TTACACAGAT TACATACAAC CTATTTGTTT ACCGGAAGAA 
AATCAAGTTT TTCCTCCAGG AAGAAATTGT TCTATTGCTG GTTGGGGGAC GGTTGTATAT 
CAAGGTACTA CTGCAAACAT ATTGCAAGAA GCTGATGTTC CTCTTCTATC AAATGAGAGA 
TGCCAACAGC AGATGCCAGA ATATAACATT ACTGAAAATA TGATATGTGC AGGCTATGAA 
GAAGGAGGAA TAGATTCTTG TCAGGGGGAT TCAGGAGGAC CATTAATGTG CCAAGAAAAC 
AACAGGTGGT TCCTTGCTGG TGTGACCTCA TTTGGATACA AGTGTGCCCT GCCTAATCGC 
CCCGGAGTGT ATGCCAGGGT CTCAAGGTTT ACCGAATGGA TACAAAGTTT TCTACATTAG

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

RefSeq	NP_002763.3
CDS	164..3223
Translation	MGSKRGISSRHHSLSSYEIMFAALFAILVVLCAGLIAVSCLTIKESQRGAALGQSHEARATFKITSGVTYNPNLQDKLSVDFKVLAFDLQQMIDEIFLSSNLKNEYKNSRVLQFENGSIIVVFDLFFAQWVSDENVKEELIQGLEANKSSQLVTFHIDLNSVDILDKLTTTSHLATPGNVSIECLPGSSPCTDALTCIKADLFCDGEVNCPDGSDEDNKMCATVCDGRFLLTGSSGSFQATHYPKPSETSVVCQWIIRVNQGLSIKLSFDDFNTYYTDILDIYEGVGSSKILRASIWETNPGTIRIFSNQVTATFLIESDESDYVGFNATYTAFNSSELNNYEKINCNFEDGFCFWVQDLNDDNEWERIQGSTFSPFTGPNFDHTFGNASGFYISTPTGPGGRQERVGLLSLPLDPTLEPACLSFWYHMYGENVHKLSINISNDQNMEKTVFQKEGNYGDNWNYGQVTLNETVKFKVAFNAFKNKILSDIALDDISLTYGICNGSLYPEPTLVPTPPPELPTDCGGPFELWEPNTTFSSTNFPNSYPNLAFCVWILNAQKGKNIQLHFQEFDLENINDVVEIRDGEEADSLLLAVYTGPGPVKDVFSTTNRMTVLLITNDVLARGGFKANFTTGYHLGIPEPCKADHFQCKNGECVPLVNLCDGHLHCEDGSDEADCVRFFNGTTNNNGLVRFRIQSIWHTACAENWTTQISNDVCQLLGLGSGNSSKPIFPTDGGPFVKLNTAPDGHLILTPSQQCLQDSLIRLQCNHKSCGKKLAAQDITPKIVGGSNAKEGAWPWVVGLYYGGRLLCGASLVSSDWLVSAAHCVYGRNLEPSKWTAILGLHMKSNLTSPQTVPRLIDEIVINPHYNRRRKDNDIAMMHLEFKVNYTDYIQPICLPEENQVFPPGRNCSIAGWGTVVYQGTTANILQEADVPLLSNERCQQQMPEYNITENMICAGYEEGGIDSCQGDSGGPLMCQENNRWFLAGVTSFGYKCALPNRPGVYARVSRFTEWIQSFLH

Target ORF information:

RefSeq Version	NM_002772.3
Organism	Homo sapiens(human)
Definition	Homo sapiens transmembrane serine protease 15 (TMPRSS15), mRNA.

Target ORF information:

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

NM_002772.3

ORF Insert Sequence:

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGAAAATGG CAGCATTATA 
GTCGTATTTG ACCTTTTCTT TGCCCAGTGG GTGTCAGATG AAAATGTAAA AGAAGAACTG 
ATTCAAGGCC TTGAAGCAAA TAAATCCAGC CAACTGGTCA CTTTCCATAT TGATTTGAAC 
AGCGTTGATA TCCTAGACAA GCTAACAACC ACCAGTCATC TGGCAACTCC AGGAAATGTC 
TCAATAGAGT GCCTGCCTGG TTCAAGTCCT TGTACTGATG CTCTAACGTG TATAAAAGCT 
GATTTATTTT GTGATGGAGA AGTAAACTGT CCAGATGGTT CTGACGAAGA CAATAAAATG 
TGTGCCACAG TTTGTGATGG AAGATTTTTG TTAACTGGAT CATCTGGGTC TTTCCAGGCT 
ACTCATTATC CAAAACCTTC TGAAACAAGT GTTGTCTGCC AGTGGATCAT ACGTGTAAAC 
CAAGGACTTT CCATTAAACT GAGCTTCGAT GATTTTAATA CATATTATAC AGATATATTA 
GATATTTATG AAGGTGTAGG ATCAAGCAAG ATTTTAAGAG CTTCTATTTG GGAAACTAAT 
CCTGGCACAA TAAGAATTTT TTCCAACCAA GTTACTGCCA CCTTTCTTAT AGAATCTGAT 
GAAAGTGATT ATGTTGGCTT TAATGCAACA TATACTGCAT TTAACAGCAG TGAGCTTAAT 
AATTATGAGA AAATTAATTG TAACTTTGAG GATGGCTTTT GTTTCTGGGT CCAGGATCTA 
AATGATGATA ATGAATGGGA AAGGATTCAG GGAAGCACCT TTTCTCCTTT TACTGGACCC 
AATTTTGACC ACACTTTTGG CAATGCTTCA GGATTTTACA TTTCTACCCC AACTGGACCA 
GGAGGGAGAC AAGAACGAGT GGGGCTTTTA AGCCTCCCTT TGGACCCCAC TTTGGAGCCA 
GCTTGCCTTA GTTTCTGGTA TCATATGTAT GGTGAAAATG TCCATAAATT AAGCATTAAT 
ATCAGCAATG ACCAAAATAT GGAGAAGACA GTTTTCCAAA AGGAAGGAAA TTATGGAGAC 
AATTGGAATT ATGGACAAGT AACCCTAAAT GAAACAGTTA AATTTAAGGT TGCTTTTAAT 
GCTTTTAAAA ACAAGATCCT GAGTGATATT GCGTTGGATG ACATTAGCCT AACATATGGG 
ATTTGCAATG GGAGTCTTTA TCCAGAACCA ACTTTGGTGC CAACTCCTCC ACCAGAACTT 
CCTACGGACT GTGGAGGACC TTTTGAGCTG TGGGAGCCAA ATACAACATT CAGTTCTACG 
AACTTTCCAA ACAGCTACCC TAATCTGGCT TTCTGTGTTT GGATTTTAAA TGCACAAAAA 
GGAAAGAATA TACAACTTCA TTTTCAAGAA TTTGACTTAG AAAATATTAA CGATGTAGTT 
GAAATAAGAG ATGGTGAAGA AGCTGATTCC TTGCTCTTAG CTGTGTACAC AGGGCCTGGC 
CCAGTAAAGG ATGTGTTCTC TACCACCAAC AGAATGACTG TGCTTCTCAT CACTAACGAT 
GTGTTGGCAA GAGGAGGGTT TAAAGCAAAC TTTACTACTG GCTATCACTT GGGGATTCCA 
GAGCCATGCA AGGCAGACCA TTTTCAATGT AAAAATGGAG AGTGTGTTCC ACTGGTGAAT 
CTCTGTGACG GTCATCTGCA CTGTGAGGAT GGCTCAGATG AAGCAGATTG TGTGCGTTTT 
TTCAATGGCA CAACGAACAA CAATGGTTTA GTGCGGTTCA GAATCCAGAG CATATGGCAT 
ACAGCTTGTG CTGAGAACTG GACCACCCAG ATTTCAAATG ATGTTTGTCA ACTGCTGGGA 
CTAGGGAGTG GAAACTCATC AAAGCCAATC TTCCCTACCG ATGGTGGACC ATTTGTCAAA 
TTAAACACAG CACCTGATGG CCACTTAATA CTAACACCCA GTCAACAGTG TTTACAGGAT 
TCCTTGATTC GGTTACAGTG TAACCATAAA TCTTGTGGAA AAAAACTGGC AGCTCAAGAC 
ATCACCCCAA AGATTGTTGG AGGAAGTAAT GCCAAAGAAG GGGCCTGGCC CTGGGTTGTG 
GGTCTGTATT ATGGCGGCCG ACTGCTCTGC GGCGCATCTC TCGTCAGCAG TGACTGGCTG 
GTGTCCGCCG CACACTGCGT GTATGGGAGA AACTTAGAGC CATCCAAGTG GACAGCAATC 
CTAGGCCTGC ATATGAAATC AAATCTGACC TCTCCTCAAA CAGTCCCTCG ATTAATAGAT 
GAAATTGTCA TAAACCCTCA TTACAATAGG CGAAGAAAGG ACAACGACAT TGCCATGATG 
CATCTGGAAT TTAAAGTGAA TTACACAGAT TACATACAAC CTATTTGTTT ACCGGAAGAA 
AATCAAGTTT TTCCTCCAGG AAGAAATTGT TCTATTGCTG GTTGGGGGAC GGTTGTATAT 
CAAGGTACTA CTGCAAACAT ATTGCAAGAA GCTGATGTTC CTCTTCTATC AAATGAGAGA 
TGCCAACAGC AGATGCCAGA ATATAACATT ACTGAAAATA TGATATGTGC AGGCTATGAA 
GAAGGAGGAA TAGATTCTTG TCAGGGGGAT TCAGGAGGAC CATTAATGTG CCAAGAAAAC 
AACAGGTGGT TCCTTGCTGG TGTGACCTCA TTTGGATACA AGTGTGCCCT GCCTAATCGC 
CCCGGAGTGT ATGCCAGGGT CTCAAGGTTT ACCGAATGGA TACAAAGTTT TCTACATTAG

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

TMPRSS15 ( XM_011529654.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011527956.1 Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu59972
Clone ID Related Accession (Same CDS sequence)	XM_011529654.2 , XM_011529654.1 , XM_011529655.1 , XM_011529656.2
Accession Version	XM_011529654.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3195bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	enteropeptidase isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000021.9) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011529654.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGCATC TTTGGAGAAT 
TTTTCTACAG TAAGCCCTGC AACAACTTCA GACAAGCTAA CAACCACCAG TCATCTGGCA 
ACTCCAGGAA ATGTCTCAAT AGAGTGCCTG CCTGGTTCAA GTCCTTGTAC TGATGCTCTA 
ACGTGTATAA AAGCTGATTT ATTTTGTGAT GGAGAAGTAA ACTGTCCAGA TGGTTCTGAC 
GAAGACAATA AAATGTGTGC CACAGTTTGT GATGGAAGAT TTTTGTTAAC TGGATCATCT 
GGGTCTTTCC AGGCTACTCA TTATCCAAAA CCTTCTGAAA CAAGTGTTGT CTGCCAGTGG 
ATCATACGTG TAAACCAAGG ACTTTCCATT AAACTGAGCT TCGATGATTT TAATACATAT 
TATACAGATA TATTAGATAT TTATGAAGGT GTAGGATCAA GCAAGATTTT AAGAGCTTCT 
ATTTGGGAAA CTAATCCTGG CACAATAAGA ATTTTTTCCA ACCAAGTTAC TGCCACCTTT 
CTTATAGAAT CTGATGAAAG TGATTATGTT GGCTTTAATG CAACATATAC TGCATTTAAC 
AGCAGTGAGC TTAATAATTA TGAGAAAATT AATTGTAACT TTGAGGATGG CTTTTGTTTC 
TGGGTCCAGG ATCTAAATGA TGATAATGAA TGGGAAAGGA TTCAGGGAAG CACCTTTTCT 
CCTTTTACTG GACCCAATTT TGACCACACT TTTGGCAATG CTTCAGGATT TTACATTTCT 
ACCCCAACTG GACCAGGAGG GAGACAAGAA CGAGTGGGGC TTTTAAGCCT CCCTTTGGAC 
CCCACTTTGG AGCCAGCTTG CCTTAGTTTC TGGTATCATA TGTATGGTGA AAATGTCCAT 
AAATTAAGCA TTAATATCAG CAATGACCAA AATATGGAGA AGACAGTTTT CCAAAAGGAA 
GGAAATTATG GAGACAATTG GAATTATGGA CAAGTAACCC TAAATGAAAC AGTTAAATTT 
AAGGTTGCTT TTAATGCTTT TAAAAACAAG ATCCTGAGTG ATATTGCGTT GGATGACATT 
AGCCTAACAT ATGGGATTTG CAATGGGAGT CTTTATCCAG AACCAACTTT GGTGCCAACT 
CCTCCACCAG AACTTCCTAC GGACTGTGGA GGACCTTTTG AGCTGTGGGA GCCAAATACA 
ACATTCAGTT CTACGAACTT TCCAAACAGC TACCCTAATC TGGCTTTCTG TGTTTGGATT 
TTAAATGCAC AAAAAGGAAA GAATATACAA CTTCATTTTC AAGAATTTGA CTTAGAAAAT 
ATTAACGATG TAGTTGAAAT AAGAGATGGT GAAGAAGCTG ATTCCTTGCT CTTAGCTGTG 
TACACAGGGC CTGGCCCAGT AAAGGATGTG TTCTCTACCA CCAACAGAAT GACTGTGCTT 
CTCATCACTA ACGATGTGTT GGCAAGAGGA GGGTTTAAAG CAAACTTTAC TACTGGCTAT 
CACTTGGGGA TTCCAGAGCC ATGCAAGGCA GACCATTTTC AATGTAAAAA TGGAGAGTGT 
GTTCCACTGG TGAATCTCTG TGACGGTCAT CTGCACTGTG AGGATGGCTC AGATGAAGCA 
GATTGTGTGC GTTTTTTCAA TGGCACAACG AACAACAATG GTTTAGTGCG GTTCAGAATC 
CAGAGCATAT GGCATACAGC TTGTGCTGAG AACTGGACCA CCCAGATTTC AAATGATGTT 
TGTCAACTGC TGGGACTAGG GAGTGGAAAC TCATCAAAGC CAATCTTCCC TACCGATGGT 
GGACCATTTG TCAAATTAAA CACAGCACCT GATGGCCACT TAATACTAAC ACCCAGTCAA 
CAGTGTTTAC AGGATTCCTT GATTCGGTTA CAGTGTAACC ATAAATCTTG TGGAAAAAAA 
CTGGCAGCTC AAGACATCAC CCCAAAGATT GTTGGAGGAA GTAATGCCAA AGAAGGGGCC 
TGGCCCTGGG TTGTGGGTCT GTATTATGGC GGCCGACTGC TCTGCGGCGC ATCTCTCGTC 
AGCAGTGACT GGCTGGTGTC CGCCGCACAC TGCGTGTATG GGAGAAACTT AGAGCCATCC 
AAGTGGACAG CAATCCTAGG CCTGCATATG AAATCAAATC TGACCTCTCC TCAAACAGTC 
CCTCGATTAA TAGATGAAAT TGTCATAAAC CCTCATTACA ATAGGCGAAG AAAGGACAAC 
GACATTGCCA TGATGCATCT GGAATTTAAA GTGAATTACA CAGATTACAT ACAACCTATT 
TGTTTACCGG AAGAAAATCA AGTTTTTCCT CCAGGAAGAA ATTGTTCTAT TGCTGGTTGG 
GGGACGGTTG TATATCAAGG TACTACTGCA AACATATTGC AAGAAGCTGA TGTTCCTCTT 
CTATCAAATG AGAGATGCCA ACAGCAGATG CCAGAATATA ACATTACTGA AAATATGATA 
TGTGCAGGCT ATGAAGAAGG AGGAATAGAT TCTTGTCAGG GGGATTCAGG AGGACCATTA 
ATGTGCCAAG AAAACAACAG GTGGTTCCTT GCTGGTGTGA CCTCATTTGG ATACAAGTGT 
GCCCTGCCTA ATCGCCCCGG AGTGTATGCC AGGGTCTCAA GGTTTACCGA ATGGATACAA 
AGTTTTCTAC ATTAG

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

RefSeq	XP_011527956.1
CDS	172..3366
Translation	MGSKRGISSRHHSLSSYEIMFAALFAILVVLCAGLIAVSCLTIKESQRGAALGQSHEARATFKITSGVTYNPNLQDKLSVDFKVLAFDLQQMIDEIFLSSNLKNEYKNSRVLQFDKNWRQAENEVESTVSLYSLYGSWIHQKYQKNGSIIVVFDLFFAQWVSDENVKEELIQGLEANKSSQLVTFHIDLNSVDILASLENFSTVSPATTSDKLTTTSHLATPGNVSIECLPGSSPCTDALTCIKADLFCDGEVNCPDGSDEDNKMCATVCDGRFLLTGSSGSFQATHYPKPSETSVVCQWIIRVNQGLSIKLSFDDFNTYYTDILDIYEGVGSSKILRASIWETNPGTIRIFSNQVTATFLIESDESDYVGFNATYTAFNSSELNNYEKINCNFEDGFCFWVQDLNDDNEWERIQGSTFSPFTGPNFDHTFGNASGFYISTPTGPGGRQERVGLLSLPLDPTLEPACLSFWYHMYGENVHKLSINISNDQNMEKTVFQKEGNYGDNWNYGQVTLNETVKFKVAFNAFKNKILSDIALDDISLTYGICNGSLYPEPTLVPTPPPELPTDCGGPFELWEPNTTFSSTNFPNSYPNLAFCVWILNAQKGKNIQLHFQEFDLENINDVVEIRDGEEADSLLLAVYTGPGPVKDVFSTTNRMTVLLITNDVLARGGFKANFTTGYHLGIPEPCKADHFQCKNGECVPLVNLCDGHLHCEDGSDEADCVRFFNGTTNNNGLVRFRIQSIWHTACAENWTTQISNDVCQLLGLGSGNSSKPIFPTDGGPFVKLNTAPDGHLILTPSQQCLQDSLIRLQCNHKSCGKKLAAQDITPKIVGGSNAKEGAWPWVVGLYYGGRLLCGASLVSSDWLVSAAHCVYGRNLEPSKWTAILGLHMKSNLTSPQTVPRLIDEIVINPHYNRRRKDNDIAMMHLEFKVNYTDYIQPICLPEENQVFPPGRNCSIAGWGTVVYQGTTANILQEADVPLLSNERCQQQMPEYNITENMICAGYEEGGIDSCQGDSGGPLMCQENNRWFLAGVTSFGYKCALPNRPGVYARVSRFTEWIQSFLH

Target ORF information:

RefSeq Version	XM_011529654.2
Organism	Homo sapiens(human)
Definition	Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X1, mRNA.

