LOC111146811 cDNA ORF clone, Enhydra lutris kenyoni

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC111146811
Entrez Gene ID	111146811
Full Name	transmembrane serine protease 15
Gene Type	protein-coding
Organism	Enhydra lutris kenyoni

mRNA and Protein(s)

mRNA	Protein	Name
XM_022502508.1	XP_022358216.1	enteropeptidase

Pathways from BioSystems
Gene Ontology

The following LOC111146811 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC111146811 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OEn56821	XM_022502508.1 Latest version!	Enhydra lutris kenyoni transmembrane protease, serine 15 (LOC111146811), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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

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

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

Reference Sequences (Refseq)

LOC111146811 ( XM_022502508.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022358216.1 Enhydra lutris kenyoni transmembrane protease, serine 15 (LOC111146811), mRNA.

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CloneID	OEn56821
Clone ID Related Accession (Same CDS sequence)	XM_022502508.1
Accession Version	XM_022502508.1 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	2017-09-19
Organism	Enhydra lutris kenyoni
Product	enteropeptidase
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154086.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Enhydra lutris kenyoni Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGTGTCAA AAAGAAATAA ACCTTCAAGG CACCTTTCTC TCAGCACCTA TGAAGTCCTG 
TTTGCAGCTC TCTTTGTCTT ATTGGTGGTC GTCTGTGCTG GATTATTTGC AGTGTCCTGG 
CTGGCAATCA AGGAAACAGA AAGAGATGCA GTGTTTGGAG AAAGTCACAA AACCAGAGGG 
ACATTGAAAA TAACATCTGG AGCAACATAC AATCCTAATT TACAAGACAA ACTCTCAGCG 
GATTTCAAAA TTCTTGCTTT TGACCTTCAG CAAATGATGG ATGAGATCTT TCAAACAAGT 
AATCTGAAAA ATGAATATAA AAACTCAAGA ATTTTACAAT TTGAAAATGG CAGCATTATA 
GTTATATTTG ACCTTTTCTT TGCCCAGTGG GTGTCAGATG AAAATGTAAA AGAAGAACTG 
ATTCAAGGCA TTGAAGCAAA TAAATCCAGC CACCTGGTCA CTTTCCATAT TGATTTGAAC 
AGCATAGATA TCACAGTCTC TTTGGGGAAT TTCTCTACAG TAAGTCCTGC AACAACTTCA 
AGCAAGCTAA CAACCCACAG TCCTCTGTCA ACTCCAGGAA ATGTCTCCAT AGAATGTCCA 
CCTGGTTCTA GTCCTTGTGC TGATGCTCTA AAGTGTATAG CAATTGATTT ATTTTGTGAT 
GGAGAATTAA ACTGTCCAGA TGGTTCTGAT GAAGACAGTA ACACTTGTGC CACAGCTTGT 
GATGGAAGGT TTTTGTTGAC TGGATCTTCT GGGTCCTTCC AGGCTGCTCG TTACCCGAAG 
CCTTCTAAAT TGAGTGTTGT TTGCCGGTGG ATTATACGTG TAAATCAAGG ACTCTTCATT 
AAACTGAGCT TCAATTATTT TAATACATGT TATACAGATG TATTAAATAT TTATGAAGGT 
