MUC3 (MUC3A) (NM_005960) Human Tagged ORF Clone

CAT#: RG240267

MUC3A (GFP-tagged) - Human mucin 3A, cell surface associated (MUC3A)

Specifications

Product Data

• Tag: TurboGFP
• Symbol: MUC3A
• Synonyms: MUC-3A; MUC3
• Vector: pCMV6-AC-GFP
• E. coli Selection: Ampicillin (100 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  ORF Nucleotide Sequence

  >RG240267 representing NM_005960.
  Blue=ORF Red=Cloning site Green=Tag(s)
  
  GCTCGTTTAGTGAACCGTCAGAATTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTG
  GATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCC
  ATGCAGCTGTTGGGGCTCCTCGGCCTCCTCTGGATGCTCAAGGCCTCCCCGTGGGCCACAGGAACTTTA
  TCCACGGCCACATCCATCTCTCAAGTGCCTTTCCCCAGAGCAGAAGCAGCCAGCGCTGTGCTCAGCAAT
  TCTCCACACTCCAGAGACCTGGCTGGGTGGCCACTTGGTGTCCCCCAGCTCGCCTCTCCTGCTCCTGGC
  CACAGGGAAAATGCACCTATGACACTCACTACCTCCCCCCATGACACACTCATCTCTGAAACATTGCTC
  AACTCTCCAGTCAGTTCCAACACCTCAACCACCCCGACGTCCAAGTTTGCCTTCAAGGTTGAAACCACT
  CCACCCACCGTGTTGGTCTATTCAGCCACCACTGAGTGCGTGTATCCAACGAGCTTTATAATCACCATC
  TCCCACCCCACCTCCATCTGTGTGACCACGACGCAGGTGGCCTTCACCAGCTCTTACACCTCGACTCCC
  GTGACACAGAAGCCAGTGACCACCGTCACCAGTACTTACTCTATGACCACTACTGAGAAAGGAACGTCA
  GCCATGACATCTTCTCCCTCTACCACCACTGCAAGGGAAACTCCCATAGTGACAGTGACACCCTCCTCT
  GTGTCAGCCACAGACACAACCTTCCACACTACAATCTCGTCTACAACTAGAACCACAGAAAGGACTCCC
  CTGCCCACTGGAAGCATCCATACAACCACGTCCCCAACCCCAGTATTTACTACTCTCAAAACAGCAGTG
  ACTTCCACTTCCCCCATCACTTCTTCAATCACTTCCACAAATACAGTGACTTCTATGACAACGACCGCC
  TCCCAGCCCACAGCCACTAATACATTGTCATCACCCACTAGGACCATTTTATCTTCCACACCTGTCCTG
  AGCACAGAAACAATCACCAGTGGTATCACAAACACCACCCCCCTATCCACCTTGGTGACCACACTCCCC
  ACTACCATCAGCAGGTCTACACCTACATCTGAGACCACCTACACTACTTCTCCCACCAGCACTGTCACA
  GACTCCACTACCAAAATCGCCTACTCCACAAGTATGACAGGTACATTGTCCACAGAGACTTCTCTCCCA
  CCCACCTCTTCCTCTCTCCCAACCACAGAAACAGCCACGACTCCTATGACAAACTTGGTAACCACCACC
  ACTGAGATCTCCTCCCACAGTACTCCCAGCTTCTCTTCATCAACCATCTACTCCACAGTCAGCACATCC
  ACAACTGCCATCTCCTCACTTCCCCCTACCTCAGGTACTATGGTGACTTCCACAACCATGACCCCATCT
