OTOG (NM_001277269) Human Tagged ORF Clone

CAT#: RG240262

OTOG (GFP-tagged) - Human otogelin (OTOG), transcript variant 1

Specifications

Product Data

• Tag: TurboGFP
• Symbol: OTOG
• Synonyms: DFNB18B; MLEMP; OTGN
• Vector: pCMV6-AC-GFP
• E. coli Selection: Ampicillin (100 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  ORF Nucleotide Sequence

  >RG240262 representing NM_001277269.
  Blue=ORF Red=Cloning site Green=Tag(s)
  
  GCTCGTTTAGTGAACCGTCAGAATTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTG
  GATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCC
  ATGGGAGTCCTGGCGTCTGCGCTCTGCTGGCTGCTTTGTGTCTGGCTGCCCTGGGGTGAGCAGGCAGCC
  GAGTCCCTGCGGGTGCAGCGCCTCGGTGAGAGGGTTGTGGACTCAGGGAGGTCGGGGGCTCGAGGAATG
  AGAAACGTTAAAGGAATGAGGAATGGGCCCGCGCAGACTCGTGTTTCCTCCAGCAGCAGCCACCAGGAG
  GCGACCCTTGCCATGGGGGACAAGGCTACAGTCGTGGGAGGCCAGCAGGCTGAAGCCCCAGACTCCGTG
  GCCATGTCTTCCTGGGAAAGGCGGCTCCATCGGGCCAAGTGTGCACCATCCTACTTGTTCTCCTGCTTC
  AATGGAGGCGAGTGTGTGCACCCAGCCTTCTGTGACTGCAGACGCTTCAATGCCACTGGACCGCGCTGC
  CAGATGGTGTACAATGCCGGCCCTGAGAGGGACAGCATTTGCCGGGCGTGGGGGCAGCACCACGTGGAG
  ACATTTGATGGGCTCTACTACTACCTCTCCGGAAAGGGCAGCTACACCCTGGTGGGTCGCCATGAGCCC
  GAGGGACAGAGCTTCTCCATCCAGGTACACAATGACCCGCAGTGTGGCTCTTCACCCTACACCTGCTCC
  AGGGCTGTCAGCCTCTTCTTTGTGGGTGAGCAGGAGATCCATCTGGCCAAGGAGGTCACCCATGGAGGC
  ATGAGGGTCCAACTGCCACATGTCATGGGGAGCGCGCGTCTGCAGCAGCTTGCCGGCTATGTCATCGTG
  CGGCATCAGTCAGCCTTCACACTGGCCTGGGATGGTGCCTCGGCTGTCTACATCAAGATGAGTCCAGAG
  CTTCTGGGCTGGACCCATGGGCTGTGTGGGAACAACAATGCTGACCCCAAGGATGATCTGGTGACCAGC
  TCTGGGAAGCTGACTGACGACGTGGTTGAGTTTGTGCACAGCTGGCAGGAGCAGGCCCCTAACCAGCCT
  CCAGGGCCCACAACTTCCTCCCTGCCTCGCCCACCGTGCCTACAGCAGAACCCAGGAACCATGCAGGGC
  GTGTACGAGCAGTGTGAGGCTCTACTGCGGCCCCCCTTTGACGCCTGCCACGCCTACGTCAGCCCTCTG
  CCCTTCACAGCCAGTTGTACCAGTGATCTCTGCCAATCAATGGGTGATGTAGCCACCTGGTGCCGGGCA
  CTGGCGGAGTATGCCCGGGCGTGTGCCCAGGCAGGGCGGCCCTTGCAAGGCTGGAGGACCCAGCTCCGG
  CAATGCACTGTGCACTGCAAGGAGAAGGCCTTTACCTACAATGAGTGCATCGCCTGCTGCCCTGCCTCC