Target ORF information:

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

XM_011529654.2

ORF Insert Sequence:

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGCATC TTTGGAGAAT 
TTTTCTACAG TAAGCCCTGC AACAACTTCA GACAAGCTAA CAACCACCAG TCATCTGGCA 
ACTCCAGGAA ATGTCTCAAT AGAGTGCCTG CCTGGTTCAA GTCCTTGTAC TGATGCTCTA 
ACGTGTATAA AAGCTGATTT ATTTTGTGAT GGAGAAGTAA ACTGTCCAGA TGGTTCTGAC 
GAAGACAATA AAATGTGTGC CACAGTTTGT GATGGAAGAT TTTTGTTAAC TGGATCATCT 
GGGTCTTTCC AGGCTACTCA TTATCCAAAA CCTTCTGAAA CAAGTGTTGT CTGCCAGTGG 
ATCATACGTG TAAACCAAGG ACTTTCCATT AAACTGAGCT TCGATGATTT TAATACATAT 
TATACAGATA TATTAGATAT TTATGAAGGT GTAGGATCAA GCAAGATTTT AAGAGCTTCT 
ATTTGGGAAA CTAATCCTGG CACAATAAGA ATTTTTTCCA ACCAAGTTAC TGCCACCTTT 
CTTATAGAAT CTGATGAAAG TGATTATGTT GGCTTTAATG CAACATATAC TGCATTTAAC 
AGCAGTGAGC TTAATAATTA TGAGAAAATT AATTGTAACT TTGAGGATGG CTTTTGTTTC 
TGGGTCCAGG ATCTAAATGA TGATAATGAA TGGGAAAGGA TTCAGGGAAG CACCTTTTCT 
CCTTTTACTG GACCCAATTT TGACCACACT TTTGGCAATG CTTCAGGATT TTACATTTCT 
ACCCCAACTG GACCAGGAGG GAGACAAGAA CGAGTGGGGC TTTTAAGCCT CCCTTTGGAC 
CCCACTTTGG AGCCAGCTTG CCTTAGTTTC TGGTATCATA TGTATGGTGA AAATGTCCAT 
AAATTAAGCA TTAATATCAG CAATGACCAA AATATGGAGA AGACAGTTTT CCAAAAGGAA 
GGAAATTATG GAGACAATTG GAATTATGGA CAAGTAACCC TAAATGAAAC AGTTAAATTT 
AAGGTTGCTT TTAATGCTTT TAAAAACAAG ATCCTGAGTG ATATTGCGTT GGATGACATT 
AGCCTAACAT ATGGGATTTG CAATGGGAGT CTTTATCCAG AACCAACTTT GGTGCCAACT 
CCTCCACCAG AACTTCCTAC GGACTGTGGA GGACCTTTTG AGCTGTGGGA GCCAAATACA 
ACATTCAGTT CTACGAACTT TCCAAACAGC TACCCTAATC TGGCTTTCTG TGTTTGGATT 
TTAAATGCAC AAAAAGGAAA GAATATACAA CTTCATTTTC AAGAATTTGA CTTAGAAAAT 
ATTAACGATG TAGTTGAAAT AAGAGATGGT GAAGAAGCTG ATTCCTTGCT CTTAGCTGTG 
TACACAGGGC CTGGCCCAGT AAAGGATGTG TTCTCTACCA CCAACAGAAT GACTGTGCTT 
CTCATCACTA ACGATGTGTT GGCAAGAGGA GGGTTTAAAG CAAACTTTAC TACTGGCTAT 
CACTTGGGGA TTCCAGAGCC ATGCAAGGCA GACCATTTTC AATGTAAAAA TGGAGAGTGT 
GTTCCACTGG TGAATCTCTG TGACGGTCAT CTGCACTGTG AGGATGGCTC AGATGAAGCA 
GATTGTGTGC GTTTTTTCAA TGGCACAACG AACAACAATG GTTTAGTGCG GTTCAGAATC 
CAGAGCATAT GGCATACAGC TTGTGCTGAG AACTGGACCA CCCAGATTTC AAATGATGTT 
TGTCAACTGC TGGGACTAGG GAGTGGAAAC TCATCAAAGC CAATCTTCCC TACCGATGGT 
GGACCATTTG TCAAATTAAA CACAGCACCT GATGGCCACT TAATACTAAC ACCCAGTCAA 
CAGTGTTTAC AGGATTCCTT GATTCGGTTA CAGTGTAACC ATAAATCTTG TGGAAAAAAA 
CTGGCAGCTC AAGACATCAC CCCAAAGATT GTTGGAGGAA GTAATGCCAA AGAAGGGGCC 
TGGCCCTGGG TTGTGGGTCT GTATTATGGC GGCCGACTGC TCTGCGGCGC ATCTCTCGTC 
AGCAGTGACT GGCTGGTGTC CGCCGCACAC TGCGTGTATG GGAGAAACTT AGAGCCATCC 
AAGTGGACAG CAATCCTAGG CCTGCATATG AAATCAAATC TGACCTCTCC TCAAACAGTC 
CCTCGATTAA TAGATGAAAT TGTCATAAAC CCTCATTACA ATAGGCGAAG AAAGGACAAC 
GACATTGCCA TGATGCATCT GGAATTTAAA GTGAATTACA CAGATTACAT ACAACCTATT 
TGTTTACCGG AAGAAAATCA AGTTTTTCCT CCAGGAAGAA ATTGTTCTAT TGCTGGTTGG 
GGGACGGTTG TATATCAAGG TACTACTGCA AACATATTGC AAGAAGCTGA TGTTCCTCTT 
CTATCAAATG AGAGATGCCA ACAGCAGATG CCAGAATATA ACATTACTGA AAATATGATA 
TGTGCAGGCT ATGAAGAAGG AGGAATAGAT TCTTGTCAGG GGGATTCAGG AGGACCATTA 
ATGTGCCAAG AAAACAACAG GTGGTTCCTT GCTGGTGTGA CCTCATTTGG ATACAAGTGT 
GCCCTGCCTA ATCGCCCCGG AGTGTATGCC AGGGTCTCAA GGTTTACCGA ATGGATACAA 
AGTTTTCTAC ATTAG

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

TMPRSS15 ( XM_011529654.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011527956.1 Homo sapiens transmembrane protease, serine 15 (TMPRSS15), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu59972
Clone ID Related Accession (Same CDS sequence)	XM_011529654.2 , XM_011529654.1 , XM_011529655.1 , XM_011529656.2
Accession Version	XM_011529654.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3195bp) 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	enteropeptidase isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000021.9) 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##

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGCATC TTTGGAGAAT 
TTTTCTACAG TAAGCCCTGC AACAACTTCA GACAAGCTAA CAACCACCAG TCATCTGGCA 
ACTCCAGGAA ATGTCTCAAT AGAGTGCCTG CCTGGTTCAA GTCCTTGTAC TGATGCTCTA 
ACGTGTATAA AAGCTGATTT ATTTTGTGAT GGAGAAGTAA ACTGTCCAGA TGGTTCTGAC 
GAAGACAATA AAATGTGTGC CACAGTTTGT GATGGAAGAT TTTTGTTAAC TGGATCATCT 
GGGTCTTTCC AGGCTACTCA TTATCCAAAA CCTTCTGAAA CAAGTGTTGT CTGCCAGTGG 
ATCATACGTG TAAACCAAGG ACTTTCCATT AAACTGAGCT TCGATGATTT TAATACATAT 
TATACAGATA TATTAGATAT TTATGAAGGT GTAGGATCAA GCAAGATTTT AAGAGCTTCT 
ATTTGGGAAA CTAATCCTGG CACAATAAGA ATTTTTTCCA ACCAAGTTAC TGCCACCTTT 
CTTATAGAAT CTGATGAAAG TGATTATGTT GGCTTTAATG CAACATATAC TGCATTTAAC 
AGCAGTGAGC TTAATAATTA TGAGAAAATT AATTGTAACT TTGAGGATGG CTTTTGTTTC 
TGGGTCCAGG ATCTAAATGA TGATAATGAA TGGGAAAGGA TTCAGGGAAG CACCTTTTCT 
CCTTTTACTG GACCCAATTT TGACCACACT TTTGGCAATG CTTCAGGATT TTACATTTCT 
ACCCCAACTG GACCAGGAGG GAGACAAGAA CGAGTGGGGC TTTTAAGCCT CCCTTTGGAC 
CCCACTTTGG AGCCAGCTTG CCTTAGTTTC TGGTATCATA TGTATGGTGA AAATGTCCAT 
AAATTAAGCA TTAATATCAG CAATGACCAA AATATGGAGA AGACAGTTTT CCAAAAGGAA 
GGAAATTATG GAGACAATTG GAATTATGGA CAAGTAACCC TAAATGAAAC AGTTAAATTT 
AAGGTTGCTT TTAATGCTTT TAAAAACAAG ATCCTGAGTG ATATTGCGTT GGATGACATT 
AGCCTAACAT ATGGGATTTG CAATGGGAGT CTTTATCCAG AACCAACTTT GGTGCCAACT 
CCTCCACCAG AACTTCCTAC GGACTGTGGA GGACCTTTTG AGCTGTGGGA GCCAAATACA 
ACATTCAGTT CTACGAACTT TCCAAACAGC TACCCTAATC TGGCTTTCTG TGTTTGGATT 
TTAAATGCAC AAAAAGGAAA GAATATACAA CTTCATTTTC AAGAATTTGA CTTAGAAAAT 
ATTAACGATG TAGTTGAAAT AAGAGATGGT GAAGAAGCTG ATTCCTTGCT CTTAGCTGTG 
TACACAGGGC CTGGCCCAGT AAAGGATGTG TTCTCTACCA CCAACAGAAT GACTGTGCTT 
CTCATCACTA ACGATGTGTT GGCAAGAGGA GGGTTTAAAG CAAACTTTAC TACTGGCTAT 
CACTTGGGGA TTCCAGAGCC ATGCAAGGCA GACCATTTTC AATGTAAAAA TGGAGAGTGT 
GTTCCACTGG TGAATCTCTG TGACGGTCAT CTGCACTGTG AGGATGGCTC AGATGAAGCA 
GATTGTGTGC GTTTTTTCAA TGGCACAACG AACAACAATG GTTTAGTGCG GTTCAGAATC 
CAGAGCATAT GGCATACAGC TTGTGCTGAG AACTGGACCA CCCAGATTTC AAATGATGTT 
TGTCAACTGC TGGGACTAGG GAGTGGAAAC TCATCAAAGC CAATCTTCCC TACCGATGGT 
GGACCATTTG TCAAATTAAA CACAGCACCT GATGGCCACT TAATACTAAC ACCCAGTCAA 
CAGTGTTTAC AGGATTCCTT GATTCGGTTA CAGTGTAACC ATAAATCTTG TGGAAAAAAA 
CTGGCAGCTC AAGACATCAC CCCAAAGATT GTTGGAGGAA GTAATGCCAA AGAAGGGGCC 
TGGCCCTGGG TTGTGGGTCT GTATTATGGC GGCCGACTGC TCTGCGGCGC ATCTCTCGTC 
AGCAGTGACT GGCTGGTGTC CGCCGCACAC TGCGTGTATG GGAGAAACTT AGAGCCATCC 
AAGTGGACAG CAATCCTAGG CCTGCATATG AAATCAAATC TGACCTCTCC TCAAACAGTC 
CCTCGATTAA TAGATGAAAT TGTCATAAAC CCTCATTACA ATAGGCGAAG AAAGGACAAC 
GACATTGCCA TGATGCATCT GGAATTTAAA GTGAATTACA CAGATTACAT ACAACCTATT 
TGTTTACCGG AAGAAAATCA AGTTTTTCCT CCAGGAAGAA ATTGTTCTAT TGCTGGTTGG 
GGGACGGTTG TATATCAAGG TACTACTGCA AACATATTGC AAGAAGCTGA TGTTCCTCTT 
CTATCAAATG AGAGATGCCA ACAGCAGATG CCAGAATATA ACATTACTGA AAATATGATA 
TGTGCAGGCT ATGAAGAAGG AGGAATAGAT TCTTGTCAGG GGGATTCAGG AGGACCATTA 
ATGTGCCAAG AAAACAACAG GTGGTTCCTT GCTGGTGTGA CCTCATTTGG ATACAAGTGT 
GCCCTGCCTA ATCGCCCCGG AGTGTATGCC AGGGTCTCAA GGTTTACCGA ATGGATACAA 
AGTTTTCTAC ATTAG

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

RefSeq	XP_011527956.1
CDS	171..3365
Translation	MGSKRGISSRHHSLSSYEIMFAALFAILVVLCAGLIAVSCLTIKESQRGAALGQSHEARATFKITSGVTYNPNLQDKLSVDFKVLAFDLQQMIDEIFLSSNLKNEYKNSRVLQFDKNWRQAENEVESTVSLYSLYGSWIHQKYQKNGSIIVVFDLFFAQWVSDENVKEELIQGLEANKSSQLVTFHIDLNSVDILASLENFSTVSPATTSDKLTTTSHLATPGNVSIECLPGSSPCTDALTCIKADLFCDGEVNCPDGSDEDNKMCATVCDGRFLLTGSSGSFQATHYPKPSETSVVCQWIIRVNQGLSIKLSFDDFNTYYTDILDIYEGVGSSKILRASIWETNPGTIRIFSNQVTATFLIESDESDYVGFNATYTAFNSSELNNYEKINCNFEDGFCFWVQDLNDDNEWERIQGSTFSPFTGPNFDHTFGNASGFYISTPTGPGGRQERVGLLSLPLDPTLEPACLSFWYHMYGENVHKLSINISNDQNMEKTVFQKEGNYGDNWNYGQVTLNETVKFKVAFNAFKNKILSDIALDDISLTYGICNGSLYPEPTLVPTPPPELPTDCGGPFELWEPNTTFSSTNFPNSYPNLAFCVWILNAQKGKNIQLHFQEFDLENINDVVEIRDGEEADSLLLAVYTGPGPVKDVFSTTNRMTVLLITNDVLARGGFKANFTTGYHLGIPEPCKADHFQCKNGECVPLVNLCDGHLHCEDGSDEADCVRFFNGTTNNNGLVRFRIQSIWHTACAENWTTQISNDVCQLLGLGSGNSSKPIFPTDGGPFVKLNTAPDGHLILTPSQQCLQDSLIRLQCNHKSCGKKLAAQDITPKIVGGSNAKEGAWPWVVGLYYGGRLLCGASLVSSDWLVSAAHCVYGRNLEPSKWTAILGLHMKSNLTSPQTVPRLIDEIVINPHYNRRRKDNDIAMMHLEFKVNYTDYIQPICLPEENQVFPPGRNCSIAGWGTVVYQGTTANILQEADVPLLSNERCQQQMPEYNITENMICAGYEEGGIDSCQGDSGGPLMCQENNRWFLAGVTSFGYKCALPNRPGVYARVSRFTEWIQSFLH

Target ORF information:

RefSeq Version	XM_011529654.1
Organism	Homo sapiens(human)
Definition	Homo sapiens transmembrane protease, serine 15 (TMPRSS15), transcript variant X1, mRNA.

Target ORF information:

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

XM_011529654.1

ORF Insert Sequence:

