MUC16 Antibody - #DF7989

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Product: MUC16 Antibody
Catalog: DF7989
Description: Rabbit polyclonal antibody to MUC16
Application: WB IHC IF/ICC
Reactivity: Human, Mouse, Rat
Mol.Wt.: 200~300 kDa; 1519kD(Calculated).
Uniprot: Q8WXI7
RRID: AB_2841373

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 100ul $280 In stock
 200ul $350 In stock

Lead Time: Same day delivery

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Related Downloads
MS Report
HPLC Report
MSDS
Data Sheet
COA
Protocols
WB Handbook
IHC Protocol
IF/ICC Protocol

Product Info

Source:
Rabbit
Application:
WB 1:1000-3000, IF/ICC 1:100-1:500, IHC 1:50-1:200
*The optimal dilutions should be determined by the end user.
*Tips:

WB: For western blot detection of denatured protein samples. IHC: For immunohistochemical detection of paraffin sections (IHC-p) or frozen sections (IHC-f) of tissue samples. IF/ICC: For immunofluorescence detection of cell samples. ELISA(peptide): For ELISA detection of antigenic peptide.

Reactivity:
Human,Mouse,Rat
Clonality:
Polyclonal
Specificity:
MUC16 Antibody detects endogenous levels of total MUC16.
RRID:
AB_2841373
Cite Format: Affinity Biosciences Cat# DF7989, RRID:AB_2841373.
Conjugate:
Unconjugated.
Purification:
The antiserum was purified by peptide affinity chromatography using SulfoLink™ Coupling Resin (Thermo Fisher Scientific).
Storage:
Rabbit IgG in phosphate buffered saline , pH 7.4, 150mM NaCl, 0.02% sodium azide and 50% glycerol. Store at -20 °C. Stable for 12 months from date of receipt.
Alias:

Fold/Unfold

CA 125; CA-125; CA125; CA125 ovarian cancer antigen; Cancer antigen 125; FLJ14303; MUC 16; MUC-16; MUC16; MUC16_HUMAN; Mucin 16; Mucin 16 cell surface associated; Mucin-16; Mucin16; Ovarian cancer related tumor marker CA125; Ovarian cancer-related tumor marker CA125; Ovarian carcinoma antigen CA125;

Immunogens

Immunogen:
Uniprot:

Q8WXI7(MUC16_HUMAN) >>Visit HPA database.

Gene(ID):
MUC16(94025)
Expression:
Q8WXI7 MUC16_HUMAN:

Expressed in corneal and conjunctival epithelia (at protein level). Overexpressed in ovarian carcinomas and ovarian low malignant potential (LMP) tumors as compared to the expression in normal ovarian tissue and ovarian adenomas.