  TGCCATCCCCGGGCATCCTGTGTGGACAGTGAGATCGCCTGTGTGGACGGCTGCTATTGCCCCAATGGG
  CTCATCTTCGAGGATGGGGGCTGCGTGGCACCAGCTGAGTGTCCCTGTGAGTTTCACGGGACTCTGTAC
  CCACCTGGCTCTGTGGTGAAGGAAGACTGCAATACTTGCACATGCACCTCAGGCAAGTGGGAGTGCAGC
  ACAGCTGTCTGCCCAGCTGAGTGCTCAGTGACTGGTGACATTCACTTCACAACCTTTGATGGCCGCCGG
  TACACGTTCCCCGCCACATGTCAGTACATCCTGGCCAAGAGCCGCTCTTCGGGCACCTTCACCGTGACA
  TTGCAGAATGCCCCATGTGGCCTGAACCAAGATGGAGCCTGTGTCCAGTCAGTGTCAGTGATTCTGCAC
  CAGGACCCTCGGAGGCAGGTGACCCTGACCCAGGCAGGGGATGTCCTTCTGTTTGACCAGTACAAGATC
  ATCCCGCCATACACAGATGATGCCTTTGAGATCCGTAGGCTGTCCTCCGTGTTCCTGCGGGTGAGGACG
  AACGTGGGCGTGCGGGTGCTCTACGACCGTGAAGGGCTCCGACTGTACCTGCAAGTGGACCAGCGATGG
  GTGGAGGATACCGTGGGCCTCTGCGGCACCTTCAATGGCAACACGCAGGATGACTTCCTGTCTCCAGTG
  GGTGTACCTGAGAGCACCCCACAACTTTTTGGCAATTCCTGGAAAACACTTTCTGCTTGCTCCCCGCTG
  GTCTCTGGCTCCCCTCTGGACCCCTGCGATGTGCACCTGCAAGCCGCCTCCTACTCAGTGCAGGCCTGC
  AGCGTGCTCACGGGGGAGATGTTTGCGCCCTGCTCTGCGTTCCTGAGCCCCGTGCCCTACTTTGAGCAG
  TGCCGCAGGGATGCCTGCCGCTGCGGGCAGCCCTGCCTGTGCGCCACACTGGCCCACTACGCCCACCTG
  TGCCGGCGCCATGGGCTCCCCGTTGATTTCCGCGCCCGCCTGCCAGCCTGTGCACTGTCCTGTGAGGCC
  TCCAAGGAGTATAGCCCCTGCGTGGCCCCGTGTGGACGTACCTGCCAGGACCTGGCCAGCCCTGAGGCC
  TGTGGGGTTGATGGTGGCGATGACCTGAGCAGAGACGAGTGTGTGGAGGGCTGTGCCTGCCCACCGGAC
  ACCTATCTGGACACCCAGGCTGACCTCTGTGTCCCCCGGAACCAGTGCTCCTGCCACTTCCAGGGAGTG
  GACTATCCCCCCGGAGACAGTGACATCCCATCCCTGGGCCACTGCCACTGCAAAGATGGAGTCATGAGC
  TGTGATAGCAGAGCCCCAGCTGCTGCCTGCCCAGCAGGCCAGGTCTTCGTGAACTGCAGCGACCTGCAC
  ACGGACCTGGAGCTGAGCAGGGAGAGGACGTGTGAGCAGCAACTGCTGAACCTGAGCGTGTCAGCCCGT
  GGCCCCTGCCTCTCGGGCTGCGCCTGTCCCCAGGGTCTGCTCAGACACGGGGATGCATGTTTCCTGCCA
  GAGGAGTGCCCCTGCACTTGGAAGGGGAAGGAGTATTTCCCTGGGGACCAGGTGATGTCTCCTTGCCAT
  ACCTGTGTGTGCCAGCGGGGCTCATTCCAGTGCACCCTGCACCCTTGCGCCTCCACCTGCACTGCCTAT
  GGGGACCGGCATTACCGCACGTTTGATGGGCTCCCGTTTGACTTCGTGGGGGCATGCAAAGTGCACCTG
  GTCAAGAGCACATCAGATGTCAGCTTCTCTGTGATTGTAGAGAATGTGAACTGCTACAGCTCTGGCATG
  ATCTGCAGGAAATTTATTTCCATCAACGTTGGGAACTCACTCATTGTCTTTGATGATGACTCCGGAAAT