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGCATC TTTGGAGAAT 
TTTTCTACAG TAAGCCCTGC AACAACTTCA GACAAGCTAA CAACCACCAG TCATCTGGCA 
ACTCCAGGAA ATGTCTCAAT AGAGTGCCTG CCTGGTTCAA GTCCTTGTAC TGATGCTCTA 
ACGTGTATAA AAGCTGATTT ATTTTGTGAT GGAGAAGTAA ACTGTCCAGA TGGTTCTGAC 
GAAGACAATA AAATGTGTGC CACAGTTTGT GATGGAAGAT TTTTGTTAAC TGGATCATCT 
GGGTCTTTCC AGGCTACTCA TTATCCAAAA CCTTCTGAAA CAAGTGTTGT CTGCCAGTGG 
ATCATACGTG TAAACCAAGG ACTTTCCATT AAACTGAGCT TCGATGATTT TAATACATAT 
TATACAGATA TATTAGATAT TTATGAAGGT GTAGGATCAA GCAAGATTTT AAGAGCTTCT 
ATTTGGGAAA CTAATCCTGG CACAATAAGA ATTTTTTCCA ACCAAGTTAC TGCCACCTTT 
CTTATAGAAT CTGATGAAAG TGATTATGTT GGCTTTAATG CAACATATAC TGCATTTAAC 
AGCAGTGAGC TTAATAATTA TGAGAAAATT AATTGTAACT TTGAGGATGG CTTTTGTTTC 
TGGGTCCAGG ATCTAAATGA TGATAATGAA TGGGAAAGGA TTCAGGGAAG CACCTTTTCT 
CCTTTTACTG GACCCAATTT TGACCACACT TTTGGCAATG CTTCAGGATT TTACATTTCT 
ACCCCAACTG GACCAGGAGG GAGACAAGAA CGAGTGGGGC TTTTAAGCCT CCCTTTGGAC 
CCCACTTTGG AGCCAGCTTG CCTTAGTTTC TGGTATCATA TGTATGGTGA AAATGTCCAT 
AAATTAAGCA TTAATATCAG CAATGACCAA AATATGGAGA AGACAGTTTT CCAAAAGGAA 
GGAAATTATG GAGACAATTG GAATTATGGA CAAGTAACCC TAAATGAAAC AGTTAAATTT 
AAGGTTGCTT TTAATGCTTT TAAAAACAAG ATCCTGAGTG ATATTGCGTT GGATGACATT 
AGCCTAACAT ATGGGATTTG CAATGGGAGT CTTTATCCAG AACCAACTTT GGTGCCAACT 
CCTCCACCAG AACTTCCTAC GGACTGTGGA GGACCTTTTG AGCTGTGGGA GCCAAATACA 
ACATTCAGTT CTACGAACTT TCCAAACAGC TACCCTAATC TGGCTTTCTG TGTTTGGATT 
TTAAATGCAC AAAAAGGAAA GAATATACAA CTTCATTTTC AAGAATTTGA CTTAGAAAAT 
ATTAACGATG TAGTTGAAAT AAGAGATGGT GAAGAAGCTG ATTCCTTGCT CTTAGCTGTG 
TACACAGGGC CTGGCCCAGT AAAGGATGTG TTCTCTACCA CCAACAGAAT GACTGTGCTT 
CTCATCACTA ACGATGTGTT GGCAAGAGGA GGGTTTAAAG CAAACTTTAC TACTGGCTAT 
CACTTGGGGA TTCCAGAGCC ATGCAAGGCA GACCATTTTC AATGTAAAAA TGGAGAGTGT 
GTTCCACTGG TGAATCTCTG TGACGGTCAT CTGCACTGTG AGGATGGCTC AGATGAAGCA 
GATTGTGTGC GTTTTTTCAA TGGCACAACG AACAACAATG GTTTAGTGCG GTTCAGAATC 
CAGAGCATAT GGCATACAGC TTGTGCTGAG AACTGGACCA CCCAGATTTC AAATGATGTT 
TGTCAACTGC TGGGACTAGG GAGTGGAAAC TCATCAAAGC CAATCTTCCC TACCGATGGT 
GGACCATTTG TCAAATTAAA CACAGCACCT GATGGCCACT TAATACTAAC ACCCAGTCAA 
CAGTGTTTAC AGGATTCCTT GATTCGGTTA CAGTGTAACC ATAAATCTTG TGGAAAAAAA 
CTGGCAGCTC AAGACATCAC CCCAAAGATT GTTGGAGGAA GTAATGCCAA AGAAGGGGCC 
TGGCCCTGGG TTGTGGGTCT GTATTATGGC GGCCGACTGC TCTGCGGCGC ATCTCTCGTC 
AGCAGTGACT GGCTGGTGTC CGCCGCACAC TGCGTGTATG GGAGAAACTT AGAGCCATCC 
AAGTGGACAG CAATCCTAGG CCTGCATATG AAATCAAATC TGACCTCTCC TCAAACAGTC 
CCTCGATTAA TAGATGAAAT TGTCATAAAC CCTCATTACA ATAGGCGAAG AAAGGACAAC 
GACATTGCCA TGATGCATCT GGAATTTAAA GTGAATTACA CAGATTACAT ACAACCTATT 
TGTTTACCGG AAGAAAATCA AGTTTTTCCT CCAGGAAGAA ATTGTTCTAT TGCTGGTTGG 
GGGACGGTTG TATATCAAGG TACTACTGCA AACATATTGC AAGAAGCTGA TGTTCCTCTT 
CTATCAAATG AGAGATGCCA ACAGCAGATG CCAGAATATA ACATTACTGA AAATATGATA 
TGTGCAGGCT ATGAAGAAGG AGGAATAGAT TCTTGTCAGG GGGATTCAGG AGGACCATTA 
ATGTGCCAAG AAAACAACAG GTGGTTCCTT GCTGGTGTGA CCTCATTTGG ATACAAGTGT 
GCCCTGCCTA ATCGCCCCGG AGTGTATGCC AGGGTCTCAA GGTTTACCGA ATGGATACAA 
AGTTTTCTAC ATTAG

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

TMPRSS15 ( XM_011529655.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011527957.1 Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OHu59972
Clone ID Related Accession (Same CDS sequence)	XM_011529654.2 , XM_011529654.1 , XM_011529655.1 , XM_011529656.2
Accession Version	XM_011529655.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3195bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	enteropeptidase isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000021.9) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGCATC TTTGGAGAAT 
TTTTCTACAG TAAGCCCTGC AACAACTTCA GACAAGCTAA CAACCACCAG TCATCTGGCA 
ACTCCAGGAA ATGTCTCAAT AGAGTGCCTG CCTGGTTCAA GTCCTTGTAC TGATGCTCTA 
ACGTGTATAA AAGCTGATTT ATTTTGTGAT GGAGAAGTAA ACTGTCCAGA TGGTTCTGAC 
GAAGACAATA AAATGTGTGC CACAGTTTGT GATGGAAGAT TTTTGTTAAC TGGATCATCT 
GGGTCTTTCC AGGCTACTCA TTATCCAAAA CCTTCTGAAA CAAGTGTTGT CTGCCAGTGG 
ATCATACGTG TAAACCAAGG ACTTTCCATT AAACTGAGCT TCGATGATTT TAATACATAT 
TATACAGATA TATTAGATAT TTATGAAGGT GTAGGATCAA GCAAGATTTT AAGAGCTTCT 
ATTTGGGAAA CTAATCCTGG CACAATAAGA ATTTTTTCCA ACCAAGTTAC TGCCACCTTT 
CTTATAGAAT CTGATGAAAG TGATTATGTT GGCTTTAATG CAACATATAC TGCATTTAAC 
AGCAGTGAGC TTAATAATTA TGAGAAAATT AATTGTAACT TTGAGGATGG CTTTTGTTTC 
TGGGTCCAGG ATCTAAATGA TGATAATGAA TGGGAAAGGA TTCAGGGAAG CACCTTTTCT 
CCTTTTACTG GACCCAATTT TGACCACACT TTTGGCAATG CTTCAGGATT TTACATTTCT 
ACCCCAACTG GACCAGGAGG GAGACAAGAA CGAGTGGGGC TTTTAAGCCT CCCTTTGGAC 
CCCACTTTGG AGCCAGCTTG CCTTAGTTTC TGGTATCATA TGTATGGTGA AAATGTCCAT 
AAATTAAGCA TTAATATCAG CAATGACCAA AATATGGAGA AGACAGTTTT CCAAAAGGAA 
GGAAATTATG GAGACAATTG GAATTATGGA CAAGTAACCC TAAATGAAAC AGTTAAATTT 
AAGGTTGCTT TTAATGCTTT TAAAAACAAG ATCCTGAGTG ATATTGCGTT GGATGACATT 
AGCCTAACAT ATGGGATTTG CAATGGGAGT CTTTATCCAG AACCAACTTT GGTGCCAACT 
CCTCCACCAG AACTTCCTAC GGACTGTGGA GGACCTTTTG AGCTGTGGGA GCCAAATACA 
ACATTCAGTT CTACGAACTT TCCAAACAGC TACCCTAATC TGGCTTTCTG TGTTTGGATT 
TTAAATGCAC AAAAAGGAAA GAATATACAA CTTCATTTTC AAGAATTTGA CTTAGAAAAT 
ATTAACGATG TAGTTGAAAT AAGAGATGGT GAAGAAGCTG ATTCCTTGCT CTTAGCTGTG 
TACACAGGGC CTGGCCCAGT AAAGGATGTG TTCTCTACCA CCAACAGAAT GACTGTGCTT 
CTCATCACTA ACGATGTGTT GGCAAGAGGA GGGTTTAAAG CAAACTTTAC TACTGGCTAT 
CACTTGGGGA TTCCAGAGCC ATGCAAGGCA GACCATTTTC AATGTAAAAA TGGAGAGTGT 
GTTCCACTGG TGAATCTCTG TGACGGTCAT CTGCACTGTG AGGATGGCTC AGATGAAGCA 
GATTGTGTGC GTTTTTTCAA TGGCACAACG AACAACAATG GTTTAGTGCG GTTCAGAATC 
CAGAGCATAT GGCATACAGC TTGTGCTGAG AACTGGACCA CCCAGATTTC AAATGATGTT 
TGTCAACTGC TGGGACTAGG GAGTGGAAAC TCATCAAAGC CAATCTTCCC TACCGATGGT 
GGACCATTTG TCAAATTAAA CACAGCACCT GATGGCCACT TAATACTAAC ACCCAGTCAA 
CAGTGTTTAC AGGATTCCTT GATTCGGTTA CAGTGTAACC ATAAATCTTG TGGAAAAAAA 
CTGGCAGCTC AAGACATCAC CCCAAAGATT GTTGGAGGAA GTAATGCCAA AGAAGGGGCC 
TGGCCCTGGG TTGTGGGTCT GTATTATGGC GGCCGACTGC TCTGCGGCGC ATCTCTCGTC 
AGCAGTGACT GGCTGGTGTC CGCCGCACAC TGCGTGTATG GGAGAAACTT AGAGCCATCC 
AAGTGGACAG CAATCCTAGG CCTGCATATG AAATCAAATC TGACCTCTCC TCAAACAGTC 
CCTCGATTAA TAGATGAAAT TGTCATAAAC CCTCATTACA ATAGGCGAAG AAAGGACAAC 
GACATTGCCA TGATGCATCT GGAATTTAAA GTGAATTACA CAGATTACAT ACAACCTATT 
TGTTTACCGG AAGAAAATCA AGTTTTTCCT CCAGGAAGAA ATTGTTCTAT TGCTGGTTGG 
GGGACGGTTG TATATCAAGG TACTACTGCA AACATATTGC AAGAAGCTGA TGTTCCTCTT 
CTATCAAATG AGAGATGCCA ACAGCAGATG CCAGAATATA ACATTACTGA AAATATGATA 
TGTGCAGGCT ATGAAGAAGG AGGAATAGAT TCTTGTCAGG GGGATTCAGG AGGACCATTA 
ATGTGCCAAG AAAACAACAG GTGGTTCCTT GCTGGTGTGA CCTCATTTGG ATACAAGTGT 
GCCCTGCCTA ATCGCCCCGG AGTGTATGCC AGGGTCTCAA GGTTTACCGA ATGGATACAA 
AGTTTTCTAC ATTAG

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

RefSeq	XP_011527957.1
CDS	89..3283
Translation	MGSKRGISSRHHSLSSYEIMFAALFAILVVLCAGLIAVSCLTIKESQRGAALGQSHEARATFKITSGVTYNPNLQDKLSVDFKVLAFDLQQMIDEIFLSSNLKNEYKNSRVLQFDKNWRQAENEVESTVSLYSLYGSWIHQKYQKNGSIIVVFDLFFAQWVSDENVKEELIQGLEANKSSQLVTFHIDLNSVDILASLENFSTVSPATTSDKLTTTSHLATPGNVSIECLPGSSPCTDALTCIKADLFCDGEVNCPDGSDEDNKMCATVCDGRFLLTGSSGSFQATHYPKPSETSVVCQWIIRVNQGLSIKLSFDDFNTYYTDILDIYEGVGSSKILRASIWETNPGTIRIFSNQVTATFLIESDESDYVGFNATYTAFNSSELNNYEKINCNFEDGFCFWVQDLNDDNEWERIQGSTFSPFTGPNFDHTFGNASGFYISTPTGPGGRQERVGLLSLPLDPTLEPACLSFWYHMYGENVHKLSINISNDQNMEKTVFQKEGNYGDNWNYGQVTLNETVKFKVAFNAFKNKILSDIALDDISLTYGICNGSLYPEPTLVPTPPPELPTDCGGPFELWEPNTTFSSTNFPNSYPNLAFCVWILNAQKGKNIQLHFQEFDLENINDVVEIRDGEEADSLLLAVYTGPGPVKDVFSTTNRMTVLLITNDVLARGGFKANFTTGYHLGIPEPCKADHFQCKNGECVPLVNLCDGHLHCEDGSDEADCVRFFNGTTNNNGLVRFRIQSIWHTACAENWTTQISNDVCQLLGLGSGNSSKPIFPTDGGPFVKLNTAPDGHLILTPSQQCLQDSLIRLQCNHKSCGKKLAAQDITPKIVGGSNAKEGAWPWVVGLYYGGRLLCGASLVSSDWLVSAAHCVYGRNLEPSKWTAILGLHMKSNLTSPQTVPRLIDEIVINPHYNRRRKDNDIAMMHLEFKVNYTDYIQPICLPEENQVFPPGRNCSIAGWGTVVYQGTTANILQEADVPLLSNERCQQQMPEYNITENMICAGYEEGGIDSCQGDSGGPLMCQENNRWFLAGVTSFGYKCALPNRPGVYARVSRFTEWIQSFLH

Target ORF information:

RefSeq Version	XM_011529655.1
Organism	Homo sapiens(human)
Definition	Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X2, mRNA.

Target ORF information:

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

XM_011529655.1

ORF Insert Sequence:

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGCATC TTTGGAGAAT 
TTTTCTACAG TAAGCCCTGC AACAACTTCA GACAAGCTAA CAACCACCAG TCATCTGGCA 
ACTCCAGGAA ATGTCTCAAT AGAGTGCCTG CCTGGTTCAA GTCCTTGTAC TGATGCTCTA 
ACGTGTATAA AAGCTGATTT ATTTTGTGAT GGAGAAGTAA ACTGTCCAGA TGGTTCTGAC 
GAAGACAATA AAATGTGTGC CACAGTTTGT GATGGAAGAT TTTTGTTAAC TGGATCATCT 
GGGTCTTTCC AGGCTACTCA TTATCCAAAA CCTTCTGAAA CAAGTGTTGT CTGCCAGTGG 
ATCATACGTG TAAACCAAGG ACTTTCCATT AAACTGAGCT TCGATGATTT TAATACATAT 
TATACAGATA TATTAGATAT TTATGAAGGT GTAGGATCAA GCAAGATTTT AAGAGCTTCT 
ATTTGGGAAA CTAATCCTGG CACAATAAGA ATTTTTTCCA ACCAAGTTAC TGCCACCTTT 
CTTATAGAAT CTGATGAAAG TGATTATGTT GGCTTTAATG CAACATATAC TGCATTTAAC 
AGCAGTGAGC TTAATAATTA TGAGAAAATT AATTGTAACT TTGAGGATGG CTTTTGTTTC 
TGGGTCCAGG ATCTAAATGA TGATAATGAA TGGGAAAGGA TTCAGGGAAG CACCTTTTCT 
CCTTTTACTG GACCCAATTT TGACCACACT TTTGGCAATG CTTCAGGATT TTACATTTCT 
ACCCCAACTG GACCAGGAGG GAGACAAGAA CGAGTGGGGC TTTTAAGCCT CCCTTTGGAC 
CCCACTTTGG AGCCAGCTTG CCTTAGTTTC TGGTATCATA TGTATGGTGA AAATGTCCAT 
AAATTAAGCA TTAATATCAG CAATGACCAA AATATGGAGA AGACAGTTTT CCAAAAGGAA 
GGAAATTATG GAGACAATTG GAATTATGGA CAAGTAACCC TAAATGAAAC AGTTAAATTT 
AAGGTTGCTT TTAATGCTTT TAAAAACAAG ATCCTGAGTG ATATTGCGTT GGATGACATT 
AGCCTAACAT ATGGGATTTG CAATGGGAGT CTTTATCCAG AACCAACTTT GGTGCCAACT 
CCTCCACCAG AACTTCCTAC GGACTGTGGA GGACCTTTTG AGCTGTGGGA GCCAAATACA 
ACATTCAGTT CTACGAACTT TCCAAACAGC TACCCTAATC TGGCTTTCTG TGTTTGGATT 
TTAAATGCAC AAAAAGGAAA GAATATACAA CTTCATTTTC AAGAATTTGA CTTAGAAAAT 
ATTAACGATG TAGTTGAAAT AAGAGATGGT GAAGAAGCTG ATTCCTTGCT CTTAGCTGTG 
TACACAGGGC CTGGCCCAGT AAAGGATGTG TTCTCTACCA CCAACAGAAT GACTGTGCTT 
CTCATCACTA ACGATGTGTT GGCAAGAGGA GGGTTTAAAG CAAACTTTAC TACTGGCTAT 
CACTTGGGGA TTCCAGAGCC ATGCAAGGCA GACCATTTTC AATGTAAAAA TGGAGAGTGT 
GTTCCACTGG TGAATCTCTG TGACGGTCAT CTGCACTGTG AGGATGGCTC AGATGAAGCA 
GATTGTGTGC GTTTTTTCAA TGGCACAACG AACAACAATG GTTTAGTGCG GTTCAGAATC 
CAGAGCATAT GGCATACAGC TTGTGCTGAG AACTGGACCA CCCAGATTTC AAATGATGTT 
TGTCAACTGC TGGGACTAGG GAGTGGAAAC TCATCAAAGC CAATCTTCCC TACCGATGGT 
GGACCATTTG TCAAATTAAA CACAGCACCT GATGGCCACT TAATACTAAC ACCCAGTCAA 
CAGTGTTTAC AGGATTCCTT GATTCGGTTA CAGTGTAACC ATAAATCTTG TGGAAAAAAA 
CTGGCAGCTC AAGACATCAC CCCAAAGATT GTTGGAGGAA GTAATGCCAA AGAAGGGGCC 
TGGCCCTGGG TTGTGGGTCT GTATTATGGC GGCCGACTGC TCTGCGGCGC ATCTCTCGTC 
AGCAGTGACT GGCTGGTGTC CGCCGCACAC TGCGTGTATG GGAGAAACTT AGAGCCATCC 
AAGTGGACAG CAATCCTAGG CCTGCATATG AAATCAAATC TGACCTCTCC TCAAACAGTC 
CCTCGATTAA TAGATGAAAT TGTCATAAAC CCTCATTACA ATAGGCGAAG AAAGGACAAC 
GACATTGCCA TGATGCATCT GGAATTTAAA GTGAATTACA CAGATTACAT ACAACCTATT 
TGTTTACCGG AAGAAAATCA AGTTTTTCCT CCAGGAAGAA ATTGTTCTAT TGCTGGTTGG 
GGGACGGTTG TATATCAAGG TACTACTGCA AACATATTGC AAGAAGCTGA TGTTCCTCTT 
CTATCAAATG AGAGATGCCA ACAGCAGATG CCAGAATATA ACATTACTGA AAATATGATA 
TGTGCAGGCT ATGAAGAAGG AGGAATAGAT TCTTGTCAGG GGGATTCAGG AGGACCATTA 
ATGTGCCAAG AAAACAACAG GTGGTTCCTT GCTGGTGTGA CCTCATTTGG ATACAAGTGT 
GCCCTGCCTA ATCGCCCCGG AGTGTATGCC AGGGTCTCAA GGTTTACCGA ATGGATACAA 
AGTTTTCTAC ATTAG

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

TMPRSS15 ( XM_011529656.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011527958.1 Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X3, mRNA.

