Piezo2 (NM_001039485) Mouse Tagged ORF Clone
CAT#: MR226955
- TrueORF®
Piezo2 (Myc-DDK-tagged) - Mouse family with sequence similarity 38, member B (Fam38b). Note: ORF is codon optimized
ORF Plasmid: tGFP
"NM_001039485" in other vectors (2)
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CNY 20,136.00
CNY 300.00
Specifications
Product Data | |
Type | Mouse Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | 5930434P17; 9030411M15Rik; 9430028L06Rik; Fam38b; Fam38b2 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MR226955 representing NM_001039485, codon optimized.
Due to the complexity of NM_001039485, the ORF clone is codon optimized for mammalian Expression. The nucleotide sequence differs from the reference sequence, yet the amino acid sequence remains identical. Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGCTTCGGAAGTGGTGTGCGGGCTGATCTTCAGGCTGCTGCTTCCCATCTGCCTGGCAGTAGCATGTG CGTTCCGGTACAATGGGCTCTCCTTTGTCTACCTTATCTACCTCTTGCTCATTCCTCTGTTCTCAGAACC AACCAAAGCAACGATGCAAGGACACACAGGGCGGTTGCTACAGTCCCTGTGCATCACCAGCCTCTCATTT CTGCTGCTTCACATCATTTTCCACATCACACTGGCCAGTCTGGAAGCTCAACACCGCATCACACCTGCTT ACAACTGCTCAACATGGGAAAAGACCTTCCGGCAGATTGGCTTTGAAAGCTTGAAGGGAGCTGATGCCGG CAATGGCATCAGGGTATTTGTGCCTGATATCGGGATGTTCATTGCAAGTCTGACCATCTGGCTGGTCTGC AGAACCATTGTTAAGAAACCAGACACAGAAGAAATAGCCCAATTGAATTCTGAGTGTGAAAATGAAGAAT TGGCTGGAGGAGAAAAGATGGATTCAGAGGAGGCGCTGATTTATGAAGAGGACTTAGATGGAGAAGAAGG CATGGAAGGAGAGCTAGAAGAAAGCACAAAACTAAAAATACTTCGCAGGTTCGCCTCTGTCGCCTCCAAA CTGAAGGAGTTCATTGGCAATATGATCACCACGGCGGGCAAGGTCGTGGTGACCATCCTACTGGGCTCCT CGGGCATGATGCTGCCATCTTTGACCTCGGCTGTGTACTTCTTTGTATTTCTGGGCCTGTGTACCTGGTG GTCCTGGTGCCGAACTTTCGACCCATTGCTGTTCGGCTGCCTCTGTGTCCTGCTGGCAATCTTCACTGCT GGGCACCTGATTGGACTTTATCTGTACCAGTTCCAATTCTTCCAAGAAGCGGTCCCGCCCAATGACTACT ATGCAAGGTTGTTTGGGATCAAGTCCGTTATCCAGACAGACTGTGCCAGCACCTGGAAGATCATAGTAAA CCCAGACCTGTCCTGGTATCACCATGCCAACCCCATCCTCCTGCTGGTGATGTACTATACGCTGGCCACG CTGATTCGCATCTGGCTACAAGAGCCTCTTGTGCAAGAGGAGATGGCGAAGGAAGATGAGGGTGCCCTGG