  CCTAGTCCAGAGAGCTTCCTGGATGACAAGCAGGAGGTCCACACATGGCGAGTGGGATTTTTCACACTG
  GTGCATTTCCCACAGGAGCACATCACCCTCTTGTGGGACCAGAGAACCACAGTGCACGTCCAGGCTGGG
  CCTCAGTGGCAGGGCCAGCTGGCGGGCCTCTGTGGGAACTTTGACTTAAAAACCATCAATGAGATGAGG
  ACCCCGGAGAACCTAGAGCTAACTAACCCCCAGGAGTTTGGCAGCAGTTGGGCTGCAGTTGAGTGCCCA
  GACACCCTCGATCCTCGGGATATGTGTGTCCTGAATCCTCTCCGAGAACCATTTGCCAAGAAGGAGTGC
  AGCATCCTGCTCAGTGAGGTGTTTGAGATCTGCCACCCTGTGGTTGATGTCACTTGGTTTTACTCAAAC
  TGCCTGACAGACACATGTGGCTGCAGCCAGGGTGGTGACTGTGAGTGCTTCTGTGCCAGCGTCTCCGCT
  TATGCCCACCAGTGTTGCCAGCATGGGGTGGCTGTTGACTGGCGAACCCCCCGCCTCTGCCCGTATGAC
  TGTGACTTCTTTAACAAAGTGCTAGGTAAGGGCCCCTATCAGCTATCCAGCTTGGCAGCCGGTGGTGCT
  CTGGTGGGCATGAAGGCGGTGGGCGATGACATAGTCCTAGTGAGGACAGAGGATGTGGCGCCAGCAGAC
  ATTGTGAGCTTCCTGCTGACAGCTGCTCTGTACAAGGCCAAGGCCCATGACCCAGATGTGGTGTCCCTG
  GAGGCAGCAGACAGACCCAACTTCTTCCTTCACGTCACAGCCAACGGGTCTCTGGAGCTGGCTAAGTGG
  CAGGGCCGTGACACCTTCCAACAGCATGCCTCCTTCTTGCTGCACCGGGGGACACGGCAGGCAGGCCTG
  GTGGCCCTGGAGTCCCTGGCCAAGCCCAGCTCCTTCCTCTATGTGTCGGGCGCGGTGCTGGCCCTGCGG
  CTGTACGAACACACAGAGGTGTTCCGCCGGGGCACACTCTTCCGCCTTCTGGATGCCAAGCCCTCGGGG
  GCTGCCTACCCCATCTGCGAGTGGCGCTACGATGCCTGTGCCAGCCCCTGCTTCCAAACCTGCCGGGAC
  CCACGGGCAGCCAGCTGCCGGGACGTACCCAGGGTAGAAGGCTGTGTCCCTGTGTGCCCCACCCCCCAG
  GTCCTGGATGAAGTCACACAGAGATGTGTCTACTTGGAGGACTGTGTGGAGCCAGCAGTTTGGGTTCCC
  ACAGAGGCCCTTGGCAATGAGACCCTCCCTCCCAGTCAAGGGTTGCCCACTCCCAGTGATGAGGAGCCA
  CAGCTGTCACAGGAAAGCCCCAGGACCCCCACCCACAGGCCAGCCCTCACCCCAGCTGCCCCACTCACC
  ACAGCCCTGAACCCACCAGTGACAGCCACTGAGGAGCCAGTGGTGTCTCCAGGCCCCACCCAGACCACC
  CTGCAGCAGCCACTGGAGCTCACTGCATCTCAACTCCCCGCCGGCCCCACGGAGTCCCCAGCCAGCAAG
  GGAGTGACTGCCAGCCTCCTGGCCATCCCCCATACACCAGAGTCCTCATCCCTCCCTGTTGCACTGCAG
  ACACCCACACCTGGCATGGTGTCAGGTGCCATGGAGACAACAAGGGTGACTGTGATCTTTGCAGGAAGC
  CCTAACATCACAGTCTCCTCCCGGTCGCCCCCTGCCCCTCGCTTCCCGCTCATGACCAAGGCTGTGACA
  GTCCGAGGCCATGGCTCCTTGCCTGTTAGGACGACACCCCCACAGCCCTCCTTGACAGCAAGTCCCTCC
  TCCAGACCTGTGGCTTCCCCTGGAGCCATCTCCAGGTCCCCCACCTCCTCGGGATCCCACAAGGCTGTG
  CTGACACCTGCAGTAACTAAGGTCATAAGCAGGACAGGGGTCCCCCAGCCCACCCAGGCCCAGAGTGCT