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CloneID	OHu59972
Clone ID Related Accession (Same CDS sequence)	XM_011529654.2 , XM_011529654.1 , XM_011529655.1 , XM_011529656.2
Accession Version	XM_011529656.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3195bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	enteropeptidase isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000021.9) 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_011529656.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGCATC TTTGGAGAAT 
TTTTCTACAG TAAGCCCTGC AACAACTTCA GACAAGCTAA CAACCACCAG TCATCTGGCA 
ACTCCAGGAA ATGTCTCAAT AGAGTGCCTG CCTGGTTCAA GTCCTTGTAC TGATGCTCTA 
ACGTGTATAA AAGCTGATTT ATTTTGTGAT GGAGAAGTAA ACTGTCCAGA TGGTTCTGAC 
GAAGACAATA AAATGTGTGC CACAGTTTGT GATGGAAGAT TTTTGTTAAC TGGATCATCT 
GGGTCTTTCC AGGCTACTCA TTATCCAAAA CCTTCTGAAA CAAGTGTTGT CTGCCAGTGG 
ATCATACGTG TAAACCAAGG ACTTTCCATT AAACTGAGCT TCGATGATTT TAATACATAT 
TATACAGATA TATTAGATAT TTATGAAGGT GTAGGATCAA GCAAGATTTT AAGAGCTTCT 
ATTTGGGAAA CTAATCCTGG CACAATAAGA ATTTTTTCCA ACCAAGTTAC TGCCACCTTT 
CTTATAGAAT CTGATGAAAG TGATTATGTT GGCTTTAATG CAACATATAC TGCATTTAAC 
AGCAGTGAGC TTAATAATTA TGAGAAAATT AATTGTAACT TTGAGGATGG CTTTTGTTTC 
TGGGTCCAGG ATCTAAATGA TGATAATGAA TGGGAAAGGA TTCAGGGAAG CACCTTTTCT 
CCTTTTACTG GACCCAATTT TGACCACACT TTTGGCAATG CTTCAGGATT TTACATTTCT 
ACCCCAACTG GACCAGGAGG GAGACAAGAA CGAGTGGGGC TTTTAAGCCT CCCTTTGGAC 
CCCACTTTGG AGCCAGCTTG CCTTAGTTTC TGGTATCATA TGTATGGTGA AAATGTCCAT 
AAATTAAGCA TTAATATCAG CAATGACCAA AATATGGAGA AGACAGTTTT CCAAAAGGAA 
GGAAATTATG GAGACAATTG GAATTATGGA CAAGTAACCC TAAATGAAAC AGTTAAATTT 
AAGGTTGCTT TTAATGCTTT TAAAAACAAG ATCCTGAGTG ATATTGCGTT GGATGACATT 
AGCCTAACAT ATGGGATTTG CAATGGGAGT CTTTATCCAG AACCAACTTT GGTGCCAACT 
CCTCCACCAG AACTTCCTAC GGACTGTGGA GGACCTTTTG AGCTGTGGGA GCCAAATACA 
ACATTCAGTT CTACGAACTT TCCAAACAGC TACCCTAATC TGGCTTTCTG TGTTTGGATT 
TTAAATGCAC AAAAAGGAAA GAATATACAA CTTCATTTTC AAGAATTTGA CTTAGAAAAT 
ATTAACGATG TAGTTGAAAT AAGAGATGGT GAAGAAGCTG ATTCCTTGCT CTTAGCTGTG 
TACACAGGGC CTGGCCCAGT AAAGGATGTG TTCTCTACCA CCAACAGAAT GACTGTGCTT 
CTCATCACTA ACGATGTGTT GGCAAGAGGA GGGTTTAAAG CAAACTTTAC TACTGGCTAT 
CACTTGGGGA TTCCAGAGCC ATGCAAGGCA GACCATTTTC AATGTAAAAA TGGAGAGTGT 
GTTCCACTGG TGAATCTCTG TGACGGTCAT CTGCACTGTG AGGATGGCTC AGATGAAGCA 
GATTGTGTGC GTTTTTTCAA TGGCACAACG AACAACAATG GTTTAGTGCG GTTCAGAATC 
CAGAGCATAT GGCATACAGC TTGTGCTGAG AACTGGACCA CCCAGATTTC AAATGATGTT 
TGTCAACTGC TGGGACTAGG GAGTGGAAAC TCATCAAAGC CAATCTTCCC TACCGATGGT 
GGACCATTTG TCAAATTAAA CACAGCACCT GATGGCCACT TAATACTAAC ACCCAGTCAA 
CAGTGTTTAC AGGATTCCTT GATTCGGTTA CAGTGTAACC ATAAATCTTG TGGAAAAAAA 
CTGGCAGCTC AAGACATCAC CCCAAAGATT GTTGGAGGAA GTAATGCCAA AGAAGGGGCC 
TGGCCCTGGG TTGTGGGTCT GTATTATGGC GGCCGACTGC TCTGCGGCGC ATCTCTCGTC 
AGCAGTGACT GGCTGGTGTC CGCCGCACAC TGCGTGTATG GGAGAAACTT AGAGCCATCC 
AAGTGGACAG CAATCCTAGG CCTGCATATG AAATCAAATC TGACCTCTCC TCAAACAGTC 
CCTCGATTAA TAGATGAAAT TGTCATAAAC CCTCATTACA ATAGGCGAAG AAAGGACAAC 
GACATTGCCA TGATGCATCT GGAATTTAAA GTGAATTACA CAGATTACAT ACAACCTATT 
TGTTTACCGG AAGAAAATCA AGTTTTTCCT CCAGGAAGAA ATTGTTCTAT TGCTGGTTGG 
GGGACGGTTG TATATCAAGG TACTACTGCA AACATATTGC AAGAAGCTGA TGTTCCTCTT 
CTATCAAATG AGAGATGCCA ACAGCAGATG CCAGAATATA ACATTACTGA AAATATGATA 
TGTGCAGGCT ATGAAGAAGG AGGAATAGAT TCTTGTCAGG GGGATTCAGG AGGACCATTA 
ATGTGCCAAG AAAACAACAG GTGGTTCCTT GCTGGTGTGA CCTCATTTGG ATACAAGTGT 
GCCCTGCCTA ATCGCCCCGG AGTGTATGCC AGGGTCTCAA GGTTTACCGA ATGGATACAA 
AGTTTTCTAC ATTAG

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

RefSeq	XP_011527958.1
CDS	96..3290
Translation	MGSKRGISSRHHSLSSYEIMFAALFAILVVLCAGLIAVSCLTIKESQRGAALGQSHEARATFKITSGVTYNPNLQDKLSVDFKVLAFDLQQMIDEIFLSSNLKNEYKNSRVLQFDKNWRQAENEVESTVSLYSLYGSWIHQKYQKNGSIIVVFDLFFAQWVSDENVKEELIQGLEANKSSQLVTFHIDLNSVDILASLENFSTVSPATTSDKLTTTSHLATPGNVSIECLPGSSPCTDALTCIKADLFCDGEVNCPDGSDEDNKMCATVCDGRFLLTGSSGSFQATHYPKPSETSVVCQWIIRVNQGLSIKLSFDDFNTYYTDILDIYEGVGSSKILRASIWETNPGTIRIFSNQVTATFLIESDESDYVGFNATYTAFNSSELNNYEKINCNFEDGFCFWVQDLNDDNEWERIQGSTFSPFTGPNFDHTFGNASGFYISTPTGPGGRQERVGLLSLPLDPTLEPACLSFWYHMYGENVHKLSINISNDQNMEKTVFQKEGNYGDNWNYGQVTLNETVKFKVAFNAFKNKILSDIALDDISLTYGICNGSLYPEPTLVPTPPPELPTDCGGPFELWEPNTTFSSTNFPNSYPNLAFCVWILNAQKGKNIQLHFQEFDLENINDVVEIRDGEEADSLLLAVYTGPGPVKDVFSTTNRMTVLLITNDVLARGGFKANFTTGYHLGIPEPCKADHFQCKNGECVPLVNLCDGHLHCEDGSDEADCVRFFNGTTNNNGLVRFRIQSIWHTACAENWTTQISNDVCQLLGLGSGNSSKPIFPTDGGPFVKLNTAPDGHLILTPSQQCLQDSLIRLQCNHKSCGKKLAAQDITPKIVGGSNAKEGAWPWVVGLYYGGRLLCGASLVSSDWLVSAAHCVYGRNLEPSKWTAILGLHMKSNLTSPQTVPRLIDEIVINPHYNRRRKDNDIAMMHLEFKVNYTDYIQPICLPEENQVFPPGRNCSIAGWGTVVYQGTTANILQEADVPLLSNERCQQQMPEYNITENMICAGYEEGGIDSCQGDSGGPLMCQENNRWFLAGVTSFGYKCALPNRPGVYARVSRFTEWIQSFLH

Target ORF information:

RefSeq Version	XM_011529656.2
Organism	Homo sapiens(human)
Definition	Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X3, mRNA.

Target ORF information:

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

XM_011529656.2

ORF Insert Sequence:

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGCATC TTTGGAGAAT 
TTTTCTACAG TAAGCCCTGC AACAACTTCA GACAAGCTAA CAACCACCAG TCATCTGGCA 
ACTCCAGGAA ATGTCTCAAT AGAGTGCCTG CCTGGTTCAA GTCCTTGTAC TGATGCTCTA 
ACGTGTATAA AAGCTGATTT ATTTTGTGAT GGAGAAGTAA ACTGTCCAGA TGGTTCTGAC 
GAAGACAATA AAATGTGTGC CACAGTTTGT GATGGAAGAT TTTTGTTAAC TGGATCATCT 
GGGTCTTTCC AGGCTACTCA TTATCCAAAA CCTTCTGAAA CAAGTGTTGT CTGCCAGTGG 
ATCATACGTG TAAACCAAGG ACTTTCCATT AAACTGAGCT TCGATGATTT TAATACATAT 
TATACAGATA TATTAGATAT TTATGAAGGT GTAGGATCAA GCAAGATTTT AAGAGCTTCT 
ATTTGGGAAA CTAATCCTGG CACAATAAGA ATTTTTTCCA ACCAAGTTAC TGCCACCTTT 
CTTATAGAAT CTGATGAAAG TGATTATGTT GGCTTTAATG CAACATATAC TGCATTTAAC 
AGCAGTGAGC TTAATAATTA TGAGAAAATT AATTGTAACT TTGAGGATGG CTTTTGTTTC 
TGGGTCCAGG ATCTAAATGA TGATAATGAA TGGGAAAGGA TTCAGGGAAG CACCTTTTCT 
CCTTTTACTG GACCCAATTT TGACCACACT TTTGGCAATG CTTCAGGATT TTACATTTCT 
ACCCCAACTG GACCAGGAGG GAGACAAGAA CGAGTGGGGC TTTTAAGCCT CCCTTTGGAC 
CCCACTTTGG AGCCAGCTTG CCTTAGTTTC TGGTATCATA TGTATGGTGA AAATGTCCAT 
AAATTAAGCA TTAATATCAG CAATGACCAA AATATGGAGA AGACAGTTTT CCAAAAGGAA 
GGAAATTATG GAGACAATTG GAATTATGGA CAAGTAACCC TAAATGAAAC AGTTAAATTT 
AAGGTTGCTT TTAATGCTTT TAAAAACAAG ATCCTGAGTG ATATTGCGTT GGATGACATT 
AGCCTAACAT ATGGGATTTG CAATGGGAGT CTTTATCCAG AACCAACTTT GGTGCCAACT 
CCTCCACCAG AACTTCCTAC GGACTGTGGA GGACCTTTTG AGCTGTGGGA GCCAAATACA 
ACATTCAGTT CTACGAACTT TCCAAACAGC TACCCTAATC TGGCTTTCTG TGTTTGGATT 
TTAAATGCAC AAAAAGGAAA GAATATACAA CTTCATTTTC AAGAATTTGA CTTAGAAAAT 
ATTAACGATG TAGTTGAAAT AAGAGATGGT GAAGAAGCTG ATTCCTTGCT CTTAGCTGTG 
TACACAGGGC CTGGCCCAGT AAAGGATGTG TTCTCTACCA CCAACAGAAT GACTGTGCTT 
CTCATCACTA ACGATGTGTT GGCAAGAGGA GGGTTTAAAG CAAACTTTAC TACTGGCTAT 
CACTTGGGGA TTCCAGAGCC ATGCAAGGCA GACCATTTTC AATGTAAAAA TGGAGAGTGT 
GTTCCACTGG TGAATCTCTG TGACGGTCAT CTGCACTGTG AGGATGGCTC AGATGAAGCA 
GATTGTGTGC GTTTTTTCAA TGGCACAACG AACAACAATG GTTTAGTGCG GTTCAGAATC 
CAGAGCATAT GGCATACAGC TTGTGCTGAG AACTGGACCA CCCAGATTTC AAATGATGTT 
TGTCAACTGC TGGGACTAGG GAGTGGAAAC TCATCAAAGC CAATCTTCCC TACCGATGGT 
GGACCATTTG TCAAATTAAA CACAGCACCT GATGGCCACT TAATACTAAC ACCCAGTCAA 
CAGTGTTTAC AGGATTCCTT GATTCGGTTA CAGTGTAACC ATAAATCTTG TGGAAAAAAA 
CTGGCAGCTC AAGACATCAC CCCAAAGATT GTTGGAGGAA GTAATGCCAA AGAAGGGGCC 
TGGCCCTGGG TTGTGGGTCT GTATTATGGC GGCCGACTGC TCTGCGGCGC ATCTCTCGTC 
AGCAGTGACT GGCTGGTGTC CGCCGCACAC TGCGTGTATG GGAGAAACTT AGAGCCATCC 
AAGTGGACAG CAATCCTAGG CCTGCATATG AAATCAAATC TGACCTCTCC TCAAACAGTC 
CCTCGATTAA TAGATGAAAT TGTCATAAAC CCTCATTACA ATAGGCGAAG AAAGGACAAC 
GACATTGCCA TGATGCATCT GGAATTTAAA GTGAATTACA CAGATTACAT ACAACCTATT 
TGTTTACCGG AAGAAAATCA AGTTTTTCCT CCAGGAAGAA ATTGTTCTAT TGCTGGTTGG 
GGGACGGTTG TATATCAAGG TACTACTGCA AACATATTGC AAGAAGCTGA TGTTCCTCTT 
CTATCAAATG AGAGATGCCA ACAGCAGATG CCAGAATATA ACATTACTGA AAATATGATA 
TGTGCAGGCT ATGAAGAAGG AGGAATAGAT TCTTGTCAGG GGGATTCAGG AGGACCATTA 
ATGTGCCAAG AAAACAACAG GTGGTTCCTT GCTGGTGTGA CCTCATTTGG ATACAAGTGT 
GCCCTGCCTA ATCGCCCCGG AGTGTATGCC AGGGTCTCAA GGTTTACCGA ATGGATACAA 
AGTTTTCTAC ATTAG

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

TMPRSS15 ( XM_011529657.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011527959.1 Homo sapiens transmembrane protease, serine 15 (TMPRSS15), transcript variant X4, mRNA.

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CloneID	OHu59973
Clone ID Related Accession (Same CDS sequence)	XM_011529657.1 , XM_011529657.2
Accession Version	XM_011529657.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3150bp) 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	enteropeptidase isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000021.9) 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##

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGACAA GCTAACAACC 
ACCAGTCATC TGGCAACTCC AGGAAATGTC TCAATAGAGT GCCTGCCTGG TTCAAGTCCT 
TGTACTGATG CTCTAACGTG TATAAAAGCT GATTTATTTT GTGATGGAGA AGTAAACTGT 
CCAGATGGTT CTGACGAAGA CAATAAAATG TGTGCCACAG TTTGTGATGG AAGATTTTTG 
TTAACTGGAT CATCTGGGTC TTTCCAGGCT ACTCATTATC CAAAACCTTC TGAAACAAGT 
GTTGTCTGCC AGTGGATCAT ACGTGTAAAC CAAGGACTTT CCATTAAACT GAGCTTCGAT 
GATTTTAATA CATATTATAC AGATATATTA GATATTTATG AAGGTGTAGG ATCAAGCAAG 
ATTTTAAGAG CTTCTATTTG GGAAACTAAT CCTGGCACAA TAAGAATTTT TTCCAACCAA 
GTTACTGCCA CCTTTCTTAT AGAATCTGAT GAAAGTGATT ATGTTGGCTT TAATGCAACA 
TATACTGCAT TTAACAGCAG TGAGCTTAAT AATTATGAGA AAATTAATTG TAACTTTGAG 
GATGGCTTTT GTTTCTGGGT CCAGGATCTA AATGATGATA ATGAATGGGA AAGGATTCAG 
GGAAGCACCT TTTCTCCTTT TACTGGACCC AATTTTGACC ACACTTTTGG CAATGCTTCA 
GGATTTTACA TTTCTACCCC AACTGGACCA GGAGGGAGAC AAGAACGAGT GGGGCTTTTA 
AGCCTCCCTT TGGACCCCAC TTTGGAGCCA GCTTGCCTTA GTTTCTGGTA TCATATGTAT 
GGTGAAAATG TCCATAAATT AAGCATTAAT ATCAGCAATG ACCAAAATAT GGAGAAGACA 
GTTTTCCAAA AGGAAGGAAA TTATGGAGAC AATTGGAATT ATGGACAAGT AACCCTAAAT 
GAAACAGTTA AATTTAAGGT TGCTTTTAAT GCTTTTAAAA ACAAGATCCT GAGTGATATT 
GCGTTGGATG ACATTAGCCT AACATATGGG ATTTGCAATG GGAGTCTTTA TCCAGAACCA 
ACTTTGGTGC CAACTCCTCC ACCAGAACTT CCTACGGACT GTGGAGGACC TTTTGAGCTG 
TGGGAGCCAA ATACAACATT CAGTTCTACG AACTTTCCAA ACAGCTACCC TAATCTGGCT 
TTCTGTGTTT GGATTTTAAA TGCACAAAAA GGAAAGAATA TACAACTTCA TTTTCAAGAA 
TTTGACTTAG AAAATATTAA CGATGTAGTT GAAATAAGAG ATGGTGAAGA AGCTGATTCC 
TTGCTCTTAG CTGTGTACAC AGGGCCTGGC CCAGTAAAGG ATGTGTTCTC TACCACCAAC 
AGAATGACTG TGCTTCTCAT CACTAACGAT GTGTTGGCAA GAGGAGGGTT TAAAGCAAAC 
TTTACTACTG GCTATCACTT GGGGATTCCA GAGCCATGCA AGGCAGACCA TTTTCAATGT 
AAAAATGGAG AGTGTGTTCC ACTGGTGAAT CTCTGTGACG GTCATCTGCA CTGTGAGGAT 
GGCTCAGATG AAGCAGATTG TGTGCGTTTT TTCAATGGCA CAACGAACAA CAATGGTTTA 
GTGCGGTTCA GAATCCAGAG CATATGGCAT ACAGCTTGTG CTGAGAACTG GACCACCCAG 
ATTTCAAATG ATGTTTGTCA ACTGCTGGGA CTAGGGAGTG GAAACTCATC AAAGCCAATC 
TTCCCTACCG ATGGTGGACC ATTTGTCAAA TTAAACACAG CACCTGATGG CCACTTAATA 
CTAACACCCA GTCAACAGTG TTTACAGGAT TCCTTGATTC GGTTACAGTG TAACCATAAA 
TCTTGTGGAA AAAAACTGGC AGCTCAAGAC ATCACCCCAA AGATTGTTGG AGGAAGTAAT 
GCCAAAGAAG GGGCCTGGCC CTGGGTTGTG GGTCTGTATT ATGGCGGCCG ACTGCTCTGC 
GGCGCATCTC TCGTCAGCAG TGACTGGCTG GTGTCCGCCG CACACTGCGT GTATGGGAGA 
AACTTAGAGC CATCCAAGTG GACAGCAATC CTAGGCCTGC ATATGAAATC AAATCTGACC 
TCTCCTCAAA CAGTCCCTCG ATTAATAGAT GAAATTGTCA TAAACCCTCA TTACAATAGG 
CGAAGAAAGG ACAACGACAT TGCCATGATG CATCTGGAAT TTAAAGTGAA TTACACAGAT 
TACATACAAC CTATTTGTTT ACCGGAAGAA AATCAAGTTT TTCCTCCAGG AAGAAATTGT 
TCTATTGCTG GTTGGGGGAC GGTTGTATAT CAAGGTACTA CTGCAAACAT ATTGCAAGAA 
GCTGATGTTC CTCTTCTATC AAATGAGAGA TGCCAACAGC AGATGCCAGA ATATAACATT 
ACTGAAAATA TGATATGTGC AGGCTATGAA GAAGGAGGAA TAGATTCTTG TCAGGGGGAT 
TCAGGAGGAC CATTAATGTG CCAAGAAAAC AACAGGTGGT TCCTTGCTGG TGTGACCTCA 
TTTGGATACA AGTGTGCCCT GCCTAATCGC CCCGGAGTGT ATGCCAGGGT CTCAAGGTTT 
ACCGAATGGA TACAAAGTTT TCTACATTAG