ATTGCAGCTCCAATCAGAACACGGCAGAGAGGAGGCGGAGCCTGTGGTATGCAACCCAGTACCCAACAGA TGAGAGAAAACTTTTATCCATGACCCAAGATGACTACAAACCATCTGATGGCCTGCTGGTGACCGTGAAT GGCAACCCTGTGGACTACCACACCATCCACCCAAGCCTGCCCATAGAGAATGGCCCTGCCAAGACGGACC TGTACACCACTCCCCAGTACCGGTGGGAGCCTTCGGAGGAGTCCTCAGAAAAGAAAGAGGAAGAAGAGGA CAAGAGAGAAGACTCCGAAGGGGAAGGGAGCCAGGAGGAGAAAAGGAGTGTGAGAATGCACGCCATGGTC GCCGTGTTCCAGTTCATCATGAAGCAGAGTTACATCTGTGCCCTCATCGCCATGATGGCATGGAGCATCA CCTACCACAGCTGGCTGACTTTCGTGCTGTTGATCTGGTCCTGCACCCTCTGGATGATTCGCAACAGGAG GAAGTATGCCATGATCAGTTCTCCTTTCATGGTCGTCTATGCGAATCTGCTGCTGGTGCTGCAGTACATA TGGAGCTTCGAGCTCCCCGAGATTAAGAAGGTCCCCGGGTTTCTAGAAAAGAAAGAGCCGGGAGAACTTG CTTCAAAGATTCTCTTCACCATCACGTTCTGGCTGCTCCTGAGGCAGCATCTCACAGAGCAGAAGGCCCT GAGGGAAAAGGAAGCACTTCTTTCTGAAGTCAAAATTGGAAGTCAAGAACTTGAAGAAAAGGAAGATGAG GAGCTCCAAGATGTACAAGTGGAAGGGGAGCCCACAGAGAAGGAAGAAGAAGAGGAAGAGGAAATAAAGG AAGAAAGGCATGAGGTAAAGAAGGAAGAGGAAGAGGAAGTGGAGGAAGATGATGACCAGGACATCATGAA GGTGCTGGGTAATCTGGTGGTGGCCCTCTTCATCAAGTATTGGATCTACGTCTGCGGGGGCATGTTCTTT TTTGTCAGCTTTGAGGGGAAAATCGTCATGTACAAAATCATCTACATGGTGCTGTTCCTGTTCTGCGTGG CCTTGTACCAGGTGCACTACGAGTGGTGGAGGAAGATCCTGAAGTACTTCTGGATGTCGGTGGTCATTTA TACCATGTTGGTGCTCATCTTCATATACACTTACCAGTTTGAAAACTTCCCAGGCCTGTGGCAAAACATG ACCGGATTAAAGAAAGAAAAGCTCGAGGACCTCGGCCTGAAGCAGTTCACGGTCGCTGAACTGTTCACTC GCATATTCATCCCCACCTCCTTTCTACTCGTCTGCATCCTACACCTCCACTACTTCCACGATCGGTTCCT GGAACTTACAGACCTCAAGTCCATCCCCAGCAAAGAAGACAACACCATCTACAGCCATGCCAAAGTCAAT GGTCGCGTGTACCTAATAATAAATAGGTTGGCCCACCCTGAAGGAAGTCTTCCAGACTTAGCCATCATGA ATATGACGGCCAGCCTTGATAAGCCTGAGGTGCAGAAGTTGGCAGAGTCTGGGGAGGAGAGGCCAGAAGA GTGTGTCAAGAAGACGGAGAAGGGTGAGGCTGGGAAAGACAGTGATGAGTCTGAGGAGGAGGAAGATGAA GAAGAGGAATCCGAGGAAGAAGAAAGCTCAGACCTCAGGAACAAGTGGCACCTGGTGATTGACCGGCTCA CTGTGCTCTTTCTAAAATTCCTGGAGTATTTCCACAAGTTGCAGGTGTTTATGTGGTGGATCTTGGAGCT GCACATCATCAAAATCGTCTCATCGTACATTATCTGGGTGACTGTGAAAGAGGTGTCTCTGTTCAACTAT GTATTTTTGATTTCTTGGGCATTTGCTCTGCCATATGCCAAACTCCGTCGTGCGGCTTCCAGTGTCTGCA