  TCAAGTCCCAGCACCCCTCTAACTGTGGCTGGAACAGCAGCAGAACAGGTTCCTGTCAGTCCCCTTGCA
  ACCAGGAGCTTGGAGATAGTGCTATCCACAGAGAAGGGCGAAGCCGGGCACAGCCAGCCCATGGGCTCG
  CCTGCCTCCCCACAGCCACACCCACTCCCCTCTGCACCACCCCGCCCAGCCCAGCATACCACCATGGCC
  ACCAGGTCTCCAGCTCTGCCCCCAGAGACCCCAGCTGCCGCCAGCCTGTCAACAGCCACTGATGGGCTG
  GCAGCCACACCCTTCATGTCCCTTGAGTCAACTCGTCCCTCCCAGCTCCTCTCTGGCCTGCCTCCCGAC
  ACCAGCCTGCCCCTGGCCAAGGTGGGCACATCTGCCCCAGTGGCCACACCCGGCCCCAAAGCCTCTGTC
  ATCACCACTCCACTCCAGCCACAGGCCACGACTCTGCCTGCTCAGACACTTAGCCCAGTACTGCCTTTC
  ACTCCAGCAGCAATGACCCAGGCGCACCCACCCACTCACATAGCACCCCCAGCAGCAGGCACAGCTCCA
  GGCCTGCTGCTGGGAGCCACATTGCCAACCTCTGGAGTCCTGCCTGTGGCTGAGGGCACGGCCTCCATG
  GTATCTGTTGTCCCACGAAAGAGCACCACAGGGAAGGTGGCCATCCTATCCAAGCAAGTGTCTCTGCCC
  ACTTCCATGTATGGTTCTGCAGAGGGTGGGCCCACAGAGCTCACGCCTGCTACGAGCCACCCTCTCACG
  CCCTTGGTGGCTGAGCCCGAGGGAGCCCAGGCAGGCACAGCTCTGCCAGTGCCCACATCCTATGCCCTG
  AGCCGTGTCTCAGCCAGGACGGCCCCCCAAGACAGCATGCTGGTTCTGTTGCCTCAGCTGGCTGAGGCC
  CATGGAACCTCGGCAGGGCCTCACCTGGCAGCAGAGCCGGTGGACGAGGCCACCACAGAACCATCTGGG
  CGCTCAGCCCCAGCCCTGAGCATCGTAGAGGGTTTGGCGGAGGCTTTGGCAACTACCACTGAGGCCAAT
  ACATCCACCACCTGTGTTCCAATCGCCGAGCAGGACTGCGTCCGCCACATCTGCCTGGAGGGCCAGCTG
  ATTCGCGTGAATCAGTCCCAGCACTGTCCCCAGGGTGCTGCTCCCCCTCGCTGTGGGATCCTGGGCCTC
  GCCGTGCGGGTGGGTGGGGACCGCTGCTGCCCACTCTGGGAGTGTGCCTGCCGGTGCTCAATCTTCCCT
  GACCTGAGCTTCGTGACCTTCGATGGGAGCCACGTAGCTCTGTTCAAGGAGGCCATCTACATCCTCAGC
  CAGAGCCCAGATGAAATGCTCACCGTCCATGTACTGGACTGCAAAAGTGCCAACCTGGGGCACCTGAAC
  TGGCCCCCGTTCTGTCTGGTGATGTTGAACATGACTCACTTGGCCCATCAGGTCACTATTGATCGCTTC
  AACCGAAAGGTGACTGTGGACTTGCAGCCTGTGTGGCCACCGGTGAGCAGGTATGGATTCAGAATTGAG
  GACACAGGCCACATGTACATGATCCTGACTCCCTCAGACATCCAGATCCAGTGGCTCCACAGCTCAGGA
  CTCATGATCGTGGAGGCCAGCAAAACCAGCAAGGCCCAGGGCCATGGCCTGTGCGGTATCTGTGATGGA
  GATGCAGCCAATGACCTTACCCTGAAGGATGGCTCAGTGGTGGGTGGGGCTGAGGACCCTGCTCCCTTT
  CTGGACAGCTGGCAGGTGCCCAGCTCCCTGACCTCAGTGGGCCAGACCCGCTTCCGCCCAGACAGCTGC
  GCCACAACTGACTGCTCGCCCTGCCTTCGCATGGTGTCCAACCGCACCTTCAGTGCCTGCCACCGCTTT