  TCTCTGAGTACAGACATCCCTTTCACAACACCAACAACTATCACCCACCATTCTGTGGGCTCTACCGGT
  TTCCTGACTACAGCAACAGACCTCACATCAACATTCACGGTTTCCAGTTCCTCAGCAATGTCCACGAGT
  GTCATTCCATCTTCCCCCAGCATTCAGAATACAGAAACCTCATCCCTTGTCAGCATGACCTCTGCCACT
  ACTCCCAATGTGAGACCAACTTTTGTAAGTACACTCAGCACTCCTACAAGTTCCCTCCTGACGACCTTC
  CCAGCAACATATTCATTTTCATCTTCCATGTCTGCCAGCAGTGCTGGGACCACTCACACAGAGAGTATC
  TCCTCACCTCCAGCCAGCACCAGTACACTCCACACAACAGCTGAATCCACCCTGGCACCCACTACCACC
  ACCTCATTCACAACTTCCACAACTATGGAACCACCTTCAACCACTGCAGCAACTACAGGAACAGGTCAG
  ACCACCTTCACCAGCTCTACAGCCACATTTCCTGAGACCACCACACCGACTCCTACAACTGACATGTCC
  ACAGAATCTCTCACAACAGCCATGACTTCTCCTCCCATCACTTCATCAGTCACTTCCACAAATACAGTG
  ACTTCTATGACAACTACGACCTCTCCTCCCACAACCACCAATTCTTTTACATCACTGACCAGTATGCCT
  CTGTCTTCTACACCTGTCCCAAGCACAGAAGTAGTCACCAGTGGCACCATAAACACAATCCCTCCATCT
  ATCTTGGTGACCACACTCCCCACTCCAAATGCTTCATCTATGACTACATCTGAGACCACCTATCCTAAT
  TCTCCGACTGGTCCTGGTACAAACTCCACGACGGAAATCACCTATCCCACCACTATGACAGAGACATCA
  TCCACTGCCACCTCTCTTCCACCCACCTCTCCCTTGGTCTCAACTGCAAAAACAGCCAAAACTCCTACC
  ACAAACTTGGTAACCACCACCACCAAGACCACCTCACATAGTACCACCAGCTTCACTTCTTCAACCGTC
  TACTCCACAGCCAGCACATACACAACTGCCATCACCTCAGTTCCCACTACGTTGGGTACCATGGTAACT
  TCTACATCCATGATCTCATCTACTGTGAGTACAGGTATCCCTACCTCACAACCAACAACCATCACTCCC
  TCATCCGTGGGCATCAGTGGTTCATTACCTATGATGACAGACCTCACCTCAGTGTACACAGTCTCTAAC
  ATGTCTGCAAGGCCAACAACTGTCATTCCCTCATCTCCCACTGTCCAGAATACAGAAATCTCAATCTCT
  GTTAGCATGACGTCTGCTACCACTCCCAGTGGAGGACCAACTTTCACAAGTACTGAGAACACTCCAACA
  AGGTCCCTCCTGACAAGCTTTCCAATGACACATTCATTCTCTTCTTCTATGTCTGAAAGTAGTGCTGGG
  ACCACTCACACAGAGAGTATCTCCTCACCTCGAGGCACCACCAGTACACTCCACACAACAGTTGAATCC
  ACCCCATCACCCACTACCACCACCTCATTTACCACATCCACAATGATGGAACCACCTTCATCCACTGTA
  TCAACTACAGGCAGAGGTCAGACCACCTTTCCCAGCTCTACAGCCACATTCCCTGAGACCACTACACTG
  ACTCCTACAACTGACATTTCTACAGTATCTCTCACAACAGCCATGACTTCTCCTCCCCCCGTCAGTTCT
  TCAATCACTCCCACCAATACAATGACTTCTATGAGAACTACAACCTATTGGCCCACAGCCACTAATACA
  TTATCACCACTCACCAGTAGCATTTTATCTTCTACACCTGTCCCAAGCACAGAAATGATCACCAGTCAT