CTGTCTGGACATGTGTGATCATCGTCTGCAAAATGTTGTACCAGCTGCAAACCATTAAACCTGAGAACTT TTCTGTCAACTGCTCCTTGCCCAATGAAAATCAAACCAACATTCCCCTTCATGAGTTGAACAAGTCTCTT CTCTACAGTGCCCCTGTTGATCCCACTGAGTGGGTAGGCCTGAGGAAGTCCTCTCCTTTGCTCGTCTACC TGAGGAACAACCTCCTGATGCTGGCGATTTTGGCCTTTGAAGTCACCGTTTACCGCCACCAGGAGTACTA TCGCGGTCGCAACAACCTTACAGCGCCAGTATCCAAAACAATTTTTCACGATATCACTAGACTCCACCTC GACGACGGCTTGATCAATTGTGCTAAGTATTTCGTAAATTACTTTTTTTACAAGTTTGGCCTGGAAACAT GCTTTCTGATGTCCGTAAACGTAATAGGCCAGAGAATGGATTTTTACGCCATGATCCACGCATGTTGGCT GATCGGAGTGCTGTATCGCCGGCGACGCAAAGCCATTGCTGAGGTGTGGCCCAAGTACTGCTGTTTCCTG GCGTGTATCATCACTTTTCAGTATTTCGTATGCATAGGGATTCCTCCGGCTCCTTGCAGGGACTACCCCT GGCGATTCAAGGGAGCATACTTCAATGATAATATAATCAAATGGCTCTACTTCCCAGACTTTATCGTCAG ACCAAATCCCGTTTTCCTCGTATACGATTTCATGCTCCTTTTGTGCGCAAGCCTGCAGCGCCAGATTTTC GAGGATGAGAACAAAGCTGCCGTCAGGATCATGGCAGGCGATAATGTCGAGATTTGCATGAATCTCGACG CAGCCAGCTTCAGCCAGCATAATCCAGTGCCAGATTTCATCCACTGCCGATCCTATCTCGACATGTCCAA GGTTATTATCTTTTCCTATTTGTTCTGGTTTGTCCTGACTATTATCTTCATCACAGGAACGACAAGGATT TCCATTTTTTGCATGGGCTATCTCGTTGCTTGCTTCTACTTCCTCCTCTTCGGCGGGGATCTCCTGCTGA AGCCCATTAAGAGCATCCTGCGCTATTGGGATTGGCTTATTGCTTATAACGTTTTCGTGATCACCATGAA GAACATTCTGTCTATAGGTGCCTGCGGGTACATCGGCGCACTGGTGAGGAATAGCTGTTGGCTCATCCAG GCCTTTAGTCTCGCGTGTACTGTTAAGGGCTACCAGATGCCAGAGGACGACAGTCGATGTAAGTTGCCAT CAGGCGAGGCCGGCATTATTTGGGATAGCATATGTTTCGCCTTCCTCCTTCTTCAGAGAAGGGTCTTCAT GAGCTACTACTTTCTGCATGTGGTAGCAGACATCAAGGCCAGTCAGATCTTGGCAAGCAGGGGCGCCGAA CTTTTCCAAGCCACAATCGTCAAAGCCGTAAAAGCGAGAATAGAAGAAGAGAAAAAGTCTATGGATCAAC TTAAGAGGCAGATGGACCGCATCAAGGCAAGACAACAGAAATATAAGAAAGGCAAGGAACGAATGTTGAG TCTCACACAGGAGTCAGGTGAAGGTCAGGATATCCAGAAGGTGAGCGAGGAGGACGATGAGCGAGAAGCT GATAAACAGAAAGCTAAGGGTAAAAAGAAACAGTGGTGGCGACCTTGGGTCGATCACGCCTCTATGGTCA GAAGCGGAGATTACTATCTGTTCGAAACCGACAGCGAGGAGGAAGAGGAGGAGGAACTGAAAAAGGAAGA CGAGGAGCCGCCAAGGAAATCCGCTTTCCAGTTTGTCTATCAGGCTTGGATCACTGATCCGAAAACCGCC CTGAGACAGCGCCGAAAGGAGAAAAAAAAGCTGGCCCGGGAGGAGCAGAAGGAGCGCCGCAAAGGCTCTG