  GTGCCTCCGGAGTCATTCTGTGAGCTGTGGATCCGGGACACCAAGTACGTGCAGCAGCCCTGCGTGGCC
  CTGACTGTGTACGTGGCCATGTGCCACAAATTTCATGTGTGCATCGAGTGGCGGCGCTCTGACTACTGC
  CCCTTCCTGTGCTCCAGCGACTCCACATACCAGGCATGTGTGACAGCCTGTGAGCCACCCAAGACATGC
  CAGGATGGGATACTAGGGCCTCTGGACCCAGAGCACTGCCAGGTGCTGGGCGAGGGCTGCGTCTGCTCC
  GAGGGCACCATCTTACACCGGCGCCACTCTGCACTCTGCATCCCGGAGGCCAAGTGCGCCTGCACTGAC
  AGCATGGGGGTGCCGAGGGCCCTGGGGGAGACCTGGAACAGCTCCCTCAGCGGCTGCTGCCAGCACCAG
  TGCCAAGCCCCAGACACCATTGTCCCGGTGGATCTGGGCTGCCCCAGTCCCCGCCCTGAGAGCTGCCTG
  CGATTCGGGGAGGTGGCCTTGCTCCTACCCACCAAGGACCCCTGCTGCCTGGGGACTGTCTGTGTGTGT
  AACCAGACTCTGTGTGAGGGTCTCGCCCCCACATGCCGCCCAGGCCACCGCCTCCTCACCCACTTCCAG
  GAGGACTCCTGCTGCCCCAGCTACAGCTGTGAGTGTGACCCAGATCTCTGTGAGGCAGAGCTGGTCCCC
  AGCTGCCGACAGGACCAGATCCTGATCACGGGCCGCCTGGGGGACTCCTGCTGCACCTCCTACTTCTGC
  GCCTGTGGTGACTGTCCAGACTCCATCCCCGAATGTCAAGAAGGGGAGGCGCTCACTGTGCACAGGAAT
  ACCACGGAACTCTGCTGCCCTCTGTACCAGTGTGTGTGTGAGAACTTCCGCTGTCCCCAAGTGCAGTGT
  GGCCTGGGCACTGCCCTGGTGGAGGTGTGGAGCCCCGACCGCTGCTGCCCCTACAAATCCTGTGAATGT
  GACTGTGACACAATCCCGGTGCCCCGGTGCCATCTGTGGGAGAAATCCCAGCTGGATGAGGAGTTCATG
  CACAGCGTGGAGAATGTGTGTGGCTGCGCCAAGTACGAGTGTGTGAAGGCCCCGGTGTGTCTGAGCCGC
  GAGCTGGGTGTGATGCAGCCCGGCCAGACAGTGGTGGAGCTCTCAGCAGATGGCGTGTGCCACACCTCC
  CGCTGCACCACCGTGCTCGACCCTCTCACCAACTTCTACCAGATCAACACCACCTCCGTGCTCTGTGAC
  ATCCACTGTGAGGCGAACCAGGAGTACGAGCACCCGCGGGACCTCGCTGCCTGCTGCGGCTCCTGCAGG
  AACGTGTCCTGTCTCTTCACCTTCCCCAATGGCACCACCTCCCTGTTCTTGCCCGGGGCATCCTGGATC
  GCAGACTGCGCCCGCCACCACTGCAGCAGCACGCCCCTGGGTGCCGTGCTGGTCCGCTCTCCCATAAGC
  TGCCCACCGCTCAATGAGACTGAGTGTGCCAAGGTTGGGGGTTCCGTGGTACCTTCCTTGGAAGGATGC
  TGCAGGACCTGTAAGGAGGATGGGCGCTCCTGCAAGAAGGTGACCATCCGCATGACCATCCGCAAGAAT
  GAATGCAGGAGCAGCACCCCTGTGAACCTAGTGTCCTGCGATGGGAGGTGCCCATCCGCCAGCATCTAC
  AACTACAACATCAACACCTATGCCCGATTCTGCAAGTGCTGCCGTGAGGTGGGCCTGCAGCGGCGCTCT
  GTGCAGCTCTTCTGTGCCACCAATGCCACCTGGGTGCCCTATACAGTGCAGGAGCCCACCGACTGTGCC
  TGCCAGTGGTCC
  ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAAAC
  