  ACCACAAACACCACCCCTCTATCCACCTTGGTGACTACACTCCTCACTACCATCACCAGATCTACACCT
  ACATCTGAGACCACCTACCCTACTTCTCCCACCAGCATTGTCTCAGACTCCACGACTGAAATCACCTAT
  TCCACAAGTATAACAGGTACATTGTCCACTGCCACTACTCTCCCACCCACCTCTTCCTCTCTCCCAACC
  ACAGAAACAGCCACGATGACTCCTACCACAACCTTGATAACCACCACCCCTAATACCACCTCCCTTAGT
  ACCCCCAGCTTCACTTCTTCAACCATCTACTCCACAGTCAGCACATCCACAACTGCCATCTCCTCAGCT
  TCCCCTACCTCAGGTACCATGGTAACTTCCACAACCATGACCCCATCTTCTCTGAGTACAGACACCCCT
  TCCACAACACCAACAACTATCACCTACCCTTCTGTGGGCTCTACCGGTTTCCTGACTACAGCAACAGAC
  CTCACATCAACATTCACTGTTTCCAGTTCCTCAGCAATGTCCACAAGTGTCATTCCATCTTCCCCCAGC
  ATCCAGAATACAGAAACCTCATCCCTTGTCAGCATGACCTCTGCCACCACTCCCAGTTTGAGACCAACT
  ATCACAAGTACTGACAGCACTCTAACAAGTTCCCTCCTGACGACCTTCCCAAGTACATATTCATTTTCA
  TCTTCCATGTCTGCCAGCAGTGCAGGGACCACTCACACAGAGACTATTTCCTCACTTCCAGCCAGCACC
  AATACAATCCACACAACAGCTGAATCCGCCCTGGCACCCACTACCACCACCTCATTCACCACATCCCCA
  ACGATGGAACCACCTTCAACCACTGTAGCGACTACAGGCACAGGTCAGACCACCTTCCCCAGCTCTACA
  GCCACATTCCTTGAGACCACCACACTGACTCCTACAACTGACTTTTCTACAGAATCTCTCACAACAGCC
  ATGACTTCTACTCCCCCCATCACTTCTTCAATCACTCCCACCGATACAATGACTTCTATGAGAACTACG
  ACCTCTTGGCCCACAGCCACTAATACGTTATCACCACTCACCAGTAGCATTTTATCTTCTACACCTGTC
  CCAAGCACAGAGGTGACCACCAGTCATACCACAAACACCAATCCTGTATCCACGTTGGTGACTACACTC
  CCCATTACCATCACCAGGTCTACACTTACATCTGAGACCGCCTACCCTAGTTCTCCCACAAGCACTGTC
  ACAGAGTCCACAACTGAAATCACCTATCCCACCACTATGACAGAGACATCATCTACTGCCACCTCTCTT
  CCACCCACCTCTTCCTTGGTCTCAACCGCAGAAACAGCCAAAACTCCTACCACAAACTTGGTAACCACC
  ACCACCAAGACCACCTCACATAGTACCACCAGCTTCACTTCTTCAACCATCTACTCCACAGCCAGCACA
  CCCACCACTGCCATCACCTCAGTTCCCACTACCTTGGGTACCATGGTGACTTCTACATCCATGATCCCA
  TCTACTGTGAGTACAGGTATCCCTACCTCACAACCAACAACTATTACTCCCTCATCCGTGGGCATCAGT
  GGTTCATTACCTATGATGACAGACCTCACCTCAGTGTACACAGTCTCCAGCATGTCTGCAAGGCCAACA
  AGTGTCATTCCTTCATCTCCCACTGTCCAGAATACAGAAACCTCAATCTTTGTTAGCATGATGTCTGCT
  ACCACTCCCAGTGGAGGACCAACTTTCACAAGTACTGAGAACACTCCAACAAGGTCCCTCCTGACAAGC
  TTTCCAGTGACACATTCATTTTCCTCTTCCATGTCTGCCAGCAGTGTAGGGACCACTCACACCCAGAGT