GAGACGGCCCTGTCGAGTGGGAAGACCGAGAAGATGAACCTGTCAAAAAGAAGTCAGATGGGCCCGATAA TATCATTAAGAGAATTTTTAATATCCTCAAGTTTACGTGGGTGCTGTTTCTCGCGACTGTTGATTCCTTT ACTACCTGGCTCAATTCTATTAGTCGGGAGCACATCGATATCTCAACCGTTCTGAGAATCGAGAGGTGTA TGCTGACGCGAGAGATTAAAAAGGGAAACGTCCCCACTAGGGAATCAATTCATATGTATTATCAAAACCA CATTATGAACCTTAGTCGCGAGAGCGGACTGGATACCATTGATGAGCACTCTGGTGCAGGCAGTAGAGCC CAGGCTGCTCATCGGATGGACAGCCTGGATTCAAGGGACTCCATATCCAGCTGCTACACTGAAGCCACTC TCCTGATTTCACGGCAGAGCACACTGGACGATTTGGACGGCCAGGACCCAGTACCGAAGACCAGTGAGCG CGCCAGGCCTCGCCTGAGGAAGATGTTCAGCCTCGACATGTCTTCTAGCAGCGCGGACTCCGGTTCTGTT GCCAGTTCTGAGCCAACACAGTGCACTATGTTGTATTCTAGGCAGGGCACCACAGAAACCATTGAAGAGG TAGAGGCGGAAGCTGAGGAAGAGGTGGTGGAAGGGTTGGAACCAGAACTCCACGACGCGGAGGAGAAAGA ATACGCGGCCGAATACGAGGCCGGGGTGGAGGAGATTTCTCTTACTCCGGATGAGGAACTGCCACAGTTC TCTACCGACGACTGTGACGTTGAAGCTCCCCCGAGTTACTCTAAGGCAGTGAGCTTCGAACACCTTTCAT TCGCCTCTCAGGACGACAGTGGGGCAAAAAATCACATGGTGGTGTCACCAGACGATAGTAGGACCGACAA GCTGGAATCCAGCATCCTGCCACCACTCACCCATGAGCTGACCGCGTCCGACCTGTTGATGTCTAAAATG TTTCATGATGATGAACTGGAAGAGAGTGAGAAATTCTATGTGGATCAGCCACGATTTCTGCTGCTTTTCT ACGCTATGTACAACACCCTCGTAGCCCGCAGCGAAATGGTTTGCTACTTCGTGATCATCTTGAACCACAT GACCTCCGCAAGCATTATTACCTTGCTCCTGCCCATTCTCATCTTCCTGTGGGCCATGCTGTCCGTCCCA CGGCCATCACGGAGATTCTGGATGATGGCTATTGTATACACTGAGGTCGCCATAGTGGTCAAGTACTTTT TTCAGTTTGGTTTTTTTCCATGGAATAAAGACCTGGAAATCTATAAGGAAAGGCCATACTTCCCCCCAAA TATCATCGGTGTTGAGAAAAAGGAAGGATATGTCTTGTATGACCTGATCCAACTGCTTGCCTTGTTCTTC CATCGGTCAATCTTGAAGTGCCACGGTCTGTGGGATGAGGACGATATCGTGGATTCCAACACCGACAAGG AGGGATCTGACGACGAGCTCAGTCTTGATCAGGGACGCCGCGGTTCTAGTGACTCCCTGAAGTCTATCAA CCTCGCTGCTTCCGTGGAGAGTGTACACGTGACTTTCCCAGAACAACCTGCTGCTATTAGACGAAAGAGA TCCTGTAGTTCCTCACAAATCTCTCCCAGGTCTTCATTCTCCAGCAACCGGAGCAAGCGGGGCTCTACAA GCACGCGCAACAGTTCTCAGAAAGGATCAAGTGTTCTCAGCCTCAAGCAGAAGTCCAAGCGAGAGTTGTA CATGGAGAAACTGCAGGAACACCTGATCAAAGCAAAAGCATTCACTATCAAGAAGACCCTGCAGATATAC GTGCCCATAAGACAGTTCTTCTACGATCTGATTCATCCAGACTACTCAGCCGTGACTGACGTCTACGTCC TTATGTTCCTGGCAGACACTGTAGACTTTATCATCATAGTCTTCGGTTTCTGGGCATTCGGGAAGCATAG