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

RefSeq	XP_011527959.1
CDS	171..3320
Translation	MGSKRGISSRHHSLSSYEIMFAALFAILVVLCAGLIAVSCLTIKESQRGAALGQSHEARATFKITSGVTYNPNLQDKLSVDFKVLAFDLQQMIDEIFLSSNLKNEYKNSRVLQFDKNWRQAENEVESTVSLYSLYGSWIHQKYQKNGSIIVVFDLFFAQWVSDENVKEELIQGLEANKSSQLVTFHIDLNSVDILDKLTTTSHLATPGNVSIECLPGSSPCTDALTCIKADLFCDGEVNCPDGSDEDNKMCATVCDGRFLLTGSSGSFQATHYPKPSETSVVCQWIIRVNQGLSIKLSFDDFNTYYTDILDIYEGVGSSKILRASIWETNPGTIRIFSNQVTATFLIESDESDYVGFNATYTAFNSSELNNYEKINCNFEDGFCFWVQDLNDDNEWERIQGSTFSPFTGPNFDHTFGNASGFYISTPTGPGGRQERVGLLSLPLDPTLEPACLSFWYHMYGENVHKLSINISNDQNMEKTVFQKEGNYGDNWNYGQVTLNETVKFKVAFNAFKNKILSDIALDDISLTYGICNGSLYPEPTLVPTPPPELPTDCGGPFELWEPNTTFSSTNFPNSYPNLAFCVWILNAQKGKNIQLHFQEFDLENINDVVEIRDGEEADSLLLAVYTGPGPVKDVFSTTNRMTVLLITNDVLARGGFKANFTTGYHLGIPEPCKADHFQCKNGECVPLVNLCDGHLHCEDGSDEADCVRFFNGTTNNNGLVRFRIQSIWHTACAENWTTQISNDVCQLLGLGSGNSSKPIFPTDGGPFVKLNTAPDGHLILTPSQQCLQDSLIRLQCNHKSCGKKLAAQDITPKIVGGSNAKEGAWPWVVGLYYGGRLLCGASLVSSDWLVSAAHCVYGRNLEPSKWTAILGLHMKSNLTSPQTVPRLIDEIVINPHYNRRRKDNDIAMMHLEFKVNYTDYIQPICLPEENQVFPPGRNCSIAGWGTVVYQGTTANILQEADVPLLSNERCQQQMPEYNITENMICAGYEEGGIDSCQGDSGGPLMCQENNRWFLAGVTSFGYKCALPNRPGVYARVSRFTEWIQSFLH

Target ORF information:

RefSeq Version	XM_011529657.1
Organism	Homo sapiens(human)
Definition	Homo sapiens transmembrane protease, serine 15 (TMPRSS15), transcript variant X4, mRNA.

Target ORF information:

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

XM_011529657.1

ORF Insert Sequence:

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGACAA GCTAACAACC 
ACCAGTCATC TGGCAACTCC AGGAAATGTC TCAATAGAGT GCCTGCCTGG TTCAAGTCCT 
TGTACTGATG CTCTAACGTG TATAAAAGCT GATTTATTTT GTGATGGAGA AGTAAACTGT 
CCAGATGGTT CTGACGAAGA CAATAAAATG TGTGCCACAG TTTGTGATGG AAGATTTTTG 
TTAACTGGAT CATCTGGGTC TTTCCAGGCT ACTCATTATC CAAAACCTTC TGAAACAAGT 
GTTGTCTGCC AGTGGATCAT ACGTGTAAAC CAAGGACTTT CCATTAAACT GAGCTTCGAT 
GATTTTAATA CATATTATAC AGATATATTA GATATTTATG AAGGTGTAGG ATCAAGCAAG 
ATTTTAAGAG CTTCTATTTG GGAAACTAAT CCTGGCACAA TAAGAATTTT TTCCAACCAA 
GTTACTGCCA CCTTTCTTAT AGAATCTGAT GAAAGTGATT ATGTTGGCTT TAATGCAACA 
TATACTGCAT TTAACAGCAG TGAGCTTAAT AATTATGAGA AAATTAATTG TAACTTTGAG 
GATGGCTTTT GTTTCTGGGT CCAGGATCTA AATGATGATA ATGAATGGGA AAGGATTCAG 
GGAAGCACCT TTTCTCCTTT TACTGGACCC AATTTTGACC ACACTTTTGG CAATGCTTCA 
GGATTTTACA TTTCTACCCC AACTGGACCA GGAGGGAGAC AAGAACGAGT GGGGCTTTTA 
AGCCTCCCTT TGGACCCCAC TTTGGAGCCA GCTTGCCTTA GTTTCTGGTA TCATATGTAT 
GGTGAAAATG TCCATAAATT AAGCATTAAT ATCAGCAATG ACCAAAATAT GGAGAAGACA 
GTTTTCCAAA AGGAAGGAAA TTATGGAGAC AATTGGAATT ATGGACAAGT AACCCTAAAT 
GAAACAGTTA AATTTAAGGT TGCTTTTAAT GCTTTTAAAA ACAAGATCCT GAGTGATATT 
GCGTTGGATG ACATTAGCCT AACATATGGG ATTTGCAATG GGAGTCTTTA TCCAGAACCA 
ACTTTGGTGC CAACTCCTCC ACCAGAACTT CCTACGGACT GTGGAGGACC TTTTGAGCTG 
TGGGAGCCAA ATACAACATT CAGTTCTACG AACTTTCCAA ACAGCTACCC TAATCTGGCT 
TTCTGTGTTT GGATTTTAAA TGCACAAAAA GGAAAGAATA TACAACTTCA TTTTCAAGAA 
TTTGACTTAG AAAATATTAA CGATGTAGTT GAAATAAGAG ATGGTGAAGA AGCTGATTCC 
TTGCTCTTAG CTGTGTACAC AGGGCCTGGC CCAGTAAAGG ATGTGTTCTC TACCACCAAC 
AGAATGACTG TGCTTCTCAT CACTAACGAT GTGTTGGCAA GAGGAGGGTT TAAAGCAAAC 
TTTACTACTG GCTATCACTT GGGGATTCCA GAGCCATGCA AGGCAGACCA TTTTCAATGT 
AAAAATGGAG AGTGTGTTCC ACTGGTGAAT CTCTGTGACG GTCATCTGCA CTGTGAGGAT 
GGCTCAGATG AAGCAGATTG TGTGCGTTTT TTCAATGGCA CAACGAACAA CAATGGTTTA 
GTGCGGTTCA GAATCCAGAG CATATGGCAT ACAGCTTGTG CTGAGAACTG GACCACCCAG 
ATTTCAAATG ATGTTTGTCA ACTGCTGGGA CTAGGGAGTG GAAACTCATC AAAGCCAATC 
TTCCCTACCG ATGGTGGACC ATTTGTCAAA TTAAACACAG CACCTGATGG CCACTTAATA 
CTAACACCCA GTCAACAGTG TTTACAGGAT TCCTTGATTC GGTTACAGTG TAACCATAAA 
TCTTGTGGAA AAAAACTGGC AGCTCAAGAC ATCACCCCAA AGATTGTTGG AGGAAGTAAT 
GCCAAAGAAG GGGCCTGGCC CTGGGTTGTG GGTCTGTATT ATGGCGGCCG ACTGCTCTGC 
GGCGCATCTC TCGTCAGCAG TGACTGGCTG GTGTCCGCCG CACACTGCGT GTATGGGAGA 
AACTTAGAGC CATCCAAGTG GACAGCAATC CTAGGCCTGC ATATGAAATC AAATCTGACC 
TCTCCTCAAA CAGTCCCTCG ATTAATAGAT GAAATTGTCA TAAACCCTCA TTACAATAGG 
CGAAGAAAGG ACAACGACAT TGCCATGATG CATCTGGAAT TTAAAGTGAA TTACACAGAT 
TACATACAAC CTATTTGTTT ACCGGAAGAA AATCAAGTTT TTCCTCCAGG AAGAAATTGT 
TCTATTGCTG GTTGGGGGAC GGTTGTATAT CAAGGTACTA CTGCAAACAT ATTGCAAGAA 
GCTGATGTTC CTCTTCTATC AAATGAGAGA TGCCAACAGC AGATGCCAGA ATATAACATT 
ACTGAAAATA TGATATGTGC AGGCTATGAA GAAGGAGGAA TAGATTCTTG TCAGGGGGAT 
TCAGGAGGAC CATTAATGTG CCAAGAAAAC AACAGGTGGT TCCTTGCTGG TGTGACCTCA 
TTTGGATACA AGTGTGCCCT GCCTAATCGC CCCGGAGTGT ATGCCAGGGT CTCAAGGTTT 
ACCGAATGGA TACAAAGTTT TCTACATTAG

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

TMPRSS15 ( XM_011529657.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011527959.1 Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OHu59973
Clone ID Related Accession (Same CDS sequence)	XM_011529657.1 , XM_011529657.2
Accession Version	XM_011529657.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3150bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	enteropeptidase isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000021.9) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011529657.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGACAA GCTAACAACC 
ACCAGTCATC TGGCAACTCC AGGAAATGTC TCAATAGAGT GCCTGCCTGG TTCAAGTCCT 
TGTACTGATG CTCTAACGTG TATAAAAGCT GATTTATTTT GTGATGGAGA AGTAAACTGT 
CCAGATGGTT CTGACGAAGA CAATAAAATG TGTGCCACAG TTTGTGATGG AAGATTTTTG 
TTAACTGGAT CATCTGGGTC TTTCCAGGCT ACTCATTATC CAAAACCTTC TGAAACAAGT 
GTTGTCTGCC AGTGGATCAT ACGTGTAAAC CAAGGACTTT CCATTAAACT GAGCTTCGAT 
GATTTTAATA CATATTATAC AGATATATTA GATATTTATG AAGGTGTAGG ATCAAGCAAG 
ATTTTAAGAG CTTCTATTTG GGAAACTAAT CCTGGCACAA TAAGAATTTT TTCCAACCAA 
GTTACTGCCA CCTTTCTTAT AGAATCTGAT GAAAGTGATT ATGTTGGCTT TAATGCAACA 
TATACTGCAT TTAACAGCAG TGAGCTTAAT AATTATGAGA AAATTAATTG TAACTTTGAG 
GATGGCTTTT GTTTCTGGGT CCAGGATCTA AATGATGATA ATGAATGGGA AAGGATTCAG 
GGAAGCACCT TTTCTCCTTT TACTGGACCC AATTTTGACC ACACTTTTGG CAATGCTTCA 
GGATTTTACA TTTCTACCCC AACTGGACCA GGAGGGAGAC AAGAACGAGT GGGGCTTTTA 
AGCCTCCCTT TGGACCCCAC TTTGGAGCCA GCTTGCCTTA GTTTCTGGTA TCATATGTAT 
GGTGAAAATG TCCATAAATT AAGCATTAAT ATCAGCAATG ACCAAAATAT GGAGAAGACA 
GTTTTCCAAA AGGAAGGAAA TTATGGAGAC AATTGGAATT ATGGACAAGT AACCCTAAAT 
GAAACAGTTA AATTTAAGGT TGCTTTTAAT GCTTTTAAAA ACAAGATCCT GAGTGATATT 
GCGTTGGATG ACATTAGCCT AACATATGGG ATTTGCAATG GGAGTCTTTA TCCAGAACCA 
ACTTTGGTGC CAACTCCTCC ACCAGAACTT CCTACGGACT GTGGAGGACC TTTTGAGCTG 
TGGGAGCCAA ATACAACATT CAGTTCTACG AACTTTCCAA ACAGCTACCC TAATCTGGCT 
TTCTGTGTTT GGATTTTAAA TGCACAAAAA GGAAAGAATA TACAACTTCA TTTTCAAGAA 
TTTGACTTAG AAAATATTAA CGATGTAGTT GAAATAAGAG ATGGTGAAGA AGCTGATTCC 
TTGCTCTTAG CTGTGTACAC AGGGCCTGGC CCAGTAAAGG ATGTGTTCTC TACCACCAAC 
AGAATGACTG TGCTTCTCAT CACTAACGAT GTGTTGGCAA GAGGAGGGTT TAAAGCAAAC 
TTTACTACTG GCTATCACTT GGGGATTCCA GAGCCATGCA AGGCAGACCA TTTTCAATGT 
AAAAATGGAG AGTGTGTTCC ACTGGTGAAT CTCTGTGACG GTCATCTGCA CTGTGAGGAT 
GGCTCAGATG AAGCAGATTG TGTGCGTTTT TTCAATGGCA CAACGAACAA CAATGGTTTA 
GTGCGGTTCA GAATCCAGAG CATATGGCAT ACAGCTTGTG CTGAGAACTG GACCACCCAG 
ATTTCAAATG ATGTTTGTCA ACTGCTGGGA CTAGGGAGTG GAAACTCATC AAAGCCAATC 
TTCCCTACCG ATGGTGGACC ATTTGTCAAA TTAAACACAG CACCTGATGG CCACTTAATA 
CTAACACCCA GTCAACAGTG TTTACAGGAT TCCTTGATTC GGTTACAGTG TAACCATAAA 
TCTTGTGGAA AAAAACTGGC AGCTCAAGAC ATCACCCCAA AGATTGTTGG AGGAAGTAAT 
GCCAAAGAAG GGGCCTGGCC CTGGGTTGTG GGTCTGTATT ATGGCGGCCG ACTGCTCTGC 
GGCGCATCTC TCGTCAGCAG TGACTGGCTG GTGTCCGCCG CACACTGCGT GTATGGGAGA 
AACTTAGAGC CATCCAAGTG GACAGCAATC CTAGGCCTGC ATATGAAATC AAATCTGACC 
TCTCCTCAAA CAGTCCCTCG ATTAATAGAT GAAATTGTCA TAAACCCTCA TTACAATAGG 
CGAAGAAAGG ACAACGACAT TGCCATGATG CATCTGGAAT TTAAAGTGAA TTACACAGAT 
TACATACAAC CTATTTGTTT ACCGGAAGAA AATCAAGTTT TTCCTCCAGG AAGAAATTGT 
TCTATTGCTG GTTGGGGGAC GGTTGTATAT CAAGGTACTA CTGCAAACAT ATTGCAAGAA 
GCTGATGTTC CTCTTCTATC AAATGAGAGA TGCCAACAGC AGATGCCAGA ATATAACATT 
ACTGAAAATA TGATATGTGC AGGCTATGAA GAAGGAGGAA TAGATTCTTG TCAGGGGGAT 
TCAGGAGGAC CATTAATGTG CCAAGAAAAC AACAGGTGGT TCCTTGCTGG TGTGACCTCA 
TTTGGATACA AGTGTGCCCT GCCTAATCGC CCCGGAGTGT ATGCCAGGGT CTCAAGGTTT 
ACCGAATGGA TACAAAGTTT TCTACATTAG

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

RefSeq	XP_011527959.1
CDS	172..3321
Translation	MGSKRGISSRHHSLSSYEIMFAALFAILVVLCAGLIAVSCLTIKESQRGAALGQSHEARATFKITSGVTYNPNLQDKLSVDFKVLAFDLQQMIDEIFLSSNLKNEYKNSRVLQFDKNWRQAENEVESTVSLYSLYGSWIHQKYQKNGSIIVVFDLFFAQWVSDENVKEELIQGLEANKSSQLVTFHIDLNSVDILDKLTTTSHLATPGNVSIECLPGSSPCTDALTCIKADLFCDGEVNCPDGSDEDNKMCATVCDGRFLLTGSSGSFQATHYPKPSETSVVCQWIIRVNQGLSIKLSFDDFNTYYTDILDIYEGVGSSKILRASIWETNPGTIRIFSNQVTATFLIESDESDYVGFNATYTAFNSSELNNYEKINCNFEDGFCFWVQDLNDDNEWERIQGSTFSPFTGPNFDHTFGNASGFYISTPTGPGGRQERVGLLSLPLDPTLEPACLSFWYHMYGENVHKLSINISNDQNMEKTVFQKEGNYGDNWNYGQVTLNETVKFKVAFNAFKNKILSDIALDDISLTYGICNGSLYPEPTLVPTPPPELPTDCGGPFELWEPNTTFSSTNFPNSYPNLAFCVWILNAQKGKNIQLHFQEFDLENINDVVEIRDGEEADSLLLAVYTGPGPVKDVFSTTNRMTVLLITNDVLARGGFKANFTTGYHLGIPEPCKADHFQCKNGECVPLVNLCDGHLHCEDGSDEADCVRFFNGTTNNNGLVRFRIQSIWHTACAENWTTQISNDVCQLLGLGSGNSSKPIFPTDGGPFVKLNTAPDGHLILTPSQQCLQDSLIRLQCNHKSCGKKLAAQDITPKIVGGSNAKEGAWPWVVGLYYGGRLLCGASLVSSDWLVSAAHCVYGRNLEPSKWTAILGLHMKSNLTSPQTVPRLIDEIVINPHYNRRRKDNDIAMMHLEFKVNYTDYIQPICLPEENQVFPPGRNCSIAGWGTVVYQGTTANILQEADVPLLSNERCQQQMPEYNITENMICAGYEEGGIDSCQGDSGGPLMCQENNRWFLAGVTSFGYKCALPNRPGVYARVSRFTEWIQSFLH

Target ORF information:

RefSeq Version	XM_011529657.2
Organism	Homo sapiens(human)
Definition	Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X4, mRNA.