  ATCTCCTCACCCCCAGCCATCACCAGTACACTCCACACAACAGCTGAATCCACCCCATCACCTACAACC
  ACCATGTCATTCACAACATTTACAAAGATGGAAACACCTTCATCCACTGTAGCAACTACAGGCACAGGT
  CAGACTACATTCACCAGTTCAACAGCCACATCCCCTAAGACCACCACACTGACTCCTACCTCTGACATT
  TCCACAGGATCTTTCAAAACAGCCGTGAGTTCTACTCCCCCCATCACTTCTTCAATCACCTCCACATAT
  ACGGTGACTTCGATGACAACTACCACCCCTCTAGGGCCCACAGCCACTAATACGTTACCATCATTTACC
  AGTAGCGTTTCATCTTCTACGCCTGTCCCAAGTACAGAAGCGATCACCAGTGGTACCACAAACACCACC
  CCTCTATCTACATTGGTGACCACATTCTCCAATTCCGACACCAGTTCTACACCTACATCTGAGACCACC
  TACCCTACTTCTCTTACTAGTGCTCTCACAGATTCCACGACCAGAACCACCTATTCCACCAATATGACA
  GGTACATTGTCCACTGTGACCTCTCTTCGACCCACCTCTTCCTCTCTCCTCACCACAGTAACAGCCACA
  GTTCCAACAACAAACTTGGTAACCACGACCACCAAGATCACCTCACACAGTACTCCTAGCTTCACTTCT
  TCAATCGCAACCACCGAGACCCCCTCACACAGTACTCCCAGATTCACTTCTTCAATCACCACTACCGAG
  ACCCCCTCACACAGTACTCCCAGATTCACTTCTTCAATCACCAATACCAAGACCACCTCACACAGCTCT
  CCCAGCTTCACTTCTTCGATCACCACCACCGAGACCACATCCCACAATACTCCCAGCCTCACTTCTTCA
  ATCACCACCACCAAGACCACCTCACACAGTACTCCCAGCTACACTTCTTTGATCACCACAACCACCACC
  ACCTCACACAGTACTCCCAGCTTCACTTCTTCCATCACCACCACTGAGACCACATCCCACAATACTCCC
  AGCTTGACTTCTTCGATCACAACCACCGAGACCACATCCCATAGTACTCCCAGCTTCACTTCTTCGATC
  ACCACCGAGACCACATCCCACAGTACTCCCAGCTTCACTTCATTGATCACCATCACCGAGATCACCTCA
  CACAGTACTCTCAGCTACACTACCTCAATCACCACCACCGAGACCCCCTCACACAGTACTCTCAGCTTC
  ACTTCTTCAATCACCACCACTGAGACCACCTCACACAGTACTCCCAGCTTCACTTCCTCAATCACCACC
  TCTGAGATGCCCTCACACAGTACTCCCAGCTTCACTTCTTCGATCACCACCACTGAGAACGCCACACAC
  AGTACTCCCAACTTCACTTCTTCAATCACCACCACCGAGACCACATCCCACAGTACTCCCAGCTTCACT
  TCTTTGATCACCACCACGGAGACCACCTCACACAGGTGGGGGACCACCGAGACCACATCCTACAGTACT
  CCCAGCTTCACTTCTTCAAATACCATCACTGAGACCACCTCACACAGTACTCCCAGCTACATTACCTCA
  ATCACCACCACCGAGACCCCCTCAAGCAGTACTCCCAGCTTCAGTTCTTCGATCACCACCACTGAGACC
  ACATCCCACAGTACTCCCGGCTTCACTTCTTCAATCACCACCACTGAGACTACATCCCACAGTACTCCC
  AGCTTCACTTCTTCGATCACCACCACTGAGACCACCTCACATGATACTCCCAGCTTCACTTCTTCAATC
  ACCACCAGTGAGACCCCCTCACACAGTACTCCCAGCTCCACTTCTTTAATCACCACCACCAAGACCACC