TGCCGCTGCTGATATTACCTCCTCCCTGAGCGAGGATCAGGTACCCGGGCCATTCCTGGTCATGGTTTTG ATCCAGTTCGGAACAATGGTTGTAGACAGGGCGTTGTATCTTAGAAAGACAGTCCTTGGGAAGGTCATCT TTCAGGTGATTCTGGTGTTTGGCATTCACTTTTGGATGTTCTTTATACTCCCGGGTGTGACTGAAAGAAA GTTTTCCCAGAATCTGGTGGCCCAGCTGTGGTACTTCGTCAAGTGTGTTTACTTCGGCCTGTCTGCCTAT CAAATCCGCTGCGGTTACCCAACAAGGGTGCTGGGGAATTTCCTGACCAAGTCTTATAATTATGTCAATC TGTTTCTGTTCCAGGGCTTCAGGCTGGTCCCCTTTTTGACTGAACTGAGGGCTGTAATGGATTGGGTCTG GACAGATACTACGCTCAGTCTGTCAAGCTGGATCTGTGTGGAGGACATCTATGCACATATATTTATACTC AAATGTTGGAGAGAGAGCGAGAAGCGATATCCCCAGCCCAGGGGACAAAAGAAAAAAAAGGCCGTGAAAT ATGGCATGGGTGGTATGATTATCGTGCTGCTTATTTGCATTGTGTGGTTTCCCCTTCTCTTCATGAGCTT GATTAAGTCTGTTGCTGGAGTTATCAACCAACCACTGGACGTATCTGTGACAATAACGCTCGGTGGCTAC CAGCCTATATTCACCATGTCCGCCCAGCAGTCCCAGCTGAAAGTTATGGATAACTCCAAGTATAATGAGT TCTTGAAAAGCTTTGGACCAAACTCTGGAGCCATGCAGTTTCTGGAAAATTATGAGAGAGAGGACGTCAC TGTGGCGGAATTGGAGGGCAATTCCAATAGTTTGTGGACCATCTCCCCTCCGAGTAAGCAGAAGATGATC CAGGAACTTACTGATCCTAATAGTTGCTTCTCTGTGGTCTTTAGCTGGTCCATCCAGCGGAATATGACGC TCGGAGCCAAAGCAGAAATCGCCACGGACAAACTGAGCTTCCCCCTCGCGGTGGCAACCCGGAATAGCAT CGCTAAGATGATAGCCGGCAATGATACTGAGTCTTCCAATACTCCTGTGACCATCGAAAAGATATACCCA TACTATGTGAAGGCGCCCAGCGACAGCAATTCCAAGCCTATCAAGCAGCTCCTCTCTGAGAACAACTTCA TGAACATAACCATCATTCTGTTCCGGGACAACGTGACCAAATCTAATTCTGAATGGTGGGTTTTGAATCT CACTGGGTCCCGGATCTTCAACCAGGGCAGCCAAGCTCTGGAATTGGTGGTTTTTAATGATAAGGTAAGC CCTCCCAGCCTGGGCTTCCTGGCAGGCTATGGAATCATGGGCCTGTACGCCTCCGTAGTCCTGGTGATCG GGAAATTCGTACGCGAGTTTTTTTCCGGGATATCACATAGCATCATGTTTGAGGAGCTTCCCAACGTCGA TCGGATCCTTAAGCTGTGTACCGACATTTTTCTGGTGCGCGAAACTGGCGAGCTCGAACTGGAGGAGGAT CTTTACGCAAAACTCATCTTCCTCTACCGCTCACCCGAGACTATGATAAAGTGGACCCGGGAAAAGACAA AC ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >MR226955 representing NM_001039485