GTGGGTACAA GCAAGATTTT AAGAGCTTCT CTCTGGGAAA CCAATCCAGG CACAATTAGG 
ATCTTTTCCA ACCAAGTTAC TGCCACTTTT CTTATAGGAT CTGATGAAAA TGATTATAGT 
GGATTTAATG CAACATACAC CGCATTTAAC AGCACAGAAC TTAATAATTA TGAGAAAATT 
AACTGTAATT TTGAAGATGG CTTTTGTTTC TGGGTCCAGG ATCTAAATGA TGATAATGAA 
TGGGAAAGGA TTCAGGGAAA CACCTTTCCT CCTTTTACTG GACCAAATTT TGACCATACT 
TTTGGCAATG AATCAGGATT TTACATTTCC ACCCCCACTG GACCAGGAGG GAGACGAGAA 
AGAGTAGGAC TCTTAAGTCT CCCTTTAGAC CCCACTTTAG AACCAGTCTG CCTCAGTTTC 
TGGTATTATA TGTATGGTGA AAATGTCTAT AAATTAAGCA TTAATATCAG CAGTGACCAA 
AATATGGAGA AGACAGTTTT CCAAAAGGAA GGAAATTATG GAGAAAATTG GAATTATGGA 
CAAGTAACAT TAAATGAAAC AGTGGAATTT AAGGTTGCTT TTAATGCTTT TAAAAACCAG 
ATCCTGAGTG ATATAGCATT GGATGACATT AGCCTAACGT ATGGGATTTG CAATGTGAGT 
CTTTATCCAG AACCAACTTT GGTCCCAACT CCTCCACCAG AACTTCCTAC GGACTGTGGA 
GGACCTTTTG AACTGTGGGA GCCGAATACA ACATTCACTT CCATGAACTT TCCAAACAAC 
TACCCTAACC AGGCTTTCTG TGTTTGGAAT TTAAATGCAC AGAAGGGAAA AAATATACAA 
CTTCATTTTC AAGAATTCGA CTTGGAAAAT ATTGCAGATG TAGTGGAAAT CAGAGATGGT 
AGAGAAGATG ATTCTTTGCT CTTAGCTGTG TATACAGGGC CTGGCCCAGT AATGGACGTG 
TTCTCAACCA CCAACAGAAT GACGGTTCTT TTCATCACTG ACAAGCTGTT GGCAAAAGGG 
GGATTTAAAG CAAACTTCAC TACTGGCTAC TACTTGGGGA TTCCAGAGCC CTGCAAGGAA 
GACTATTTTC AGTGTAAGAA TGGAGAGTGT GTTCCACTGG TGAATCTCTG TGATGGTCTT 
CTACACTGTA AGGATGGTTC AGATGAAGCC CATTGCGTGC GTCTTTTCAA CGGCACACTG 
AACAATAATG GTTTGGTGCA GTTCAGAATC CTGAGTACAT GGCATGTAGC TTGTGCTGAC 
AACTGGACAC CCCAGATTTC AAATGATGTC TGTCAGCTGC TGGGACTAGG GAGTGGAAAC 
TCATCAATGG CAGTCTTCTC TTCTGGAAGT GGACCATTTG TAAAATTAAG CACAGCACCT 
AATGGCAGCT TACTACTAAC ACCAAGTAAA CAGTGTTTCC AGGATTCATT GATCCTGTTA 
CAGTGTAACA GTAAATTATG TGGAAACAAA CTGGTGGCCC AAGAAGTCAA CCCGAAGATT 
GTTGGAGGAA ATAACGCCAA AGAAGGAGCC TGGCCCTGGG TGGTTGCCCT TTACTATAAT 
GGCCAACTGC TCTGTGGCGC TTCTCTCCTC AGCAACGACT GGCTAGTGTC TGCGGCCCAC 
TGTGTGTATG GGAGAAATTT AAAGCCATCC AAGTGGGAAG CAGTCCTAGG CCTGCATATG 
ACATCAAATC TGACTTCTCC TCAAATAGTA ACTCGGTTTA TAGATCAAAT CGTCATAAAC 
CCTCATTACA ATAAACGGAA AAAGGACAGT GACCTCGCCA TGATGCACCT TGACTTTAAA 
GTGAATTACA CAGATTATAT ACAACCTATT TGTTTACCAG AAGAAAATCA AGTTTTTCCT 
CCAGGAAGAA TTTGTTCCAT TGCTGGCTGG GGGAGGATTA TACATCAAGG CCCTACTGCA 
AACATATTGC AAGAAGCCAA TGTCCCTCTT CTATCAAATG AGAAATGCCA ACAACAGATG 
CCAGAATATA ACATTACAGA AAACATGGTC TGTGCAGGTT ATGAAGAAGG AGGAATAGAT 
TCTTGTCAGG GGGATTCCGG AGGACCATTA ATGTGCCAAG AAAACAACAG GTGGTTCCTG 
GCTGGTGTGA CATCATTTGG ATACCAGTGT GGACTGCCTA ATCGTCCAGG GGTGTATGCC 
CGGGTCCTGA GGTTCACAGA ATGGATACAA AGTTTTCTAC AGTGA