  TCACACAGTACTCCCAGCTTCACTTCTTCGATCACCACCACGGAGACCACCTCACACAGTGCTCACAGC
  TTCACTTCTTCGATCACCACCACCGAGACCACCTCACACAATACTCGCAGCTTCACTTCTTCGATCACC
  ACCACCGAGACCAACTCTCACAGTACTACCAGCTTCACTTCTTCGATCACCACCACCGAGACCACCTCA
  CACAGTACTCCCAGCTTCAGTTCTTCAATCACCACCACTGAGACCCCCTTACACAGTACTCCTGGCCTC
  ACTTCGTGGGTCACCACCACCAAGACCACCTCACACATTACTCCTGGCCTCACTTCTTCAATCACCACC
  ACTGAGACTACCTCACACAGTACTCCTGGCTTCACTTCTTCAATCACCACCACTGAGACCACCTCAGAG
  AGTACTCCCAGCCTCAGTTCTTCAACCATCTACTCCACAGTCAGCACATCCACAACTGCCATCACCTCA
  CATTTTACTACCTCAGAGACTGCGGTGACTCCCACACCTGTAACCCCATCTTCTCTGAGTACAGACATC
  CCGACCACAAGCCTACGAACTCTCACCCCTTCGTCTGTGGGCACCAGCACTTCATTGACTACAACCACA
  GACTTTCCCTCTATACCCACTGATATCAGTACCTTACCAACTCGAACACACATCATTTCATCTTCTCCC
  TCCATCCAAAGTACAGAAACCTCATCCCTTGTGGGCACCACCTCTCCCACCATGTCCACTGTGAGAATG
  ACCCTCAGAATTACTGAGAACACCCCAATCAGTTCCTTTAGCACAAGTATTGTTGTTATACCTGAAACC
  CCAACACAGACCCCTCCTGTACTGACGTCAGCCACTGGGACCCAAACATCTCCTGCACCTACTACTGTC
  ACCTTTGGAAGTACGGATTCCTCCACGTCCACTCTTCATACTCTTACTCCATCAACAGCCTTGAGCACG
  ATCGTGTCAACATCACAGGTTCCTATTCCTAGCACACATTCCTCCACCCTTCAAACAACTCCTTCTACT
  CCCTCATTGCAAACTTCACTCACATCTACAAGTGAGTTCACTACAGAATCTTTCACTAGGGGAAGTACG
  TCTACAAATGCAATCTTGACTTCTTTTAGTACCATCATCTGGTCCTCAACACCCACTATTATCATGTCC
  TCTTCTCCATCTTCTGCCAGCATAACTCCAGTGTTTTCCACTACCATTCATTCTGTTCCTTCTTCACCA
  TACATTTTCAGTACAGAAAATGTGGGCTCCGCTTCTATCACAGGCTTTCCTAGTCTCTCTTCCTCTGCA
  ACTACCAGCACTTCTTCAACCAGCTCCTCTCTGACCACAGCTCTCACTGAAATAACCCCCTTTTCTTAT
  ATTTCCCTTCCCTCCACCACACCCTGTCCAGGAACTATAACAATTACCATAGTCCCTGCCTCCCCCACT
  GATCCATGTGTTGAAATGGATCCCAGCACTGAAGCTACTTCTCCTCCCACCACCCCATTAACAGTCTTT
  CCCTTTACTACCGAAATGGTCACCTGTCCTACCTCCATCAGTATCCAAACTACTCTTACTACATATATG
  GACACTTCTTCCATGATGCCAGAAAGTGAGTCCAGCATCTCACCCAATGCTTCCAGTTCCACTGGCACT
  GGGACTGTACCCACAAACACAGTTTTCACAAGTACTCGACTGCCCACCAGTGAGACCTGGCTGAGCAAC
  AGTTCTGTGATCCCCCTACCTCTTCCTGGCGTCTCTACCATCCCGCTCACCATGAAACCAAGCAGTAGC
  CTCCCGACCATCCTGAGGACTTCAAGCAAGTCAACACACCCCTCCCCACCCACCACTAGGACTTCAGAG
