MUC3 (MUC3A) (NM_005960) Human Tagged ORF Clone
CAT#: RG240267
- TrueORF®
MUC3A (GFP-tagged) - Human mucin 3A, cell surface associated (MUC3A)
Product Images
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Other products for "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 |
>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 >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 |
Chromatograms |
CHROMATOGRAMS
![]() Sequencher program is needed, download here. |
Restriction Sites |
SgfI-MluI
Cloning Scheme for this gene
Plasmid Map
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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]' |
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