Target ORF information:

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

XM_011529657.2

ORF Insert Sequence:

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGACAA GCTAACAACC 
ACCAGTCATC TGGCAACTCC AGGAAATGTC TCAATAGAGT GCCTGCCTGG TTCAAGTCCT 
TGTACTGATG CTCTAACGTG TATAAAAGCT GATTTATTTT GTGATGGAGA AGTAAACTGT 
CCAGATGGTT CTGACGAAGA CAATAAAATG TGTGCCACAG TTTGTGATGG AAGATTTTTG 
TTAACTGGAT CATCTGGGTC TTTCCAGGCT ACTCATTATC CAAAACCTTC TGAAACAAGT 
GTTGTCTGCC AGTGGATCAT ACGTGTAAAC CAAGGACTTT CCATTAAACT GAGCTTCGAT 
GATTTTAATA CATATTATAC AGATATATTA GATATTTATG AAGGTGTAGG ATCAAGCAAG 
ATTTTAAGAG CTTCTATTTG GGAAACTAAT CCTGGCACAA TAAGAATTTT TTCCAACCAA 
GTTACTGCCA CCTTTCTTAT AGAATCTGAT GAAAGTGATT ATGTTGGCTT TAATGCAACA 
TATACTGCAT TTAACAGCAG TGAGCTTAAT AATTATGAGA AAATTAATTG TAACTTTGAG 
GATGGCTTTT GTTTCTGGGT CCAGGATCTA AATGATGATA ATGAATGGGA AAGGATTCAG 
GGAAGCACCT TTTCTCCTTT TACTGGACCC AATTTTGACC ACACTTTTGG CAATGCTTCA 
GGATTTTACA TTTCTACCCC AACTGGACCA GGAGGGAGAC AAGAACGAGT GGGGCTTTTA 
AGCCTCCCTT TGGACCCCAC TTTGGAGCCA GCTTGCCTTA GTTTCTGGTA TCATATGTAT 
GGTGAAAATG TCCATAAATT AAGCATTAAT ATCAGCAATG ACCAAAATAT GGAGAAGACA 
GTTTTCCAAA AGGAAGGAAA TTATGGAGAC AATTGGAATT ATGGACAAGT AACCCTAAAT 
GAAACAGTTA AATTTAAGGT TGCTTTTAAT GCTTTTAAAA ACAAGATCCT GAGTGATATT 
GCGTTGGATG ACATTAGCCT AACATATGGG ATTTGCAATG GGAGTCTTTA TCCAGAACCA 
ACTTTGGTGC CAACTCCTCC ACCAGAACTT CCTACGGACT GTGGAGGACC TTTTGAGCTG 
TGGGAGCCAA ATACAACATT CAGTTCTACG AACTTTCCAA ACAGCTACCC TAATCTGGCT 
TTCTGTGTTT GGATTTTAAA TGCACAAAAA GGAAAGAATA TACAACTTCA TTTTCAAGAA 
TTTGACTTAG AAAATATTAA CGATGTAGTT GAAATAAGAG ATGGTGAAGA AGCTGATTCC 
TTGCTCTTAG CTGTGTACAC AGGGCCTGGC CCAGTAAAGG ATGTGTTCTC TACCACCAAC 
AGAATGACTG TGCTTCTCAT CACTAACGAT GTGTTGGCAA GAGGAGGGTT TAAAGCAAAC 
TTTACTACTG GCTATCACTT GGGGATTCCA GAGCCATGCA AGGCAGACCA TTTTCAATGT 
AAAAATGGAG AGTGTGTTCC ACTGGTGAAT CTCTGTGACG GTCATCTGCA CTGTGAGGAT 
GGCTCAGATG AAGCAGATTG TGTGCGTTTT TTCAATGGCA CAACGAACAA CAATGGTTTA 
GTGCGGTTCA GAATCCAGAG CATATGGCAT ACAGCTTGTG CTGAGAACTG GACCACCCAG 
ATTTCAAATG ATGTTTGTCA ACTGCTGGGA CTAGGGAGTG GAAACTCATC AAAGCCAATC 
TTCCCTACCG ATGGTGGACC ATTTGTCAAA TTAAACACAG CACCTGATGG CCACTTAATA 
CTAACACCCA GTCAACAGTG TTTACAGGAT TCCTTGATTC GGTTACAGTG TAACCATAAA 
TCTTGTGGAA AAAAACTGGC AGCTCAAGAC ATCACCCCAA AGATTGTTGG AGGAAGTAAT 
GCCAAAGAAG GGGCCTGGCC CTGGGTTGTG GGTCTGTATT ATGGCGGCCG ACTGCTCTGC 
GGCGCATCTC TCGTCAGCAG TGACTGGCTG GTGTCCGCCG CACACTGCGT GTATGGGAGA 
AACTTAGAGC CATCCAAGTG GACAGCAATC CTAGGCCTGC ATATGAAATC AAATCTGACC 
TCTCCTCAAA CAGTCCCTCG ATTAATAGAT GAAATTGTCA TAAACCCTCA TTACAATAGG 
CGAAGAAAGG ACAACGACAT TGCCATGATG CATCTGGAAT TTAAAGTGAA TTACACAGAT 
TACATACAAC CTATTTGTTT ACCGGAAGAA AATCAAGTTT TTCCTCCAGG AAGAAATTGT 
TCTATTGCTG GTTGGGGGAC GGTTGTATAT CAAGGTACTA CTGCAAACAT ATTGCAAGAA 
GCTGATGTTC CTCTTCTATC AAATGAGAGA TGCCAACAGC AGATGCCAGA ATATAACATT 
ACTGAAAATA TGATATGTGC AGGCTATGAA GAAGGAGGAA TAGATTCTTG TCAGGGGGAT 
TCAGGAGGAC CATTAATGTG CCAAGAAAAC AACAGGTGGT TCCTTGCTGG TGTGACCTCA 
TTTGGATACA AGTGTGCCCT GCCTAATCGC CCCGGAGTGT ATGCCAGGGT CTCAAGGTTT 
ACCGAATGGA TACAAAGTTT TCTACATTAG

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

TMPRSS15 ( XM_011529658.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011527960.1 Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OHu59974
Clone ID Related Accession (Same CDS sequence)	XM_011529658.2 , XM_011529658.1
Accession Version	XM_011529658.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3114bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	enteropeptidase isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000021.9) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011529658.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGGAAA TGTCTCAATA 
GAGTGCCTGC CTGGTTCAAG TCCTTGTACT GATGCTCTAA CGTGTATAAA AGCTGATTTA 
TTTTGTGATG GAGAAGTAAA CTGTCCAGAT GGTTCTGACG AAGACAATAA AATGTGTGCC 
ACAGTTTGTG ATGGAAGATT TTTGTTAACT GGATCATCTG GGTCTTTCCA GGCTACTCAT 
TATCCAAAAC CTTCTGAAAC AAGTGTTGTC TGCCAGTGGA TCATACGTGT AAACCAAGGA 
CTTTCCATTA AACTGAGCTT CGATGATTTT AATACATATT ATACAGATAT ATTAGATATT 
TATGAAGGTG TAGGATCAAG CAAGATTTTA AGAGCTTCTA TTTGGGAAAC TAATCCTGGC 
ACAATAAGAA TTTTTTCCAA CCAAGTTACT GCCACCTTTC TTATAGAATC TGATGAAAGT 
GATTATGTTG GCTTTAATGC AACATATACT GCATTTAACA GCAGTGAGCT TAATAATTAT 
GAGAAAATTA ATTGTAACTT TGAGGATGGC TTTTGTTTCT GGGTCCAGGA TCTAAATGAT 
GATAATGAAT GGGAAAGGAT TCAGGGAAGC ACCTTTTCTC CTTTTACTGG ACCCAATTTT 
GACCACACTT TTGGCAATGC TTCAGGATTT TACATTTCTA CCCCAACTGG ACCAGGAGGG 
AGACAAGAAC GAGTGGGGCT TTTAAGCCTC CCTTTGGACC CCACTTTGGA GCCAGCTTGC 
CTTAGTTTCT GGTATCATAT GTATGGTGAA AATGTCCATA AATTAAGCAT TAATATCAGC 
AATGACCAAA ATATGGAGAA GACAGTTTTC CAAAAGGAAG GAAATTATGG AGACAATTGG 
AATTATGGAC AAGTAACCCT AAATGAAACA GTTAAATTTA AGGTTGCTTT TAATGCTTTT 
AAAAACAAGA TCCTGAGTGA TATTGCGTTG GATGACATTA GCCTAACATA TGGGATTTGC 
AATGGGAGTC TTTATCCAGA ACCAACTTTG GTGCCAACTC CTCCACCAGA ACTTCCTACG 
GACTGTGGAG GACCTTTTGA GCTGTGGGAG CCAAATACAA CATTCAGTTC TACGAACTTT 
CCAAACAGCT ACCCTAATCT GGCTTTCTGT GTTTGGATTT TAAATGCACA AAAAGGAAAG 
AATATACAAC TTCATTTTCA AGAATTTGAC TTAGAAAATA TTAACGATGT AGTTGAAATA 
AGAGATGGTG AAGAAGCTGA TTCCTTGCTC TTAGCTGTGT ACACAGGGCC TGGCCCAGTA 
AAGGATGTGT TCTCTACCAC CAACAGAATG ACTGTGCTTC TCATCACTAA CGATGTGTTG 
GCAAGAGGAG GGTTTAAAGC AAACTTTACT ACTGGCTATC ACTTGGGGAT TCCAGAGCCA 
TGCAAGGCAG ACCATTTTCA ATGTAAAAAT GGAGAGTGTG TTCCACTGGT GAATCTCTGT 
GACGGTCATC TGCACTGTGA GGATGGCTCA GATGAAGCAG ATTGTGTGCG TTTTTTCAAT 
GGCACAACGA ACAACAATGG TTTAGTGCGG TTCAGAATCC AGAGCATATG GCATACAGCT 
TGTGCTGAGA ACTGGACCAC CCAGATTTCA AATGATGTTT GTCAACTGCT GGGACTAGGG 
AGTGGAAACT CATCAAAGCC AATCTTCCCT ACCGATGGTG GACCATTTGT CAAATTAAAC 
ACAGCACCTG ATGGCCACTT AATACTAACA CCCAGTCAAC AGTGTTTACA GGATTCCTTG 
ATTCGGTTAC AGTGTAACCA TAAATCTTGT GGAAAAAAAC TGGCAGCTCA AGACATCACC 
CCAAAGATTG TTGGAGGAAG TAATGCCAAA GAAGGGGCCT GGCCCTGGGT TGTGGGTCTG 
TATTATGGCG GCCGACTGCT CTGCGGCGCA TCTCTCGTCA GCAGTGACTG GCTGGTGTCC 
GCCGCACACT GCGTGTATGG GAGAAACTTA GAGCCATCCA AGTGGACAGC AATCCTAGGC 
CTGCATATGA AATCAAATCT GACCTCTCCT CAAACAGTCC CTCGATTAAT AGATGAAATT 
GTCATAAACC CTCATTACAA TAGGCGAAGA AAGGACAACG ACATTGCCAT GATGCATCTG 
GAATTTAAAG TGAATTACAC AGATTACATA CAACCTATTT GTTTACCGGA AGAAAATCAA 
GTTTTTCCTC CAGGAAGAAA TTGTTCTATT GCTGGTTGGG GGACGGTTGT ATATCAAGGT 
ACTACTGCAA ACATATTGCA AGAAGCTGAT GTTCCTCTTC TATCAAATGA GAGATGCCAA 
CAGCAGATGC CAGAATATAA CATTACTGAA AATATGATAT GTGCAGGCTA TGAAGAAGGA 
GGAATAGATT CTTGTCAGGG GGATTCAGGA GGACCATTAA TGTGCCAAGA AAACAACAGG 
TGGTTCCTTG CTGGTGTGAC CTCATTTGGA TACAAGTGTG CCCTGCCTAA TCGCCCCGGA 
GTGTATGCCA GGGTCTCAAG GTTTACCGAA TGGATACAAA GTTTTCTACA TTAG

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

RefSeq	XP_011527960.1
CDS	172..3285
Translation	MGSKRGISSRHHSLSSYEIMFAALFAILVVLCAGLIAVSCLTIKESQRGAALGQSHEARATFKITSGVTYNPNLQDKLSVDFKVLAFDLQQMIDEIFLSSNLKNEYKNSRVLQFDKNWRQAENEVESTVSLYSLYGSWIHQKYQKNGSIIVVFDLFFAQWVSDENVKEELIQGLEANKSSQLVTFHIDLNSVDILGNVSIECLPGSSPCTDALTCIKADLFCDGEVNCPDGSDEDNKMCATVCDGRFLLTGSSGSFQATHYPKPSETSVVCQWIIRVNQGLSIKLSFDDFNTYYTDILDIYEGVGSSKILRASIWETNPGTIRIFSNQVTATFLIESDESDYVGFNATYTAFNSSELNNYEKINCNFEDGFCFWVQDLNDDNEWERIQGSTFSPFTGPNFDHTFGNASGFYISTPTGPGGRQERVGLLSLPLDPTLEPACLSFWYHMYGENVHKLSINISNDQNMEKTVFQKEGNYGDNWNYGQVTLNETVKFKVAFNAFKNKILSDIALDDISLTYGICNGSLYPEPTLVPTPPPELPTDCGGPFELWEPNTTFSSTNFPNSYPNLAFCVWILNAQKGKNIQLHFQEFDLENINDVVEIRDGEEADSLLLAVYTGPGPVKDVFSTTNRMTVLLITNDVLARGGFKANFTTGYHLGIPEPCKADHFQCKNGECVPLVNLCDGHLHCEDGSDEADCVRFFNGTTNNNGLVRFRIQSIWHTACAENWTTQISNDVCQLLGLGSGNSSKPIFPTDGGPFVKLNTAPDGHLILTPSQQCLQDSLIRLQCNHKSCGKKLAAQDITPKIVGGSNAKEGAWPWVVGLYYGGRLLCGASLVSSDWLVSAAHCVYGRNLEPSKWTAILGLHMKSNLTSPQTVPRLIDEIVINPHYNRRRKDNDIAMMHLEFKVNYTDYIQPICLPEENQVFPPGRNCSIAGWGTVVYQGTTANILQEADVPLLSNERCQQQMPEYNITENMICAGYEEGGIDSCQGDSGGPLMCQENNRWFLAGVTSFGYKCALPNRPGVYARVSRFTEWIQSFLH

Target ORF information:

RefSeq Version	XM_011529658.2
Organism	Homo sapiens(human)
Definition	Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X5, mRNA.