  ACACCAGTGGCCACTACCCAGACTCCTACCACCCTTACATCACGCAGGACAACTCGCATCACTTCTCAG
  ATGACCACACAGTCCACGTTGACCACCACTGCAGGCACCTGTGACAATGGTGGCACCTGGGAACAGGGC
  CAGTGTGCTTGCCTTCCGGGGTTTTCTGGGGACCGCTGTCAGCTCCAGACCAGATGCCAGAATGGGGGT
  CAGTGGGATGGCCTCAAATGCCAGTGCCCCAGCACCTTCTATGGTTCCAGTTGTGAGTTTGCTGTGGAA
  CAGGTGGATCTAGATGTAGTGGAGACCGAGGTGGGCATGGAAGTGTCTGTGGATCAGCAGTTCTCGCCG
  GACCTCAATGACAACACTTCCCAGGCCTACAGGGATTTCAACAAGACCTTCTGGAATCAGATGCAGAAG
  ATTTTTGCAGACATGCAGGGCTTCACCTTCAAGGGTGTGGAGATCCTGTCCCTGAGGAATGGCAGCATC
  GTGGTGGACTACCTGGTCCTGCTGGAGATGCCCTTCAGCCCCCAGCTGGAGAGCGAGTATGAGCAGGTG
  AAGACCACGCTGAAGGAGGGGCTGCAGAACGCCAGCCAGGATGTGAACAGCTGCCAGGACTCCCAGACC
  CTGTGTTTTAAGCCTGACTCCATCAAGGTGAACAACAACAGCAAGACAGAGCTGACCCCGGCAGCCATC
  TGCCGCCGCGCCGCTCCCACGGGCTATGAAGAGTTCTACTTCCCCTTGGTGGAGGCCACCCGGCTCCGC
  TGTGTCACCAAATGCACGTCGGGGGTGGACAACGCCATCGACTGTCACCAGGGCCAGTGCGTTCTGGAG
  ACGAGCGGTCCCACGTGTCGCTGCTACTCCACCGACACGCACTGGTTCTCTGGCCCGCGCTGCGAGGTG
  GCCGTCCACTGGAGGGCGCTGGTCGGGGGCCTGACGGCCGGCGCCGCGCTGCTGGTGCTGCTGCTGCTG
  GCGCTGGGCGTCCGGGCGGTGCGCTCCGGATGGTGGGGCGGCCAGCGCCGAGGCCGGTCCTGGGACCAG
  GACAGGAAATGGTTCGAGACCTGGGATGAGGAAGTCGTGGGCACTTTTTCAAACTGGGGTTTCGAGGAC
  GACGGAACAGACAAGGATACAAATTTCTATGTGGCCTTGGAGAACGTGGACACCACTATGAAGGTGCAC
  ATCAAGAGACCCGAGATGACCTCGTCCTCAGTG
  ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAAAC
  
  Protein Sequence

  >Peptide sequence encoded by RG240267
  Blue=ORF Red=Cloning site Green=Tag(s)
  
  MQLLGLLGLLWMLKASPWATGTLSTATSISQVPFPRAEAASAVLSNSPHSRDLAGWPLGVPQLASPAPG
  HRENAPMTLTTSPHDTLISETLLNSPVSSNTSTTPTSKFAFKVETTPPTVLVYSATTECVYPTSFIITI
  SHPTSICVTTTQVAFTSSYTSTPVTQKPVTTVTSTYSMTTTEKGTSAMTSSPSTTTARETPIVTVTPSS
  VSATDTTFHTTISSTTRTTERTPLPTGSIHTTTSPTPVFTTLKTAVTSTSPITSSITSTNTVTSMTTTA
  SQPTATNTLSSPTRTILSSTPVLSTETITSGITNTTPLSTLVTTLPTTISRSTPTSETTYTTSPTSTVT
  DSTTKIAYSTSMTGTLSTETSLPPTSSSLPTTETATTPMTNLVTTTTEISSHSTPSFSSSTIYSTVSTS
  TTAISSLPPTSGTMVTSTTMTPSSLSTDIPFTTPTTITHHSVGSTGFLTTATDLTSTFTVSSSSAMSTS