  Protein Sequence

  >Peptide sequence encoded by RG240262
  Blue=ORF Red=Cloning site Green=Tag(s)
  
  MGVLASALCWLLCVWLPWGEQAAESLRVQRLGERVVDSGRSGARGMRNVKGMRNGPAQTRVSSSSSHQE
  ATLAMGDKATVVGGQQAEAPDSVAMSSWERRLHRAKCAPSYLFSCFNGGECVHPAFCDCRRFNATGPRC
  QMVYNAGPERDSICRAWGQHHVETFDGLYYYLSGKGSYTLVGRHEPEGQSFSIQVHNDPQCGSSPYTCS
  RAVSLFFVGEQEIHLAKEVTHGGMRVQLPHVMGSARLQQLAGYVIVRHQSAFTLAWDGASAVYIKMSPE
  LLGWTHGLCGNNNADPKDDLVTSSGKLTDDVVEFVHSWQEQAPNQPPGPTTSSLPRPPCLQQNPGTMQG
  VYEQCEALLRPPFDACHAYVSPLPFTASCTSDLCQSMGDVATWCRALAEYARACAQAGRPLQGWRTQLR
  QCTVHCKEKAFTYNECIACCPASCHPRASCVDSEIACVDGCYCPNGLIFEDGGCVAPAECPCEFHGTLY
  PPGSVVKEDCNTCTCTSGKWECSTAVCPAECSVTGDIHFTTFDGRRYTFPATCQYILAKSRSSGTFTVT
  LQNAPCGLNQDGACVQSVSVILHQDPRRQVTLTQAGDVLLFDQYKIIPPYTDDAFEIRRLSSVFLRVRT
  NVGVRVLYDREGLRLYLQVDQRWVEDTVGLCGTFNGNTQDDFLSPVGVPESTPQLFGNSWKTLSACSPL
  VSGSPLDPCDVHLQAASYSVQACSVLTGEMFAPCSAFLSPVPYFEQCRRDACRCGQPCLCATLAHYAHL
  CRRHGLPVDFRARLPACALSCEASKEYSPCVAPCGRTCQDLASPEACGVDGGDDLSRDECVEGCACPPD
  TYLDTQADLCVPRNQCSCHFQGVDYPPGDSDIPSLGHCHCKDGVMSCDSRAPAAACPAGQVFVNCSDLH
  TDLELSRERTCEQQLLNLSVSARGPCLSGCACPQGLLRHGDACFLPEECPCTWKGKEYFPGDQVMSPCH
  TCVCQRGSFQCTLHPCASTCTAYGDRHYRTFDGLPFDFVGACKVHLVKSTSDVSFSVIVENVNCYSSGM
  ICRKFISINVGNSLIVFDDDSGNPSPESFLDDKQEVHTWRVGFFTLVHFPQEHITLLWDQRTTVHVQAG
  PQWQGQLAGLCGNFDLKTINEMRTPENLELTNPQEFGSSWAAVECPDTLDPRDMCVLNPLREPFAKKEC
  SILLSEVFEICHPVVDVTWFYSNCLTDTCGCSQGGDCECFCASVSAYAHQCCQHGVAVDWRTPRLCPYD
  CDFFNKVLGKGPYQLSSLAAGGALVGMKAVGDDIVLVRTEDVAPADIVSFLLTAALYKAKAHDPDVVSL
  EAADRPNFFLHVTANGSLELAKWQGRDTFQQHASFLLHRGTRQAGLVALESLAKPSSFLYVSGAVLALR
  LYEHTEVFRRGTLFRLLDAKPSGAAYPICEWRYDACASPCFQTCRDPRAASCRDVPRVEGCVPVCPTPQ
  VLDEVTQRCVYLEDCVEPAVWVPTEALGNETLPPSQGLPTPSDEEPQLSQESPRTPTHRPALTPAAPLT
  TALNPPVTATEEPVVSPGPTQTTLQQPLELTASQLPAGPTESPASKGVTASLLAIPHTPESSSLPVALQ
  TPTPGMVSGAMETTRVTVIFAGSPNITVSSRSPPAPRFPLMTKAVTVRGHGSLPVRTTPPQPSLTASPS
  SRPVASPGAISRSPTSSGSHKAVLTPAVTKVISRTGVPQPTQAQSASSPSTPLTVAGTAAEQVPVSPLA
  TRSLEIVLSTEKGEAGHSQPMGSPASPQPHPLPSAPPRPAQHTTMATRSPALPPETPAAASLSTATDGL
  AATPFMSLESTRPSQLLSGLPPDTSLPLAKVGTSAPVATPGPKASVITTPLQPQATTLPAQTLSPVLPF
  TPAAMTQAHPPTHIAPPAAGTAPGLLLGATLPTSGVLPVAEGTASMVSVVPRKSTTGKVAILSKQVSLP
  TSMYGSAEGGPTELTPATSHPLTPLVAEPEGAQAGTALPVPTSYALSRVSARTAPQDSMLVLLPQLAEA