Target ORF information:

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

XM_011529658.2

ORF Insert Sequence:

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGGAAA TGTCTCAATA 
GAGTGCCTGC CTGGTTCAAG TCCTTGTACT GATGCTCTAA CGTGTATAAA AGCTGATTTA 
TTTTGTGATG GAGAAGTAAA CTGTCCAGAT GGTTCTGACG AAGACAATAA AATGTGTGCC 
ACAGTTTGTG ATGGAAGATT TTTGTTAACT GGATCATCTG GGTCTTTCCA GGCTACTCAT 
TATCCAAAAC CTTCTGAAAC AAGTGTTGTC TGCCAGTGGA TCATACGTGT AAACCAAGGA 
CTTTCCATTA AACTGAGCTT CGATGATTTT AATACATATT ATACAGATAT ATTAGATATT 
TATGAAGGTG TAGGATCAAG CAAGATTTTA AGAGCTTCTA TTTGGGAAAC TAATCCTGGC 
ACAATAAGAA TTTTTTCCAA CCAAGTTACT GCCACCTTTC TTATAGAATC TGATGAAAGT 
GATTATGTTG GCTTTAATGC AACATATACT GCATTTAACA GCAGTGAGCT TAATAATTAT 
GAGAAAATTA ATTGTAACTT TGAGGATGGC TTTTGTTTCT GGGTCCAGGA TCTAAATGAT 
GATAATGAAT GGGAAAGGAT TCAGGGAAGC ACCTTTTCTC CTTTTACTGG ACCCAATTTT 
GACCACACTT TTGGCAATGC TTCAGGATTT TACATTTCTA CCCCAACTGG ACCAGGAGGG 
AGACAAGAAC GAGTGGGGCT TTTAAGCCTC CCTTTGGACC CCACTTTGGA GCCAGCTTGC 
CTTAGTTTCT GGTATCATAT GTATGGTGAA AATGTCCATA AATTAAGCAT TAATATCAGC 
AATGACCAAA ATATGGAGAA GACAGTTTTC CAAAAGGAAG GAAATTATGG AGACAATTGG 
AATTATGGAC AAGTAACCCT AAATGAAACA GTTAAATTTA AGGTTGCTTT TAATGCTTTT 
AAAAACAAGA TCCTGAGTGA TATTGCGTTG GATGACATTA GCCTAACATA TGGGATTTGC 
AATGGGAGTC TTTATCCAGA ACCAACTTTG GTGCCAACTC CTCCACCAGA ACTTCCTACG 
GACTGTGGAG GACCTTTTGA GCTGTGGGAG CCAAATACAA CATTCAGTTC TACGAACTTT 
CCAAACAGCT ACCCTAATCT GGCTTTCTGT GTTTGGATTT TAAATGCACA AAAAGGAAAG 
AATATACAAC TTCATTTTCA AGAATTTGAC TTAGAAAATA TTAACGATGT AGTTGAAATA 
AGAGATGGTG AAGAAGCTGA TTCCTTGCTC TTAGCTGTGT ACACAGGGCC TGGCCCAGTA 
AAGGATGTGT TCTCTACCAC CAACAGAATG ACTGTGCTTC TCATCACTAA CGATGTGTTG 
GCAAGAGGAG GGTTTAAAGC AAACTTTACT ACTGGCTATC ACTTGGGGAT TCCAGAGCCA 
TGCAAGGCAG ACCATTTTCA ATGTAAAAAT GGAGAGTGTG TTCCACTGGT GAATCTCTGT 
GACGGTCATC TGCACTGTGA GGATGGCTCA GATGAAGCAG ATTGTGTGCG TTTTTTCAAT 
GGCACAACGA ACAACAATGG TTTAGTGCGG TTCAGAATCC AGAGCATATG GCATACAGCT 
TGTGCTGAGA ACTGGACCAC CCAGATTTCA AATGATGTTT GTCAACTGCT GGGACTAGGG 
AGTGGAAACT CATCAAAGCC AATCTTCCCT ACCGATGGTG GACCATTTGT CAAATTAAAC 
ACAGCACCTG ATGGCCACTT AATACTAACA CCCAGTCAAC AGTGTTTACA GGATTCCTTG 
ATTCGGTTAC AGTGTAACCA TAAATCTTGT GGAAAAAAAC TGGCAGCTCA AGACATCACC 
CCAAAGATTG TTGGAGGAAG TAATGCCAAA GAAGGGGCCT GGCCCTGGGT TGTGGGTCTG 
TATTATGGCG GCCGACTGCT CTGCGGCGCA TCTCTCGTCA GCAGTGACTG GCTGGTGTCC 
GCCGCACACT GCGTGTATGG GAGAAACTTA GAGCCATCCA AGTGGACAGC AATCCTAGGC 
CTGCATATGA AATCAAATCT GACCTCTCCT CAAACAGTCC CTCGATTAAT AGATGAAATT 
GTCATAAACC CTCATTACAA TAGGCGAAGA AAGGACAACG ACATTGCCAT GATGCATCTG 
GAATTTAAAG TGAATTACAC AGATTACATA CAACCTATTT GTTTACCGGA AGAAAATCAA 
GTTTTTCCTC CAGGAAGAAA TTGTTCTATT GCTGGTTGGG GGACGGTTGT ATATCAAGGT 
ACTACTGCAA ACATATTGCA AGAAGCTGAT GTTCCTCTTC TATCAAATGA GAGATGCCAA 
CAGCAGATGC CAGAATATAA CATTACTGAA AATATGATAT GTGCAGGCTA TGAAGAAGGA 
GGAATAGATT CTTGTCAGGG GGATTCAGGA GGACCATTAA TGTGCCAAGA AAACAACAGG 
TGGTTCCTTG CTGGTGTGAC CTCATTTGGA TACAAGTGTG CCCTGCCTAA TCGCCCCGGA 
GTGTATGCCA GGGTCTCAAG GTTTACCGAA TGGATACAAA GTTTTCTACA TTAG

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

TMPRSS15 ( XM_011529658.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011527960.1 Homo sapiens transmembrane protease, serine 15 (TMPRSS15), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OHu59974
Clone ID Related Accession (Same CDS sequence)	XM_011529658.2 , XM_011529658.1
Accession Version	XM_011529658.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3114bp) 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	enteropeptidase isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000021.9) 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##

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGGAAA TGTCTCAATA 
GAGTGCCTGC CTGGTTCAAG TCCTTGTACT GATGCTCTAA CGTGTATAAA AGCTGATTTA 
TTTTGTGATG GAGAAGTAAA CTGTCCAGAT GGTTCTGACG AAGACAATAA AATGTGTGCC 
ACAGTTTGTG ATGGAAGATT TTTGTTAACT GGATCATCTG GGTCTTTCCA GGCTACTCAT 
TATCCAAAAC CTTCTGAAAC AAGTGTTGTC TGCCAGTGGA TCATACGTGT AAACCAAGGA 
CTTTCCATTA AACTGAGCTT CGATGATTTT AATACATATT ATACAGATAT ATTAGATATT 
TATGAAGGTG TAGGATCAAG CAAGATTTTA AGAGCTTCTA TTTGGGAAAC TAATCCTGGC 
ACAATAAGAA TTTTTTCCAA CCAAGTTACT GCCACCTTTC TTATAGAATC TGATGAAAGT 
GATTATGTTG GCTTTAATGC AACATATACT GCATTTAACA GCAGTGAGCT TAATAATTAT 
GAGAAAATTA ATTGTAACTT TGAGGATGGC TTTTGTTTCT GGGTCCAGGA TCTAAATGAT 
GATAATGAAT GGGAAAGGAT TCAGGGAAGC ACCTTTTCTC CTTTTACTGG ACCCAATTTT 
GACCACACTT TTGGCAATGC TTCAGGATTT TACATTTCTA CCCCAACTGG ACCAGGAGGG 
AGACAAGAAC GAGTGGGGCT TTTAAGCCTC CCTTTGGACC CCACTTTGGA GCCAGCTTGC 
CTTAGTTTCT GGTATCATAT GTATGGTGAA AATGTCCATA AATTAAGCAT TAATATCAGC 
AATGACCAAA ATATGGAGAA GACAGTTTTC CAAAAGGAAG GAAATTATGG AGACAATTGG 
AATTATGGAC AAGTAACCCT AAATGAAACA GTTAAATTTA AGGTTGCTTT TAATGCTTTT 
AAAAACAAGA TCCTGAGTGA TATTGCGTTG GATGACATTA GCCTAACATA TGGGATTTGC 
AATGGGAGTC TTTATCCAGA ACCAACTTTG GTGCCAACTC CTCCACCAGA ACTTCCTACG 
GACTGTGGAG GACCTTTTGA GCTGTGGGAG CCAAATACAA CATTCAGTTC TACGAACTTT 
CCAAACAGCT ACCCTAATCT GGCTTTCTGT GTTTGGATTT TAAATGCACA AAAAGGAAAG 
AATATACAAC TTCATTTTCA AGAATTTGAC TTAGAAAATA TTAACGATGT AGTTGAAATA 
AGAGATGGTG AAGAAGCTGA TTCCTTGCTC TTAGCTGTGT ACACAGGGCC TGGCCCAGTA 
AAGGATGTGT TCTCTACCAC CAACAGAATG ACTGTGCTTC TCATCACTAA CGATGTGTTG 
GCAAGAGGAG GGTTTAAAGC AAACTTTACT ACTGGCTATC ACTTGGGGAT TCCAGAGCCA 
TGCAAGGCAG ACCATTTTCA ATGTAAAAAT GGAGAGTGTG TTCCACTGGT GAATCTCTGT 
GACGGTCATC TGCACTGTGA GGATGGCTCA GATGAAGCAG ATTGTGTGCG TTTTTTCAAT 
GGCACAACGA ACAACAATGG TTTAGTGCGG TTCAGAATCC AGAGCATATG GCATACAGCT 
TGTGCTGAGA ACTGGACCAC CCAGATTTCA AATGATGTTT GTCAACTGCT GGGACTAGGG 
AGTGGAAACT CATCAAAGCC AATCTTCCCT ACCGATGGTG GACCATTTGT CAAATTAAAC 
ACAGCACCTG ATGGCCACTT AATACTAACA CCCAGTCAAC AGTGTTTACA GGATTCCTTG 
ATTCGGTTAC AGTGTAACCA TAAATCTTGT GGAAAAAAAC TGGCAGCTCA AGACATCACC 
CCAAAGATTG TTGGAGGAAG TAATGCCAAA GAAGGGGCCT GGCCCTGGGT TGTGGGTCTG 
TATTATGGCG GCCGACTGCT CTGCGGCGCA TCTCTCGTCA GCAGTGACTG GCTGGTGTCC 
GCCGCACACT GCGTGTATGG GAGAAACTTA GAGCCATCCA AGTGGACAGC AATCCTAGGC 
CTGCATATGA AATCAAATCT GACCTCTCCT CAAACAGTCC CTCGATTAAT AGATGAAATT 
GTCATAAACC CTCATTACAA TAGGCGAAGA AAGGACAACG ACATTGCCAT GATGCATCTG 
GAATTTAAAG TGAATTACAC AGATTACATA CAACCTATTT GTTTACCGGA AGAAAATCAA 
GTTTTTCCTC CAGGAAGAAA TTGTTCTATT GCTGGTTGGG GGACGGTTGT ATATCAAGGT 
ACTACTGCAA ACATATTGCA AGAAGCTGAT GTTCCTCTTC TATCAAATGA GAGATGCCAA 
CAGCAGATGC CAGAATATAA CATTACTGAA AATATGATAT GTGCAGGCTA TGAAGAAGGA 
GGAATAGATT CTTGTCAGGG GGATTCAGGA GGACCATTAA TGTGCCAAGA AAACAACAGG 
TGGTTCCTTG CTGGTGTGAC CTCATTTGGA TACAAGTGTG CCCTGCCTAA TCGCCCCGGA 
GTGTATGCCA GGGTCTCAAG GTTTACCGAA TGGATACAAA GTTTTCTACA TTAG

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

RefSeq	XP_011527960.1
CDS	171..3284
Translation	MGSKRGISSRHHSLSSYEIMFAALFAILVVLCAGLIAVSCLTIKESQRGAALGQSHEARATFKITSGVTYNPNLQDKLSVDFKVLAFDLQQMIDEIFLSSNLKNEYKNSRVLQFDKNWRQAENEVESTVSLYSLYGSWIHQKYQKNGSIIVVFDLFFAQWVSDENVKEELIQGLEANKSSQLVTFHIDLNSVDILGNVSIECLPGSSPCTDALTCIKADLFCDGEVNCPDGSDEDNKMCATVCDGRFLLTGSSGSFQATHYPKPSETSVVCQWIIRVNQGLSIKLSFDDFNTYYTDILDIYEGVGSSKILRASIWETNPGTIRIFSNQVTATFLIESDESDYVGFNATYTAFNSSELNNYEKINCNFEDGFCFWVQDLNDDNEWERIQGSTFSPFTGPNFDHTFGNASGFYISTPTGPGGRQERVGLLSLPLDPTLEPACLSFWYHMYGENVHKLSINISNDQNMEKTVFQKEGNYGDNWNYGQVTLNETVKFKVAFNAFKNKILSDIALDDISLTYGICNGSLYPEPTLVPTPPPELPTDCGGPFELWEPNTTFSSTNFPNSYPNLAFCVWILNAQKGKNIQLHFQEFDLENINDVVEIRDGEEADSLLLAVYTGPGPVKDVFSTTNRMTVLLITNDVLARGGFKANFTTGYHLGIPEPCKADHFQCKNGECVPLVNLCDGHLHCEDGSDEADCVRFFNGTTNNNGLVRFRIQSIWHTACAENWTTQISNDVCQLLGLGSGNSSKPIFPTDGGPFVKLNTAPDGHLILTPSQQCLQDSLIRLQCNHKSCGKKLAAQDITPKIVGGSNAKEGAWPWVVGLYYGGRLLCGASLVSSDWLVSAAHCVYGRNLEPSKWTAILGLHMKSNLTSPQTVPRLIDEIVINPHYNRRRKDNDIAMMHLEFKVNYTDYIQPICLPEENQVFPPGRNCSIAGWGTVVYQGTTANILQEADVPLLSNERCQQQMPEYNITENMICAGYEEGGIDSCQGDSGGPLMCQENNRWFLAGVTSFGYKCALPNRPGVYARVSRFTEWIQSFLH

Target ORF information:

RefSeq Version	XM_011529658.1
Organism	Homo sapiens(human)
Definition	Homo sapiens transmembrane protease, serine 15 (TMPRSS15), transcript variant X5, mRNA.

Target ORF information:

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

XM_011529658.1

ORF Insert Sequence:

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGATAAAAA CTGGAGGCAA 
GCTGAAAATG AGGTAGAGTC TACAGTATCT CTGTACAGTT TATATGGTTC ATGGATACAT 
CAAAAGTATC AAAAAAATGG CAGCATTATA GTCGTATTTG ACCTTTTCTT TGCCCAGTGG 
GTGTCAGATG AAAATGTAAA AGAAGAACTG ATTCAAGGCC TTGAAGCAAA TAAATCCAGC 
CAACTGGTCA CTTTCCATAT TGATTTGAAC AGCGTTGATA TCCTAGGAAA TGTCTCAATA 
GAGTGCCTGC CTGGTTCAAG TCCTTGTACT GATGCTCTAA CGTGTATAAA AGCTGATTTA 
TTTTGTGATG GAGAAGTAAA CTGTCCAGAT GGTTCTGACG AAGACAATAA AATGTGTGCC 
ACAGTTTGTG ATGGAAGATT TTTGTTAACT GGATCATCTG GGTCTTTCCA GGCTACTCAT 
TATCCAAAAC CTTCTGAAAC AAGTGTTGTC TGCCAGTGGA TCATACGTGT AAACCAAGGA 
CTTTCCATTA AACTGAGCTT CGATGATTTT AATACATATT ATACAGATAT ATTAGATATT 
TATGAAGGTG TAGGATCAAG CAAGATTTTA AGAGCTTCTA TTTGGGAAAC TAATCCTGGC 
ACAATAAGAA TTTTTTCCAA CCAAGTTACT GCCACCTTTC TTATAGAATC TGATGAAAGT 
GATTATGTTG GCTTTAATGC AACATATACT GCATTTAACA GCAGTGAGCT TAATAATTAT 
GAGAAAATTA ATTGTAACTT TGAGGATGGC TTTTGTTTCT GGGTCCAGGA TCTAAATGAT 
GATAATGAAT GGGAAAGGAT TCAGGGAAGC ACCTTTTCTC CTTTTACTGG ACCCAATTTT 
GACCACACTT TTGGCAATGC TTCAGGATTT TACATTTCTA CCCCAACTGG ACCAGGAGGG 
AGACAAGAAC GAGTGGGGCT TTTAAGCCTC CCTTTGGACC CCACTTTGGA GCCAGCTTGC 
CTTAGTTTCT GGTATCATAT GTATGGTGAA AATGTCCATA AATTAAGCAT TAATATCAGC 
AATGACCAAA ATATGGAGAA GACAGTTTTC CAAAAGGAAG GAAATTATGG AGACAATTGG 
AATTATGGAC AAGTAACCCT AAATGAAACA GTTAAATTTA AGGTTGCTTT TAATGCTTTT 
AAAAACAAGA TCCTGAGTGA TATTGCGTTG GATGACATTA GCCTAACATA TGGGATTTGC 
AATGGGAGTC TTTATCCAGA ACCAACTTTG GTGCCAACTC CTCCACCAGA ACTTCCTACG 
GACTGTGGAG GACCTTTTGA GCTGTGGGAG CCAAATACAA CATTCAGTTC TACGAACTTT 
CCAAACAGCT ACCCTAATCT GGCTTTCTGT GTTTGGATTT TAAATGCACA AAAAGGAAAG 
AATATACAAC TTCATTTTCA AGAATTTGAC TTAGAAAATA TTAACGATGT AGTTGAAATA 
AGAGATGGTG AAGAAGCTGA TTCCTTGCTC TTAGCTGTGT ACACAGGGCC TGGCCCAGTA 
AAGGATGTGT TCTCTACCAC CAACAGAATG ACTGTGCTTC TCATCACTAA CGATGTGTTG 
GCAAGAGGAG GGTTTAAAGC AAACTTTACT ACTGGCTATC ACTTGGGGAT TCCAGAGCCA 
TGCAAGGCAG ACCATTTTCA ATGTAAAAAT GGAGAGTGTG TTCCACTGGT GAATCTCTGT 
GACGGTCATC TGCACTGTGA GGATGGCTCA GATGAAGCAG ATTGTGTGCG TTTTTTCAAT 
GGCACAACGA ACAACAATGG TTTAGTGCGG TTCAGAATCC AGAGCATATG GCATACAGCT 
TGTGCTGAGA ACTGGACCAC CCAGATTTCA AATGATGTTT GTCAACTGCT GGGACTAGGG 
AGTGGAAACT CATCAAAGCC AATCTTCCCT ACCGATGGTG GACCATTTGT CAAATTAAAC 
ACAGCACCTG ATGGCCACTT AATACTAACA CCCAGTCAAC AGTGTTTACA GGATTCCTTG 
ATTCGGTTAC AGTGTAACCA TAAATCTTGT GGAAAAAAAC TGGCAGCTCA AGACATCACC 
CCAAAGATTG TTGGAGGAAG TAATGCCAAA GAAGGGGCCT GGCCCTGGGT TGTGGGTCTG 
TATTATGGCG GCCGACTGCT CTGCGGCGCA TCTCTCGTCA GCAGTGACTG GCTGGTGTCC 
GCCGCACACT GCGTGTATGG GAGAAACTTA GAGCCATCCA AGTGGACAGC AATCCTAGGC 
CTGCATATGA AATCAAATCT GACCTCTCCT CAAACAGTCC CTCGATTAAT AGATGAAATT 
GTCATAAACC CTCATTACAA TAGGCGAAGA AAGGACAACG ACATTGCCAT GATGCATCTG 
GAATTTAAAG TGAATTACAC AGATTACATA CAACCTATTT GTTTACCGGA AGAAAATCAA 
GTTTTTCCTC CAGGAAGAAA TTGTTCTATT GCTGGTTGGG GGACGGTTGT ATATCAAGGT 
ACTACTGCAA ACATATTGCA AGAAGCTGAT GTTCCTCTTC TATCAAATGA GAGATGCCAA 
CAGCAGATGC CAGAATATAA CATTACTGAA AATATGATAT GTGCAGGCTA TGAAGAAGGA 
GGAATAGATT CTTGTCAGGG GGATTCAGGA GGACCATTAA TGTGCCAAGA AAACAACAGG 
TGGTTCCTTG CTGGTGTGAC CTCATTTGGA TACAAGTGTG CCCTGCCTAA TCGCCCCGGA 
GTGTATGCCA GGGTCTCAAG GTTTACCGAA TGGATACAAA GTTTTCTACA TTAG

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

TMPRSS15 ( XM_011529659.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011527961.1 Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X6, mRNA.