  VIPSSPSIQNTETSSLVSMTSATTPNVRPTFVSTLSTPTSSLLTTFPATYSFSSSMSASSAGTTHTESI
  SSPPASTSTLHTTAESTLAPTTTTSFTTSTTMEPPSTTAATTGTGQTTFTSSTATFPETTTPTPTTDMS
  TESLTTAMTSPPITSSVTSTNTVTSMTTTTSPPTTTNSFTSLTSMPLSSTPVPSTEVVTSGTINTIPPS
  ILVTTLPTPNASSMTTSETTYPNSPTGPGTNSTTEITYPTTMTETSSTATSLPPTSPLVSTAKTAKTPT
  TNLVTTTTKTTSHSTTSFTSSTVYSTASTYTTAITSVPTTLGTMVTSTSMISSTVSTGIPTSQPTTITP
  SSVGISGSLPMMTDLTSVYTVSNMSARPTTVIPSSPTVQNTEISISVSMTSATTPSGGPTFTSTENTPT
  RSLLTSFPMTHSFSSSMSESSAGTTHTESISSPRGTTSTLHTTVESTPSPTTTTSFTTSTMMEPPSSTV
  STTGRGQTTFPSSTATFPETTTLTPTTDISTVSLTTAMTSPPPVSSSITPTNTMTSMRTTTYWPTATNT
  LSPLTSSILSSTPVPSTEMITSHTTNTTPLSTLVTTLLTTITRSTPTSETTYPTSPTSIVSDSTTEITY
  STSITGTLSTATTLPPTSSSLPTTETATMTPTTTLITTTPNTTSLSTPSFTSSTIYSTVSTSTTAISSA
  SPTSGTMVTSTTMTPSSLSTDTPSTTPTTITYPSVGSTGFLTTATDLTSTFTVSSSSAMSTSVIPSSPS
  IQNTETSSLVSMTSATTPSLRPTITSTDSTLTSSLLTTFPSTYSFSSSMSASSAGTTHTETISSLPAST
  NTIHTTAESALAPTTTTSFTTSPTMEPPSTTVATTGTGQTTFPSSTATFLETTTLTPTTDFSTESLTTA
  MTSTPPITSSITPTDTMTSMRTTTSWPTATNTLSPLTSSILSSTPVPSTEVTTSHTTNTNPVSTLVTTL
  PITITRSTLTSETAYPSSPTSTVTESTTEITYPTTMTETSSTATSLPPTSSLVSTAETAKTPTTNLVTT
  TTKTTSHSTTSFTSSTIYSTASTPTTAITSVPTTLGTMVTSTSMIPSTVSTGIPTSQPTTITPSSVGIS
  GSLPMMTDLTSVYTVSSMSARPTSVIPSSPTVQNTETSIFVSMMSATTPSGGPTFTSTENTPTRSLLTS
  FPVTHSFSSSMSASSVGTTHTQSISSPPAITSTLHTTAESTPSPTTTMSFTTFTKMETPSSTVATTGTG
  QTTFTSSTATSPKTTTLTPTSDISTGSFKTAVSSTPPITSSITSTYTVTSMTTTTPLGPTATNTLPSFT
  SSVSSSTPVPSTEAITSGTTNTTPLSTLVTTFSNSDTSSTPTSETTYPTSLTSALTDSTTRTTYSTNMT
  GTLSTVTSLRPTSSSLLTTVTATVPTTNLVTTTTKITSHSTPSFTSSIATTETPSHSTPRFTSSITTTE
  TPSHSTPRFTSSITNTKTTSHSSPSFTSSITTTETTSHNTPSLTSSITTTKTTSHSTPSYTSLITTTTT
  TSHSTPSFTSSITTTETTSHNTPSLTSSITTTETTSHSTPSFTSSITTETTSHSTPSFTSLITITEITS
  HSTLSYTTSITTTETPSHSTLSFTSSITTTETTSHSTPSFTSSITTSEMPSHSTPSFTSSITTTENATH
  STPNFTSSITTTETTSHSTPSFTSLITTTETTSHRWGTTETTSYSTPSFTSSNTITETTSHSTPSYITS
  ITTTETPSSSTPSFSSSITTTETTSHSTPGFTSSITTTETTSHSTPSFTSSITTTETTSHDTPSFTSSI
  TTSETPSHSTPSSTSLITTTKTTSHSTPSFTSSITTTETTSHSAHSFTSSITTTETTSHNTRSFTSSIT