Red=Cloning site Green=Tags(s) MASEVVCGLIFRLLLPICLAVACAFRYNGLSFVYLIYLLLIPLFSEPTKATMQGHTGRLLQSLCITSLSF LLLHIIFHITLASLEAQHRITPAYNCSTWEKTFRQIGFESLKGADAGNGIRVFVPDIGMFIASLTIWLVC RTIVKKPDTEEIAQLNSECENEELAGGEKMDSEEALIYEEDLDGEEGMEGELEESTKLKILRRFASVASK LKEFIGNMITTAGKVVVTILLGSSGMMLPSLTSAVYFFVFLGLCTWWSWCRTFDPLLFGCLCVLLAIFTA GHLIGLYLYQFQFFQEAVPPNDYYARLFGIKSVIQTDCASTWKIIVNPDLSWYHHANPILLLVMYYTLAT LIRIWLQEPLVQEEMAKEDEGALDCSSNQNTAERRRSLWYATQYPTDERKLLSMTQDDYKPSDGLLVTVN GNPVDYHTIHPSLPIENGPAKTDLYTTPQYRWEPSEESSEKKEEEEDKREDSEGEGSQEEKRSVRMHAMV AVFQFIMKQSYICALIAMMAWSITYHSWLTFVLLIWSCTLWMIRNRRKYAMISSPFMVVYANLLLVLQYI WSFELPEIKKVPGFLEKKEPGELASKILFTITFWLLLRQHLTEQKALREKEALLSEVKIGSQELEEKEDE ELQDVQVEGEPTEKEEEEEEEIKEERHEVKKEEEEEVEEDDDQDIMKVLGNLVVALFIKYWIYVCGGMFF FVSFEGKIVMYKIIYMVLFLFCVALYQVHYEWWRKILKYFWMSVVIYTMLVLIFIYTYQFENFPGLWQNM TGLKKEKLEDLGLKQFTVAELFTRIFIPTSFLLVCILHLHYFHDRFLELTDLKSIPSKEDNTIYSHAKVN GRVYLIINRLAHPEGSLPDLAIMNMTASLDKPEVQKLAESGEERPEECVKKTEKGEAGKDSDESEEEEDE EEESEEEESSDLRNKWHLVIDRLTVLFLKFLEYFHKLQVFMWWILELHIIKIVSSYIIWVTVKEVSLFNY VFLISWAFALPYAKLRRAASSVCTVWTCVIIVCKMLYQLQTIKPENFSVNCSLPNENQTNIPLHELNKSL LYSAPVDPTEWVGLRKSSPLLVYLRNNLLMLAILAFEVTVYRHQEYYRGRNNLTAPVSKTIFHDITRLHL DDGLINCAKYFVNYFFYKFGLETCFLMSVNVIGQRMDFYAMIHACWLIGVLYRRRRKAIAEVWPKYCCFL ACIITFQYFVCIGIPPAPCRDYPWRFKGAYFNDNIIKWLYFPDFIVRPNPVFLVYDFMLLLCASLQRQIF EDENKAAVRIMAGDNVEICMNLDAASFSQHNPVPDFIHCRSYLDMSKVIIFSYLFWFVLTIIFITGTTRI SIFCMGYLVACFYFLLFGGDLLLKPIKSILRYWDWLIAYNVFVITMKNILSIGACGYIGALVRNSCWLIQ AFSLACTVKGYQMPEDDSRCKLPSGEAGIIWDSICFAFLLLQRRVFMSYYFLHVVADIKASQILASRGAE LFQATIVKAVKARIEEEKKSMDQLKRQMDRIKARQQKYKKGKERMLSLTQESGEGQDIQKVSEEDDEREA DKQKAKGKKKQWWRPWVDHASMVRSGDYYLFETDSEEEEEEELKKEDEEPPRKSAFQFVYQAWITDPKTA LRQRRKEKKKLAREEQKERRKGSGDGPVEWEDREDEPVKKKSDGPDNIIKRIFNILKFTWVLFLATVDSF TTWLNSISREHIDISTVLRIERCMLTREIKKGNVPTRESIHMYYQNHIMNLSRESGLDTIDEHSGAGSRA QAAHRMDSLDSRDSISSCYTEATLLISRQSTLDDLDGQDPVPKTSERARPRLRKMFSLDMSSSSADSGSV ASSEPTQCTMLYSRQGTTETIEEVEAEAEEEVVEGLEPELHDAEEKEYAAEYEAGVEEISLTPDEELPQF STDDCDVEAPPSYSKAVSFEHLSFASQDDSGAKNHMVVSPDDSRTDKLESSILPPLTHELTASDLLMSKM FHDDELEESEKFYVDQPRFLLLFYAMYNTLVARSEMVCYFVIILNHMTSASIITLLLPILIFLWAMLSVP RPSRRFWMMAIVYTEVAIVVKYFFQFGFFPWNKDLEIYKERPYFPPNIIGVEKKEGYVLYDLIQLLALFF