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

RefSeq	XP_022358216.1
CDS	1..3105
Translation	MVSKRNKPSRHLSLSTYEVLFAALFVLLVVVCAGLFAVSWLAIKETERDAVFGESHKTRGTLKITSGATYNPNLQDKLSADFKILAFDLQQMMDEIFQTSNLKNEYKNSRILQFENGSIIVIFDLFFAQWVSDENVKEELIQGIEANKSSHLVTFHIDLNSIDITVSLGNFSTVSPATTSSKLTTHSPLSTPGNVSIECPPGSSPCADALKCIAIDLFCDGELNCPDGSDEDSNTCATACDGRFLLTGSSGSFQAARYPKPSKLSVVCRWIIRVNQGLFIKLSFNYFNTCYTDVLNIYEGVGTSKILRASLWETNPGTIRIFSNQVTATFLIGSDENDYSGFNATYTAFNSTELNNYEKINCNFEDGFCFWVQDLNDDNEWERIQGNTFPPFTGPNFDHTFGNESGFYISTPTGPGGRRERVGLLSLPLDPTLEPVCLSFWYYMYGENVYKLSINISSDQNMEKTVFQKEGNYGENWNYGQVTLNETVEFKVAFNAFKNQILSDIALDDISLTYGICNVSLYPEPTLVPTPPPELPTDCGGPFELWEPNTTFTSMNFPNNYPNQAFCVWNLNAQKGKNIQLHFQEFDLENIADVVEIRDGREDDSLLLAVYTGPGPVMDVFSTTNRMTVLFITDKLLAKGGFKANFTTGYYLGIPEPCKEDYFQCKNGECVPLVNLCDGLLHCKDGSDEAHCVRLFNGTLNNNGLVQFRILSTWHVACADNWTPQISNDVCQLLGLGSGNSSMAVFSSGSGPFVKLSTAPNGSLLLTPSKQCFQDSLILLQCNSKLCGNKLVAQEVNPKIVGGNNAKEGAWPWVVALYYNGQLLCGASLLSNDWLVSAAHCVYGRNLKPSKWEAVLGLHMTSNLTSPQIVTRFIDQIVINPHYNKRKKDSDLAMMHLDFKVNYTDYIQPICLPEENQVFPPGRICSIAGWGRIIHQGPTANILQEANVPLLSNEKCQQQMPEYNITENMVCAGYEEGGIDSCQGDSGGPLMCQENNRWFLAGVTSFGYQCGLPNRPGVYARVLRFTEWIQSFLQ

Target ORF information:

RefSeq Version	XM_022502508.1
Organism	Enhydra lutris kenyoni
Definition	Enhydra lutris kenyoni transmembrane protease, serine 15 (LOC111146811), mRNA.

Target ORF information:

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

XM_022502508.1

ORF Insert Sequence:

ATGGTGTCAA AAAGAAATAA ACCTTCAAGG CACCTTTCTC TCAGCACCTA TGAAGTCCTG 
TTTGCAGCTC TCTTTGTCTT ATTGGTGGTC GTCTGTGCTG GATTATTTGC AGTGTCCTGG 
CTGGCAATCA AGGAAACAGA AAGAGATGCA GTGTTTGGAG AAAGTCACAA AACCAGAGGG 
ACATTGAAAA TAACATCTGG AGCAACATAC AATCCTAATT TACAAGACAA ACTCTCAGCG 
GATTTCAAAA TTCTTGCTTT TGACCTTCAG CAAATGATGG ATGAGATCTT TCAAACAAGT 
AATCTGAAAA ATGAATATAA AAACTCAAGA ATTTTACAAT TTGAAAATGG CAGCATTATA 
GTTATATTTG ACCTTTTCTT TGCCCAGTGG GTGTCAGATG AAAATGTAAA AGAAGAACTG 
ATTCAAGGCA TTGAAGCAAA TAAATCCAGC CACCTGGTCA CTTTCCATAT TGATTTGAAC 
AGCATAGATA TCACAGTCTC TTTGGGGAAT TTCTCTACAG TAAGTCCTGC AACAACTTCA 
AGCAAGCTAA CAACCCACAG TCCTCTGTCA ACTCCAGGAA ATGTCTCCAT AGAATGTCCA 
CCTGGTTCTA GTCCTTGTGC TGATGCTCTA AAGTGTATAG CAATTGATTT ATTTTGTGAT 
GGAGAATTAA ACTGTCCAGA TGGTTCTGAT GAAGACAGTA ACACTTGTGC CACAGCTTGT 
GATGGAAGGT TTTTGTTGAC TGGATCTTCT GGGTCCTTCC AGGCTGCTCG TTACCCGAAG 
CCTTCTAAAT TGAGTGTTGT TTGCCGGTGG ATTATACGTG TAAATCAAGG ACTCTTCATT 
AAACTGAGCT TCAATTATTT TAATACATGT TATACAGATG TATTAAATAT TTATGAAGGT 
GTGGGTACAA GCAAGATTTT AAGAGCTTCT CTCTGGGAAA CCAATCCAGG CACAATTAGG 
ATCTTTTCCA ACCAAGTTAC TGCCACTTTT CTTATAGGAT CTGATGAAAA TGATTATAGT 
GGATTTAATG CAACATACAC CGCATTTAAC AGCACAGAAC TTAATAATTA TGAGAAAATT 
AACTGTAATT TTGAAGATGG CTTTTGTTTC TGGGTCCAGG ATCTAAATGA TGATAATGAA 
TGGGAAAGGA TTCAGGGAAA CACCTTTCCT CCTTTTACTG GACCAAATTT TGACCATACT 
TTTGGCAATG AATCAGGATT TTACATTTCC ACCCCCACTG GACCAGGAGG GAGACGAGAA 
AGAGTAGGAC TCTTAAGTCT CCCTTTAGAC CCCACTTTAG AACCAGTCTG CCTCAGTTTC 
TGGTATTATA TGTATGGTGA AAATGTCTAT AAATTAAGCA TTAATATCAG CAGTGACCAA 
AATATGGAGA AGACAGTTTT CCAAAAGGAA GGAAATTATG GAGAAAATTG GAATTATGGA 
CAAGTAACAT TAAATGAAAC AGTGGAATTT AAGGTTGCTT TTAATGCTTT TAAAAACCAG 
ATCCTGAGTG ATATAGCATT GGATGACATT AGCCTAACGT ATGGGATTTG CAATGTGAGT 
CTTTATCCAG AACCAACTTT GGTCCCAACT CCTCCACCAG AACTTCCTAC GGACTGTGGA 
GGACCTTTTG AACTGTGGGA GCCGAATACA ACATTCACTT CCATGAACTT TCCAAACAAC 
TACCCTAACC AGGCTTTCTG TGTTTGGAAT TTAAATGCAC AGAAGGGAAA AAATATACAA 
CTTCATTTTC AAGAATTCGA CTTGGAAAAT ATTGCAGATG TAGTGGAAAT CAGAGATGGT 
AGAGAAGATG ATTCTTTGCT CTTAGCTGTG TATACAGGGC CTGGCCCAGT AATGGACGTG 
TTCTCAACCA CCAACAGAAT GACGGTTCTT TTCATCACTG ACAAGCTGTT GGCAAAAGGG 
GGATTTAAAG CAAACTTCAC TACTGGCTAC TACTTGGGGA TTCCAGAGCC CTGCAAGGAA 
GACTATTTTC AGTGTAAGAA TGGAGAGTGT GTTCCACTGG TGAATCTCTG TGATGGTCTT 
CTACACTGTA AGGATGGTTC AGATGAAGCC CATTGCGTGC GTCTTTTCAA CGGCACACTG 
AACAATAATG GTTTGGTGCA GTTCAGAATC CTGAGTACAT GGCATGTAGC TTGTGCTGAC 
AACTGGACAC CCCAGATTTC AAATGATGTC TGTCAGCTGC TGGGACTAGG GAGTGGAAAC 
TCATCAATGG CAGTCTTCTC TTCTGGAAGT GGACCATTTG TAAAATTAAG CACAGCACCT 
AATGGCAGCT TACTACTAAC ACCAAGTAAA CAGTGTTTCC AGGATTCATT GATCCTGTTA 
CAGTGTAACA GTAAATTATG TGGAAACAAA CTGGTGGCCC AAGAAGTCAA CCCGAAGATT 
GTTGGAGGAA ATAACGCCAA AGAAGGAGCC TGGCCCTGGG TGGTTGCCCT TTACTATAAT 
GGCCAACTGC TCTGTGGCGC TTCTCTCCTC AGCAACGACT GGCTAGTGTC TGCGGCCCAC 
TGTGTGTATG GGAGAAATTT AAAGCCATCC AAGTGGGAAG CAGTCCTAGG CCTGCATATG 
ACATCAAATC TGACTTCTCC TCAAATAGTA ACTCGGTTTA TAGATCAAAT CGTCATAAAC 
CCTCATTACA ATAAACGGAA AAAGGACAGT GACCTCGCCA TGATGCACCT TGACTTTAAA 
GTGAATTACA CAGATTATAT ACAACCTATT TGTTTACCAG AAGAAAATCA AGTTTTTCCT 
CCAGGAAGAA TTTGTTCCAT TGCTGGCTGG GGGAGGATTA TACATCAAGG CCCTACTGCA 
AACATATTGC AAGAAGCCAA TGTCCCTCTT CTATCAAATG AGAAATGCCA ACAACAGATG 
CCAGAATATA ACATTACAGA AAACATGGTC TGTGCAGGTT ATGAAGAAGG AGGAATAGAT 
TCTTGTCAGG GGGATTCCGG AGGACCATTA ATGTGCCAAG AAAACAACAG GTGGTTCCTG 
GCTGGTGTGA CATCATTTGG ATACCAGTGT GGACTGCCTA ATCGTCCAGG GGTGTATGCC 
CGGGTCCTGA GGTTCACAGA ATGGATACAA AGTTTTCTAC AGTGA