Price & Availability↑

CloneID	OHu59975
Clone ID Related Accession (Same CDS sequence)	XM_011529659.1
Accession Version	XM_011529659.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3105bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	enteropeptidase isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000021.9) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGAAAATGG CAGCATTATA 
GTCGTATTTG ACCTTTTCTT TGCCCAGTGG GTGTCAGATG AAAATGTAAA AGAAGAACTG 
ATTCAAGGCC TTGAAGCAAA TAAATCCAGC CAACTGGTCA CTTTCCATAT TGATTTGAAC 
AGCGTTGATA TCCTAGCATC TTTGGAGAAT TTTTCTACAG TAAGCCCTGC AACAACTTCA 
GACAAGCTAA CAACCACCAG TCATCTGGCA ACTCCAGGAA ATGTCTCAAT AGAGTGCCTG 
CCTGGTTCAA GTCCTTGTAC TGATGCTCTA ACGTGTATAA AAGCTGATTT ATTTTGTGAT 
GGAGAAGTAA ACTGTCCAGA TGGTTCTGAC GAAGACAATA AAATGTGTGC CACAGTTTGT 
GATGGAAGAT TTTTGTTAAC TGGATCATCT GGGTCTTTCC AGGCTACTCA TTATCCAAAA 
CCTTCTGAAA CAAGTGTTGT CTGCCAGTGG ATCATACGTG TAAACCAAGG ACTTTCCATT 
AAACTGAGCT TCGATGATTT TAATACATAT TATACAGATA TATTAGATAT TTATGAAGGT 
GTAGGATCAA GCAAGATTTT AAGAGCTTCT ATTTGGGAAA CTAATCCTGG CACAATAAGA 
ATTTTTTCCA ACCAAGTTAC TGCCACCTTT CTTATAGAAT CTGATGAAAG TGATTATGTT 
GGCTTTAATG CAACATATAC TGCATTTAAC AGCAGTGAGC TTAATAATTA TGAGAAAATT 
AATTGTAACT TTGAGGATGG CTTTTGTTTC TGGGTCCAGG ATCTAAATGA TGATAATGAA 
TGGGAAAGGA TTCAGGGAAG CACCTTTTCT CCTTTTACTG GACCCAATTT TGACCACACT 
TTTGGCAATG CTTCAGGATT TTACATTTCT ACCCCAACTG GACCAGGAGG GAGACAAGAA 
CGAGTGGGGC TTTTAAGCCT CCCTTTGGAC CCCACTTTGG AGCCAGCTTG CCTTAGTTTC 
TGGTATCATA TGTATGGTGA AAATGTCCAT AAATTAAGCA TTAATATCAG CAATGACCAA 
AATATGGAGA AGACAGTTTT CCAAAAGGAA GGAAATTATG GAGACAATTG GAATTATGGA 
CAAGTAACCC TAAATGAAAC AGTTAAATTT AAGGTTGCTT TTAATGCTTT TAAAAACAAG 
ATCCTGAGTG ATATTGCGTT GGATGACATT AGCCTAACAT ATGGGATTTG CAATGGGAGT 
CTTTATCCAG AACCAACTTT GGTGCCAACT CCTCCACCAG AACTTCCTAC GGACTGTGGA 
GGACCTTTTG AGCTGTGGGA GCCAAATACA ACATTCAGTT CTACGAACTT TCCAAACAGC 
TACCCTAATC TGGCTTTCTG TGTTTGGATT TTAAATGCAC AAAAAGGAAA GAATATACAA 
CTTCATTTTC AAGAATTTGA CTTAGAAAAT ATTAACGATG TAGTTGAAAT AAGAGATGGT 
GAAGAAGCTG ATTCCTTGCT CTTAGCTGTG TACACAGGGC CTGGCCCAGT AAAGGATGTG 
TTCTCTACCA CCAACAGAAT GACTGTGCTT CTCATCACTA ACGATGTGTT GGCAAGAGGA 
GGGTTTAAAG CAAACTTTAC TACTGGCTAT CACTTGGGGA TTCCAGAGCC ATGCAAGGCA 
GACCATTTTC AATGTAAAAA TGGAGAGTGT GTTCCACTGG TGAATCTCTG TGACGGTCAT 
CTGCACTGTG AGGATGGCTC AGATGAAGCA GATTGTGTGC GTTTTTTCAA TGGCACAACG 
AACAACAATG GTTTAGTGCG GTTCAGAATC CAGAGCATAT GGCATACAGC TTGTGCTGAG 
AACTGGACCA CCCAGATTTC AAATGATGTT TGTCAACTGC TGGGACTAGG GAGTGGAAAC 
TCATCAAAGC CAATCTTCCC TACCGATGGT GGACCATTTG TCAAATTAAA CACAGCACCT 
GATGGCCACT TAATACTAAC ACCCAGTCAA CAGTGTTTAC AGGATTCCTT GATTCGGTTA 
CAGTGTAACC ATAAATCTTG TGGAAAAAAA CTGGCAGCTC AAGACATCAC CCCAAAGATT 
GTTGGAGGAA GTAATGCCAA AGAAGGGGCC TGGCCCTGGG TTGTGGGTCT GTATTATGGC 
GGCCGACTGC TCTGCGGCGC ATCTCTCGTC AGCAGTGACT GGCTGGTGTC CGCCGCACAC 
TGCGTGTATG GGAGAAACTT AGAGCCATCC AAGTGGACAG CAATCCTAGG CCTGCATATG 
AAATCAAATC TGACCTCTCC TCAAACAGTC CCTCGATTAA TAGATGAAAT TGTCATAAAC 
CCTCATTACA ATAGGCGAAG AAAGGACAAC GACATTGCCA TGATGCATCT GGAATTTAAA 
GTGAATTACA CAGATTACAT ACAACCTATT TGTTTACCGG AAGAAAATCA AGTTTTTCCT 
CCAGGAAGAA ATTGTTCTAT TGCTGGTTGG GGGACGGTTG TATATCAAGG TACTACTGCA 
AACATATTGC AAGAAGCTGA TGTTCCTCTT CTATCAAATG AGAGATGCCA ACAGCAGATG 
CCAGAATATA ACATTACTGA AAATATGATA TGTGCAGGCT ATGAAGAAGG AGGAATAGAT 
TCTTGTCAGG GGGATTCAGG AGGACCATTA ATGTGCCAAG AAAACAACAG GTGGTTCCTT 
GCTGGTGTGA CCTCATTTGG ATACAAGTGT GCCCTGCCTA ATCGCCCCGG AGTGTATGCC 
AGGGTCTCAA GGTTTACCGA ATGGATACAA AGTTTTCTAC ATTAG

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

RefSeq	XP_011527961.1
CDS	151..3255
Translation	MGSKRGISSRHHSLSSYEIMFAALFAILVVLCAGLIAVSCLTIKESQRGAALGQSHEARATFKITSGVTYNPNLQDKLSVDFKVLAFDLQQMIDEIFLSSNLKNEYKNSRVLQFENGSIIVVFDLFFAQWVSDENVKEELIQGLEANKSSQLVTFHIDLNSVDILASLENFSTVSPATTSDKLTTTSHLATPGNVSIECLPGSSPCTDALTCIKADLFCDGEVNCPDGSDEDNKMCATVCDGRFLLTGSSGSFQATHYPKPSETSVVCQWIIRVNQGLSIKLSFDDFNTYYTDILDIYEGVGSSKILRASIWETNPGTIRIFSNQVTATFLIESDESDYVGFNATYTAFNSSELNNYEKINCNFEDGFCFWVQDLNDDNEWERIQGSTFSPFTGPNFDHTFGNASGFYISTPTGPGGRQERVGLLSLPLDPTLEPACLSFWYHMYGENVHKLSINISNDQNMEKTVFQKEGNYGDNWNYGQVTLNETVKFKVAFNAFKNKILSDIALDDISLTYGICNGSLYPEPTLVPTPPPELPTDCGGPFELWEPNTTFSSTNFPNSYPNLAFCVWILNAQKGKNIQLHFQEFDLENINDVVEIRDGEEADSLLLAVYTGPGPVKDVFSTTNRMTVLLITNDVLARGGFKANFTTGYHLGIPEPCKADHFQCKNGECVPLVNLCDGHLHCEDGSDEADCVRFFNGTTNNNGLVRFRIQSIWHTACAENWTTQISNDVCQLLGLGSGNSSKPIFPTDGGPFVKLNTAPDGHLILTPSQQCLQDSLIRLQCNHKSCGKKLAAQDITPKIVGGSNAKEGAWPWVVGLYYGGRLLCGASLVSSDWLVSAAHCVYGRNLEPSKWTAILGLHMKSNLTSPQTVPRLIDEIVINPHYNRRRKDNDIAMMHLEFKVNYTDYIQPICLPEENQVFPPGRNCSIAGWGTVVYQGTTANILQEADVPLLSNERCQQQMPEYNITENMICAGYEEGGIDSCQGDSGGPLMCQENNRWFLAGVTSFGYKCALPNRPGVYARVSRFTEWIQSFLH

Target ORF information:

RefSeq Version	XM_011529659.1
Organism	Homo sapiens(human)
Definition	Homo sapiens transmembrane serine protease 15 (TMPRSS15), transcript variant X6, mRNA.

Target ORF information:

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

XM_011529659.1

ORF Insert Sequence:

ATGGGGTCGA AAAGAGGCAT ATCTTCTAGG CATCATTCTC TCAGCTCCTA TGAAATCATG 
TTTGCAGCTC TCTTTGCCAT ATTGGTAGTG CTCTGTGCTG GATTAATTGC AGTATCCTGC 
CTGACAATCA AGGAATCCCA ACGAGGTGCA GCACTTGGAC AGAGTCATGA AGCCAGAGCG 
ACATTTAAAA TAACATCCGG AGTTACATAT AATCCTAATT TGCAAGACAA ACTCTCAGTG 
GATTTCAAAG TTCTTGCTTT TGACCTTCAG CAAATGATAG ATGAGATCTT TCTATCAAGC 
AATCTGAAGA ATGAATATAA GAACTCAAGA GTTTTACAAT TTGAAAATGG CAGCATTATA 
GTCGTATTTG ACCTTTTCTT TGCCCAGTGG GTGTCAGATG AAAATGTAAA AGAAGAACTG 
ATTCAAGGCC TTGAAGCAAA TAAATCCAGC CAACTGGTCA CTTTCCATAT TGATTTGAAC 
AGCGTTGATA TCCTAGCATC TTTGGAGAAT TTTTCTACAG TAAGCCCTGC AACAACTTCA 
GACAAGCTAA CAACCACCAG TCATCTGGCA ACTCCAGGAA ATGTCTCAAT AGAGTGCCTG 
CCTGGTTCAA GTCCTTGTAC TGATGCTCTA ACGTGTATAA AAGCTGATTT ATTTTGTGAT 
GGAGAAGTAA ACTGTCCAGA TGGTTCTGAC GAAGACAATA AAATGTGTGC CACAGTTTGT 
GATGGAAGAT TTTTGTTAAC TGGATCATCT GGGTCTTTCC AGGCTACTCA TTATCCAAAA 
CCTTCTGAAA CAAGTGTTGT CTGCCAGTGG ATCATACGTG TAAACCAAGG ACTTTCCATT 
AAACTGAGCT TCGATGATTT TAATACATAT TATACAGATA TATTAGATAT TTATGAAGGT 
GTAGGATCAA GCAAGATTTT AAGAGCTTCT ATTTGGGAAA CTAATCCTGG CACAATAAGA 
ATTTTTTCCA ACCAAGTTAC TGCCACCTTT CTTATAGAAT CTGATGAAAG TGATTATGTT 
GGCTTTAATG CAACATATAC TGCATTTAAC AGCAGTGAGC TTAATAATTA TGAGAAAATT 
AATTGTAACT TTGAGGATGG CTTTTGTTTC TGGGTCCAGG ATCTAAATGA TGATAATGAA 
TGGGAAAGGA TTCAGGGAAG CACCTTTTCT CCTTTTACTG GACCCAATTT TGACCACACT 
TTTGGCAATG CTTCAGGATT TTACATTTCT ACCCCAACTG GACCAGGAGG GAGACAAGAA 
CGAGTGGGGC TTTTAAGCCT CCCTTTGGAC CCCACTTTGG AGCCAGCTTG CCTTAGTTTC 
TGGTATCATA TGTATGGTGA AAATGTCCAT AAATTAAGCA TTAATATCAG CAATGACCAA 
AATATGGAGA AGACAGTTTT CCAAAAGGAA GGAAATTATG GAGACAATTG GAATTATGGA 
CAAGTAACCC TAAATGAAAC AGTTAAATTT AAGGTTGCTT TTAATGCTTT TAAAAACAAG 
ATCCTGAGTG ATATTGCGTT GGATGACATT AGCCTAACAT ATGGGATTTG CAATGGGAGT 
CTTTATCCAG AACCAACTTT GGTGCCAACT CCTCCACCAG AACTTCCTAC GGACTGTGGA 
GGACCTTTTG AGCTGTGGGA GCCAAATACA ACATTCAGTT CTACGAACTT TCCAAACAGC 
TACCCTAATC TGGCTTTCTG TGTTTGGATT TTAAATGCAC AAAAAGGAAA GAATATACAA 
CTTCATTTTC AAGAATTTGA CTTAGAAAAT ATTAACGATG TAGTTGAAAT AAGAGATGGT 
GAAGAAGCTG ATTCCTTGCT CTTAGCTGTG TACACAGGGC CTGGCCCAGT AAAGGATGTG 
TTCTCTACCA CCAACAGAAT GACTGTGCTT CTCATCACTA ACGATGTGTT GGCAAGAGGA 
GGGTTTAAAG CAAACTTTAC TACTGGCTAT CACTTGGGGA TTCCAGAGCC ATGCAAGGCA 
GACCATTTTC AATGTAAAAA TGGAGAGTGT GTTCCACTGG TGAATCTCTG TGACGGTCAT 
CTGCACTGTG AGGATGGCTC AGATGAAGCA GATTGTGTGC GTTTTTTCAA TGGCACAACG 
AACAACAATG GTTTAGTGCG GTTCAGAATC CAGAGCATAT GGCATACAGC TTGTGCTGAG 
AACTGGACCA CCCAGATTTC AAATGATGTT TGTCAACTGC TGGGACTAGG GAGTGGAAAC 
TCATCAAAGC CAATCTTCCC TACCGATGGT GGACCATTTG TCAAATTAAA CACAGCACCT 
GATGGCCACT TAATACTAAC ACCCAGTCAA CAGTGTTTAC AGGATTCCTT GATTCGGTTA 
CAGTGTAACC ATAAATCTTG TGGAAAAAAA CTGGCAGCTC AAGACATCAC CCCAAAGATT 
GTTGGAGGAA GTAATGCCAA AGAAGGGGCC TGGCCCTGGG TTGTGGGTCT GTATTATGGC 
GGCCGACTGC TCTGCGGCGC ATCTCTCGTC AGCAGTGACT GGCTGGTGTC CGCCGCACAC 
TGCGTGTATG GGAGAAACTT AGAGCCATCC AAGTGGACAG CAATCCTAGG CCTGCATATG 
AAATCAAATC TGACCTCTCC TCAAACAGTC CCTCGATTAA TAGATGAAAT TGTCATAAAC 
CCTCATTACA ATAGGCGAAG AAAGGACAAC GACATTGCCA TGATGCATCT GGAATTTAAA 
GTGAATTACA CAGATTACAT ACAACCTATT TGTTTACCGG AAGAAAATCA AGTTTTTCCT 
CCAGGAAGAA ATTGTTCTAT TGCTGGTTGG GGGACGGTTG TATATCAAGG TACTACTGCA 
AACATATTGC AAGAAGCTGA TGTTCCTCTT CTATCAAATG AGAGATGCCA ACAGCAGATG 
CCAGAATATA ACATTACTGA AAATATGATA TGTGCAGGCT ATGAAGAAGG AGGAATAGAT 
TCTTGTCAGG GGGATTCAGG AGGACCATTA ATGTGCCAAG AAAACAACAG GTGGTTCCTT 
GCTGGTGTGA CCTCATTTGG ATACAAGTGT GCCCTGCCTA ATCGCCCCGG AGTGTATGCC 
AGGGTCTCAA GGTTTACCGA ATGGATACAA AGTTTTCTAC ATTAG

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

Gene Symbol	TMPRSS15
Entrez Gene ID	5651
Full Name	transmembrane serine protease 15
Synonyms	ENTK,PRSS7
General protein information	Preferred Names transmembrane serine protease 15 Names enteropeptidase enterokinase catalytic subunit protease, serine, 7 (enterokinase) serine protease 7 transmembrane protease, serine 15
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 21 Map Location: 21q21.1
Summary	This gene encodes an enzyme that converts the pancreatic proenzyme trypsinogen to trypsin, which activates other proenzymes including chymotrypsinogen and procarboxypeptidases. The precursor protein is cleaved into two chains that form a heterodimer linked by a disulfide bond. This protein is a member of the trypsin family of peptidases. Mutations in this gene cause enterokinase deficiency, a malabsorption disorder characterized by diarrhea and failure to thrive. [provided by RefSeq, Jul 2008].
Disorder MIM:	606635
Disorder Html:	Enterokinase deficiency, 226200 (3)

Homo sapiens (human)	TMPRSS15	NP_002763.2
Bos taurus (cattle)	TMPRSS15	NP_776864.1
	TMPRSS15	XP_002803225.1
Rattus norvegicus (Norway rat)	Tmprss15	NP_001099365.1
Gallus gallus (chicken)	TMPRSS15	XP_425539.4
Canis lupus familiaris (dog)	TMPRSS15	XP_544824.2
Pan troglodytes (chimpanzee)	TMPRSS15	XP_514836.2
Danio rerio (zebrafish)	tmprss15	XP_001919639.2
Xenopus tropicalis (tropical clawed frog)	tmprss15	XP_002933130.2
Mus musculus (house mouse)	Tmprss15	NP_849186.2

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

TMPRSS15 cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

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