  TTETNSHSTTSFTSSITTTETTSHSTPSFSSSITTTETPLHSTPGLTSWVTTTKTTSHITPGLTSSITT
  TETTSHSTPGFTSSITTTETTSESTPSLSSSTIYSTVSTSTTAITSHFTTSETAVTPTPVTPSSLSTDI
  PTTSLRTLTPSSVGTSTSLTTTTDFPSIPTDISTLPTRTHIISSSPSIQSTETSSLVGTTSPTMSTVRM
  TLRITENTPISSFSTSIVVIPETPTQTPPVLTSATGTQTSPAPTTVTFGSTDSSTSTLHTLTPSTALST
  IVSTSQVPIPSTHSSTLQTTPSTPSLQTSLTSTSEFTTESFTRGSTSTNAILTSFSTIIWSSTPTIIMS
  SSPSSASITPVFSTTIHSVPSSPYIFSTENVGSASITGFPSLSSSATTSTSSTSSSLTTALTEITPFSY
  ISLPSTTPCPGTITITIVPASPTDPCVEMDPSTEATSPPTTPLTVFPFTTEMVTCPTSISIQTTLTTYM
  DTSSMMPESESSISPNASSSTGTGTVPTNTVFTSTRLPTSETWLSNSSVIPLPLPGVSTIPLTMKPSSS
  LPTILRTSSKSTHPSPPTTRTSETPVATTQTPTTLTSRRTTRITSQMTTQSTLTTTAGTCDNGGTWEQG
  QCACLPGFSGDRCQLQTRCQNGGQWDGLKCQCPSTFYGSSCEFAVEQVDLDVVETEVGMEVSVDQQFSP
  DLNDNTSQAYRDFNKTFWNQMQKIFADMQGFTFKGVEILSLRNGSIVVDYLVLLEMPFSPQLESEYEQV
  KTTLKEGLQNASQDVNSCQDSQTLCFKPDSIKVNNNSKTELTPAAICRRAAPTGYEEFYFPLVEATRLR
  CVTKCTSGVDNAIDCHQGQCVLETSGPTCRCYSTDTHWFSGPRCEVAVHWRALVGGLTAGAALLVLLLL
  ALGVRAVRSGWWGGQRRGRSWDQDRKWFETWDEEVVGTFSNWGFEDDGTDKDTNFYVALENVDTTMKVH
  IKRPEMTSSSV
  TRTRPLEMESDESGLPAMEIECRITGTLNGVEFELVGGGEGTPEQGRMTNKMKSTKGALTFSPYLLSHV
  MGYGFYHFGTYPSGYENPFLHAINNGGYTNTRIEKYEDGGVLHVSFSYRYEAGRVIGDFKVMGTGFPED
  SVIFTDKIIRSNATVEHLHPMGDNDLDGSFTRTFSLRDGGYYSSVVDSHMHFKSAIHPSILQNGGPMFA
  FRRVEEDHSNTELGIVEYQHAFKTPDADAGEERV
  
• Restriction Sites: SgfI-MluI Cloning Scheme for this gene Plasmid Map
• ACCN: NM_005960
• ORF Size: 9969 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_005960.2
• RefSeq Size: 11361 bp
• RefSeq ORF: 9972 bp
• Locus ID: 4584
• Cytogenetics: 7q22.1
• MW: 345.6 kDa
• Gene Summary: 'The mucin genes encode epithelial glycoproteins, some of which are secreted and some membrane bound. Each of the genes contains at least one large domain of tandemly repeated sequence that encodes the peptide sequence rich in serine and/or threonine residues, which carries most of the O-linked glycosylation (Gendler and Spicer, 1995 [PubMed 7778880]).[supplied by OMIM, Aug 2008]'