HRSILKCHGLWDEDDIVDSNTDKEGSDDELSLDQGRRGSSDSLKSINLAASVESVHVTFPEQPAAIRRKR SCSSSQISPRSSFSSNRSKRGSTSTRNSSQKGSSVLSLKQKSKRELYMEKLQEHLIKAKAFTIKKTLQIY VPIRQFFYDLIHPDYSAVTDVYVLMFLADTVDFIIIVFGFWAFGKHSAAADITSSLSEDQVPGPFLVMVL IQFGTMVVDRALYLRKTVLGKVIFQVILVFGIHFWMFFILPGVTERKFSQNLVAQLWYFVKCVYFGLSAY QIRCGYPTRVLGNFLTKSYNYVNLFLFQGFRLVPFLTELRAVMDWVWTDTTLSLSSWICVEDIYAHIFIL KCWRESEKRYPQPRGQKKKKAVKYGMGGMIIVLLICIVWFPLLFMSLIKSVAGVINQPLDVSVTITLGGY QPIFTMSAQQSQLKVMDNSKYNEFLKSFGPNSGAMQFLENYEREDVTVAELEGNSNSLWTISPPSKQKMI QELTDPNSCFSVVFSWSIQRNMTLGAKAEIATDKLSFPLAVATRNSIAKMIAGNDTESSNTPVTIEKIYP YYVKAPSDSNSKPIKQLLSENNFMNITIILFRDNVTKSNSEWWVLNLTGSRIFNQGSQALELVVFNDKVS PPSLGFLAGYGIMGLYASVVLVIGKFVREFFSGISHSIMFEELPNVDRILKLCTDIFLVRETGELELEED LYAKLIFLYRSPETMIKWTREKTN TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_001039485 |
ORF Size | 8472 bp |
OTI Disclaimer | The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info |
OTI Annotation | This clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene. |
Product Components | The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water). |
Reconstitution | 1. Centrifuge at 5,000xg for 5min. 2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA. 3. Close the tube and incubate for 10 minutes at room temperature. 4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom. 5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C. |
Reference Data | |
RefSeq | NM_001039485.4, NP_001034574.4 |
RefSeq Size | 10742 bp |
RefSeq ORF | 8475 bp |
Locus ID | 667742 |
UniProt ID | Q8CD54 |
MW | 325.8 kDa |
Gene Summary | Component of a mechanosensitive channel required for rapidly adapting mechanically activated (MA) currents (PubMed:20813920, PubMed:24717433). Required for Merkel-cell mechanotransduction (PubMed:24717433). Plays a major role in light-touch mechanosensation (PubMed:25471886).[UniProtKB/Swiss-Prot Function] |
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