  HGTSAGPHLAAEPVDEATTEPSGRSAPALSIVEGLAEALATTTEANTSTTCVPIAEQDCVRHICLEGQL
  IRVNQSQHCPQGAAPPRCGILGLAVRVGGDRCCPLWECACRCSIFPDLSFVTFDGSHVALFKEAIYILS
  QSPDEMLTVHVLDCKSANLGHLNWPPFCLVMLNMTHLAHQVTIDRFNRKVTVDLQPVWPPVSRYGFRIE
  DTGHMYMILTPSDIQIQWLHSSGLMIVEASKTSKAQGHGLCGICDGDAANDLTLKDGSVVGGAEDPAPF
  LDSWQVPSSLTSVGQTRFRPDSCATTDCSPCLRMVSNRTFSACHRFVPPESFCELWIRDTKYVQQPCVA
  LTVYVAMCHKFHVCIEWRRSDYCPFLCSSDSTYQACVTACEPPKTCQDGILGPLDPEHCQVLGEGCVCS
  EGTILHRRHSALCIPEAKCACTDSMGVPRALGETWNSSLSGCCQHQCQAPDTIVPVDLGCPSPRPESCL
  RFGEVALLLPTKDPCCLGTVCVCNQTLCEGLAPTCRPGHRLLTHFQEDSCCPSYSCECDPDLCEAELVP
  SCRQDQILITGRLGDSCCTSYFCACGDCPDSIPECQEGEALTVHRNTTELCCPLYQCVCENFRCPQVQC
  GLGTALVEVWSPDRCCPYKSCECDCDTIPVPRCHLWEKSQLDEEFMHSVENVCGCAKYECVKAPVCLSR
  ELGVMQPGQTVVELSADGVCHTSRCTTVLDPLTNFYQINTTSVLCDIHCEANQEYEHPRDLAACCGSCR
  NVSCLFTFPNGTTSLFLPGASWIADCARHHCSSTPLGAVLVRSPISCPPLNETECAKVGGSVVPSLEGC
  CRTCKEDGRSCKKVTIRMTIRKNECRSSTPVNLVSCDGRCPSASIYNYNINTYARFCKCCREVGLQRRS
  VQLFCATNATWVPYTVQEPTDCACQWS
  TRTRPLEMESDESGLPAMEIECRITGTLNGVEFELVGGGEGTPEQGRMTNKMKSTKGALTFSPYLLSHV
  MGYGFYHFGTYPSGYENPFLHAINNGGYTNTRIEKYEDGGVLHVSFSYRYEAGRVIGDFKVMGTGFPED
  SVIFTDKIIRSNATVEHLHPMGDNDLDGSFTRTFSLRDGGYYSSVVDSHMHFKSAIHPSILQNGGPMFA
  FRRVEEDHSNTELGIVEYQHAFKTPDADAGEERV
  
• Restriction Sites: SgfI-MluI Cloning Scheme for this gene Plasmid Map
• ACCN: NM_001277269
• ORF Size: 8775 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, transfection-ready dried plasmid DNA, and shipped with 2 vector sequencing primers.

Reference Data

• RefSeq: NM_001277269.2
• RefSeq Size: 8778 bp
• RefSeq ORF: 8778 bp
• Locus ID: 340990
• Cytogenetics: 11p15.1
• MW: 315.2 kDa
• Gene Summary: The protein encoded by this gene is a component of the acellular membranes of the inner ear. Disruption of the orthologous mouse gene shows that it plays a role in auditory and vestibular functions. It is involved in fibrillar network organization, the anchoring of otoconial membranes and cupulae to the neuroepithelia, and likely in sound stimulation resistance. Mutations in this gene cause autosomal recessive nonsyndromic deafness, type 18B. Alternative splicing of this gene results in multiple transcript variants. [provided by RefSeq, May 2014]