Sequence:
MLKPSGLPGSSSPTRSLMTGSRSTKATPEMDSGLTGATLSPKTSTGAIVVTEHTLPFTSPDKTLASPTSSVVGRTTQSLGVMSSALPESTSRGMTHSEQRTSPSLSPQVNGTPSRNYPATSMVSGLSSPRTRTSSTEGNFTKEASTYTLTVETTSGPVTEKYTVPTETSTTEGDSTETPWDTRYIPVKITSPMKTFADSTASKENAPVSMTPAETTVTDSHTPGRTNPSFGTLYSSFLDLSPKGTPNSRGETSLELILSTTGYPFSSPEPGSAGHSRISTSAPLSSSASVLDNKISETSIFSGQSLTSPLSPGVPEARASTMPNSAIPFSMTLSNAETSAERVRSTISSLGTPSISTKQTAETILTFHAFAETMDIPSTHIAKTLASEWLGSPGTLGGTSTSALTTTSPSTTLVSEETNTHHSTSGKETEGTLNTSMTPLETSAPGEESEMTATLVPTLGFTTLDSKIRSPSQVSSSHPTRELRTTGSTSGRQSSSTAAHGSSDILRATTSSTSKASSWTSESTAQQFSEPQHTQWVETSPSMKTERPPASTSVAAPITTSVPSVVSGFTTLKTSSTKGIWLEETSADTLIGESTAGPTTHQFAVPTGISMTGGSSTRGSQGTTHLLTRATASSETSADLTLATNGVPVSVSPAVSKTAAGSSPPGGTKPSYTMVSSVIPETSSLQSSAFREGTSLGLTPLNTRHPFSSPEPDSAGHTKISTSIPLLSSASVLEDKVSATSTFSHHKATSSITTGTPEISTKTKPSSAVLSSMTLSNAATSPERVRNATSPLTHPSPSGEETAGSVLTLSTSAETTDSPNIHPTGTLTSESSESPSTLSLPSVSGVKTTFSSSTPSTHLFTSGEETEETSNPSVSQPETSVSRVRTTLASTSVPTPVFPTMDTWPTRSAQFSSSHLVSELRATSSTSVTNSTGSALPKISHLTGTATMSQTNRDTFNDSAAPQSTTWPETSPRFKTGLPSATTTVSTSATSLSATVMVSKFTSPATSSMEATSIREPSTTILTTETTNGPGSMAVASTNIPIGKGYITEGRLDTSHLPIGTTASSETSMDFTMAKESVSMSVSPSQSMDAAGSSTPGRTSQFVDTFSDDVYHLTSREITIPRDGTSSALTPQMTATHPPSPDPGSARSTWLGILSSSPSSPTPKVTMSSTFSTQRVTTSMIMDTVETSRWNMPNLPSTTSLTPSNIPTSGAIGKSTLVPLDTPSPATSLEASEGGLPTLSTYPESTNTPSIHLGAHASSESPSTIKLTMASVVKPGSYTPLTFPSIETHIHVSTARMAYSSGSSPEMTAPGETNTGSTWDPTTYITTTDPKDTSSAQVSTPHSVRTLRTTENHPKTESATPAAYSGSPKISSSPNLTSPATKAWTITDTTEHSTQLHYTKLAEKSSGFETQSAPGPVSVVIPTSPTIGSSTLELTSDVPGEPLVLAPSEQTTITLPMATWLSTSLTEEMASTDLDISSPSSPMSTFAIFPPMSTPSHELSKSEADTSAIRNTDSTTLDQHLGIRSLGRTGDLTTVPITPLTTTWTSVIEHSTQAQDTLSATMSPTHVTQSLKDQTSIPASASPSHLTEVYPELGTQGRSSSEATTFWKPSTDTLSREIETGPTNIQSTPPMDNTTTGSSSSGVTLGIAHLPIGTSSPAETSTNMALERRSSTATVSMAGTMGLLVTSAPGRSISQSLGRVSSVLSESTTEGVTDSSKGSSPRLNTQGNTALSSSLEPSYAEGSQMSTSIPLTSSPTTPDVEFIGGSTFWTKEVTTVMTSDISKSSARTESSSATLMSTALGSTENTGKEKLRTASMDLPSPTPSMEVTPWISLTLSNAPNTTDSLDLSHGVHTSSAGTLATDRSLNTGVTRASRLENGSDTSSKSLSMGNSTHTSMTYTEKSEVSSSIHPRPETSAPGAETTLTSTPGNRAISLTLPFSSIPVEEVISTGITSGPDINSAPMTHSPITPPTIVWTSTGTIEQSTQPLHAVSSEKVSVQTQSTPYVNSVAVSASPTHENSVSSGSSTSSPYSSASLESLDSTISRRNAITSWLWDLTTSLPTTTWPSTSLSEALSSGHSGVSNPSSTTTEFPLFSAASTSAAKQRNPETETHGPQNTAASTLNTDASSVTGLSETPVGASISSEVPLPMAITSRSDVSGLTSESTANPSLGTASSAGTKLTRTISLPTSESLVSFRMNKDPWTVSIPLGSHPTTNTETSIPVNSAGPPGLSTVASDVIDTPSDGAESIPTVSFSPSPDTEVTTISHFPEKTTHSFRTISSLTHELTSRVTPIPGDWMSSAMSTKPTGASPSITLGERRTITSAAPTTSPIVLTASFTETSTVSLDNETTVKTSDILDARKTNELPSDSSSSSDLINTSIASSTMDVTKTASISPTSISGMTASSSPSLFSSDRPQVPTSTTETNTATSPSVSSNTYSLDGGSNVGGTPSTLPPFTITHPVETSSALLAWSRPVRTFSTMVSTDTASGENPTSSNSVVTSVPAPGTWTSVGSTTDLPAMGFLKTSPAGEAHSLLASTIEPATAFTPHLSAAVVTGSSATSEASLLTTSESKAIHSSPQTPTTPTSGANWETSATPESLLVVTETSDTTLTSKILVTDTILFSTVSTPPSKFPSTGTLSGASFPTLLPDTPAIPLTATEPTSSLATSFDSTPLVTIASDSLGTVPETTLTMSETSNGDALVLKTVSNPDRSIPGITIQGVTESPLHPSSTSPSKIVAPRNTTYEGSITVALSTLPAGTTGSLVFSQSSENSETTALVDSSAGLERASVMPLTTGSQGMASSGGIRSGSTHSTGTKTFSSLPLTMNPGEVTAMSEITTNRLTATQSTAPKGIPVKPTSAESGLLTPVSASSSPSKAFASLTTAPPTWGIPQSTLTFEFSEVPSLDTKSASLPTPGQSLNTIPDSDASTASSSLSKSPEKNPRARMMTSTKAISASSFQSTGFTETPEGSASPSMAGHEPRVPTSGTGDPRYASESMSYPDPSKASSAMTSTSLASKLTTLFSTGQAARSGSSSSPISLSTEKETSFLSPTASTSRKTSLFLGPSMARQPNILVHLQTSALTLSPTSTLNMSQEEPPELTSSQTIAEEEGTTAETQTLTFTPSETPTSLLPVSSPTEPTARRKSSPETWASSISVPAKTSLVETTDGTLVTTIKMSSQAAQGNSTWPAPAEETGSSPAGTSPGSPEMSTTLKIMSSKEPSISPEIRSTVRNSPWKTPETTVPMETTVEPVTLQSTALGSGSTSISHLPTGTTSPTKSPTENMLATERVSLSPSPPEAWTNLYSGTPGGTRQSLATMSSVSLESPTARSITGTGQQSSPELVSKTTGMEFSMWHGSTGGTTGDTHVSLSTSSNILEDPVTSPNSVSSLTDKSKHKTETWVSTTAIPSTVLNNKIMAAEQQTSRSVDEAYSSTSSWSDQTSGSDITLGASPDVTNTLYITSTAQTTSLVSLPSGDQGITSLTNPSGGKTSSASSVTSPSIGLETLRANVSAVKSDIAPTAGHLSQTSSPAEVSILDVTTAPTPGISTTITTMGTNSISTTTPNPEVGMSTMDSTPATERRTTSTEHPSTWSSTAASDSWTVTDMTSNLKVARSPGTISTMHTTSFLASSTELDSMSTPHGRITVIGTSLVTPSSDASAVKTETSTSERTLSPSDTTASTPISTFSRVQRMSISVPDILSTSWTPSSTEAEDVPVSMVSTDHASTKTDPNTPLSTFLFDSLSTLDWDTGRSLSSATATTSAPQGATTPQELTLETMISPATSQLPFSIGHITSAVTPAAMARSSGVTFSRPDPTSKKAEQTSTQLPTTTSAHPGQVPRSAATTLDVIPHTAKTPDATFQRQGQTALTTEARATSDSWNEKEKSTPSAPWITEMMNSVSEDTIKEVTSSSSVLRTLNTLDINLESGTTSSPSWKSSPYERIAPSESTTDKEAIHPSTNTVETTGWVTSSEHASHSTIPAHSASSKLTSPVVTTSTREQAIVSMSTTTWPESTRARTEPNSFLTIELRDVSPYMDTSSTTQTSIISSPGSTAITKGPRTEITSSKRISSSFLAQSMRSSDSPSEAITRLSNFPAMTESGGMILAMQTSPPGATSLSAPTLDTSATASWTGTPLATTQRFTYSEKTTLFSKGPEDTSQPSPPSVEETSSSSSLVPIHATTSPSNILLTSQGHSPSSTPPVTSVFLSETSGLGKTTDMSRISLEPGTSLPPNLSSTAGEALSTYEASRDTKAIHHSADTAVTNMEATSSEYSPIPGHTKPSKATSPLVTSHIMGDITSSTSVFGSSETTEIETVSSVNQGLQERSTSQVASSATETSTVITHVSSGDATTHVTKTQATFSSGTSISSPHQFITSTNTFTDVSTNPSTSLIMTESSGVTITTQTGPTGAATQGPYLLDTSTMPYLTETPLAVTPDFMQSEKTTLISKGPKDVSWTSPPSVAETSYPSSLTPFLVTTIPPATSTLQGQHTSSPVSATSVLTSGLVKTTDMLNTSMEPVTNSPQNLNNPSNEILATLAATTDIETIHPSINKAVTNMGTASSAHVLHSTLPVSSEPSTATSPMVPASSMGDALASISIPGSETTDIEGEPTSSLTAGRKENSTLQEMNSTTESNIILSNVSVGAITEATKMEVPSFDATFIPTPAQSTKFPDIFSVASSRLSNSPPMTISTHMTTTQTGSSGATSKIPLALDTSTLETSAGTPSVVTEGFAHSKITTAMNNDVKDVSQTNPPFQDEASSPSSQAPVLVTTLPSSVAFTPQWHSTSSPVSMSSVLTSSLVKTAGKVDTSLETVTSSPQSMSNTLDDISVTSAATTDIETTHPSINTVVTNVGTTGSAFESHSTVSAYPEPSKVTSPNVTTSTMEDTTISRSIPKSSKTTRTETETTSSLTPKLRETSISQEITSSTETSTVPYKELTGATTEVSRTDVTSSSSTSFPGPDQSTVSLDISTETNTRLSTSPIMTESAEITITTQTGPHGATSQDTFTMDPSNTTPQAGIHSAMTHGFSQLDVTTLMSRIPQDVSWTSPPSVDKTSSPSSFLSSPAMTTPSLISSTLPEDKLSSPMTSLLTSGLVKITDILRTRLEPVTSSLPNFSSTSDKILATSKDSKDTKEIFPSINTEETNVKANNSGHESHSPALADSETPKATTQMVITTTVGDPAPSTSMPVHGSSETTNIKREPTYFLTPRLRETSTSQESSFPTDTSFLLSKVPTGTITEVSSTGVNSSSKISTPDHDKSTVPPDTFTGEIPRVFTSSIKTKSAEMTITTQASPPESASHSTLPLDTSTTLSQGGTHSTVTQGFPYSEVTTLMGMGPGNVSWMTTPPVEETSSVSSLMSSPAMTSPSPVSSTSPQSIPSSPLPVTALPTSVLVTTTDVLGTTSPESVTSSPPNLSSITHERPATYKDTAHTEAAMHHSTNTAVTNVGTSGSGHKSQSSVLADSETSKATPLMSTTSTLGDTSVSTSTPNISQTNQIQTEPTASLSPRLRESSTSEKTSSTTETNTAFSYVPTGAITQASRTEISSSRTSISDLDRPTIAPDISTGMITRLFTSPIMTKSAEMTVTTQTTTPGATSQGILPWDTSTTLFQGGTHSTVSQGFPHSEITTLRSRTPGDVSWMTTPPVEETSSGFSLMSPSMTSPSPVSSTSPESIPSSPLPVTALLTSVLVTTTNVLGTTSPEPVTSSPPNLSSPTQERLTTYKDTAHTEAMHASMHTNTAVANVGTSISGHESQSSVPADSHTSKATSPMGITFAMGDTSVSTSTPAFFETRIQTESTSSLIPGLRDTRTSEEINTVTETSTVLSEVPTTTTTEVSRTEVITSSRTTISGPDHSKMSPYISTETITRLSTFPFVTGSTEMAITNQTGPIGTISQATLTLDTSSTASWEGTHSPVTQRFPHSEETTTMSRSTKGVSWQSPPSVEETSSPSSPVPLPAITSHSSLYSAVSGSSPTSALPVTSLLTSGRRKTIDMLDTHSELVTSSLPSASSFSGEILTSEASTNTETIHFSENTAETNMGTTNSMHKLHSSVSIHSQPSGHTPPKVTGSMMEDAIVSTSTPGSPETKNVDRDSTSPLTPELKEDSTALVMNSTTESNTVFSSVSLDAATEVSRAEVTYYDPTFMPASAQSTKSPDISPEASSSHSNSPPLTISTHKTIATQTGPSGVTSLGQLTLDTSTIATSAGTPSARTQDFVDSETTSVMNNDLNDVLKTSPFSAEEANSLSSQAPLLVTTSPSPVTSTLQEHSTSSLVSVTSVPTPTLAKITDMDTNLEPVTRSPQNLRNTLATSEATTDTHTMHPSINTAVANVGTTSSPNEFYFTVSPDSDPYKATSAVVITSTSGDSIVSTSMPRSSAMKKIESETTFSLIFRLRETSTSQKIGSSSDTSTVFDKAFTAATTEVSRTELTSSSRTSIQGTEKPTMSPDTSTRSVTMLSTFAGLTKSEERTIATQTGPHRATSQGTLTWDTSITTSQAGTHSAMTHGFSQLDLSTLTSRVPEYISGTSPPSVEKTSSSSSLLSLPAITSPSPVPTTLPESRPSSPVHLTSLPTSGLVKTTDMLASVASLPPNLGSTSHKIPTTSEDIKDTEKMYPSTNIAVTNVGTTTSEKESYSSVPAYSEPPKVTSPMVTSFNIRDTIVSTSMPGSSEITRIEMESTFSLAHGLKGTSTSQDPIVSTEKSAVLHKLTTGATETSRTEVASSRRTSIPGPDHSTESPDISTEVIPSLPISLGITESSNMTIITRTGPPLGSTSQGTFTLDTPTTSSRAGTHSMATQEFPHSEMTTVMNKDPEILSWTIPPSIEKTSFSSSLMPSPAMTSPPVSSTLPKTIHTTPSPMTSLLTPSLVMTTDTLGTSPEPTTSSPPNLSSTSHEILTTDEDTTAIEAMHPSTSTAATNVETTSSGHGSQSSVLADSEKTKATAPMDTTSTMGHTTVSTSMSVSSETTKIKRESTYSLTPGLRETSISQNASFSTDTSIVLSEVPTGTTAEVSRTEVTSSGRTSIPGPSQSTVLPEISTRTMTRLFASPTMTESAEMTIPTQTGPSGSTSQDTLTLDTSTTKSQAKTHSTLTQRFPHSEMTTLMSRGPGDMSWQSSPSLENPSSLPSLLSLPATTSPPPISSTLPVTISSSPLPVTSLLTSSPVTTTDMLHTSPELVTSSPPKLSHTSDERLTTGKDTTNTEAVHPSTNTAASNVEIPSSGHESPSSALADSETSKATSPMFITSTQEDTTVAISTPHFLETSRIQKESISSLSPKLRETGSSVETSSAIETSAVLSEVSIGATTEISRTEVTSSSRTSISGSAESTMLPEISTTRKIIKFPTSPILAESSEMTIKTQTSPPGSTSESTFTLDTSTTPSLVITHSTMTQRLPHSEITTLVSRGAGDVPRPSSLPVEETSPPSSQLSLSAMISPSPVSSTLPASSHSSSASVTSLLTPGQVKTTEVLDASAEPETSSPPSLSSTSVEILATSEVTTDTEKIHPFSNTAVTKVGTSSSGHESPSSVLPDSETTKATSAMGTISIMGDTSVSTLTPALSNTRKIQSEPASSLTTRLRETSTSEETSLATEANTVLSKVSTGATTEVSRTEAISFSRTSMSGPEQSTMSQDISIGTIPRISASSVLTESAKMTITTQTGPSESTLESTLNLNTATTPSWVETHSIVIQGFPHPEMTTSMGRGPGGVSWPSPPFVKETSPPSSPLSLPAVTSPHPVSTTFLAHIPPSPLPVTSLLTSGPATTTDILGTSTEPGTSSSSSLSTTSHERLTTYKDTAHTEAVHPSTNTGGTNVATTSSGYKSQSSVLADSSPMCTTSTMGDTSVLTSTPAFLETRRIQTELASSLTPGLRESSGSEGTSSGTKMSTVLSKVPTGATTEISKEDVTSIPGPAQSTISPDISTRTVSWFSTSPVMTESAEITMNTHTSPLGATTQGTSTLDTSSTTSLTMTHSTISQGFSHSQMSTLMRRGPEDVSWMSPPLLEKTRPSFSLMSSPATTSPSPVSSTLPESISSSPLPVTSLLTSGLAKTTDMLHKSSEPVTNSPANLSSTSVEILATSEVTTDTEKTHPSSNRTVTDVGTSSSGHESTSFVLADSQTSKVTSPMVITSTMEDTSVSTSTPGFFETSRIQTEPTSSLTLGLRKTSSSEGTSLATEMSTVLSGVPTGATAEVSRTEVTSSSRTSISGFAQLTVSPETSTETITRLPTSSIMTESAEMMIKTQTDPPGSTPESTHTVDISTTPNWVETHSTVTQRFSHSEMTTLVSRSPGDMLWPSQSSVEETSSASSLLSLPATTSPSPVSSTLVEDFPSASLPVTSLLNPGLVITTDRMGISREPGTSSTSNLSSTSHERLTTLEDTVDTEDMQPSTHTAVTNVRTSISGHESQSSVLSDSETPKATSPMGTTYTMGETSVSISTSDFFETSRIQIEPTSSLTSGLRETSSSERISSATEGSTVLSEVPSGATTEVSRTEVISSRGTSMSGPDQFTISPDISTEAITRLSTSPIMTESAESAITIETGSPGATSEGTLTLDTSTTTFWSGTHSTASPGFSHSEMTTLMSRTPGDVPWPSLPSVEEASSVSSSLSSPAMTSTSFFSTLPESISSSPHPVTALLTLGPVKTTDMLRTSSEPETSSPPNLSSTSAEILATSEVTKDREKIHPSSNTPVVNVGTVIYKHLSPSSVLADLVTTKPTSPMATTSTLGNTSVSTSTPAFPETMMTQPTSSLTSGLREISTSQETSSATERSASLSGMPTGATTKVSRTEALSLGRTSTPGPAQSTISPEISTETITRISTPLTTTGSAEMTITPKTGHSGASSQGTFTLDTSSRASWPGTHSAATHRSPHSGMTTPMSRGPEDVSWPSRPSVEKTSPPSSLVSLSAVTSPSPLYSTPSESSHSSPLRVTSLFTPVMMKTTDMLDTSLEPVTTSPPSMNITSDESLATSKATMETEAIQLSENTAVTQMGTISARQEFYSSYPGLPEPSKVTSPVVTSSTIKDIVSTTIPASSEITRIEMESTSTLTPTPRETSTSQEIHSATKPSTVPYKALTSATIEDSMTQVMSSSRGPSPDQSTMSQDISTEVITRLSTSPIKTESTEMTITTQTGSPGATSRGTLTLDTSTTFMSGTHSTASQGFSHSQMTALMSRTPGDVPWLSHPSVEEASSASFSLSSPVMTSSSPVSSTLPDSIHSSSLPVTSLLTSGLVKTTELLGTSSEPETSSPPNLSSTSAEILAITEVTTDTEKLEMTNVVTSGYTHESPSSVLADSVTTKATSSMGITYPTGDTNVLTSTPAFSDTSRIQTKSKLSLTPGLMETSISEETSSATEKSTVLSSVPTGATTEVSRTEAISSSRTSIPGPAQSTMSSDTSMETITRISTPLTRKESTDMAITPKTGPSGATSQGTFTLDSSSTASWPGTHSATTQRFPQSVVTTPMSRGPEDVSWPSPLSVEKNSPPSSLVSSSSVTSPSPLYSTPSGSSHSSPVPVTSLFTSIMMKATDMLDASLEPETTSAPNMNITSDESLAASKATTETEAIHVFENTAASHVETTSATEELYSSSPGFSEPTKVISPVVTSSSIRDNMVSTTMPGSSGITRIEIESMSSLTPGLRETRTSQDITSSTETSTVLYKMPSGATPEVSRTEVMPSSRTSIPGPAQSTMSLDISDEVVTRLSTSPIMTESAEITITTQTGYSLATSQVTLPLGTSMTFLSGTHSTMSQGLSHSEMTNLMSRGPESLSWTSPRFVETTRSSSSLTSLPLTTSLSPVSSTLLDSSPSSPLPVTSLILPGLVKTTEVLDTSSEPKTSSSPNLSSTSVEIPATSEIMTDTEKIHPSSNTAVAKVRTSSSVHESHSSVLADSETTITIPSMGITSAVDDTTVFTSNPAFSETRRIPTEPTFSLTPGFRETSTSEETTSITETSAVLYGVPTSATTEVSMTEIMSSNRIHIPDSDQSTMSPDIITEVITRLSSSSMMSESTQMTITTQKSSPGATAQSTLTLATTTAPLARTHSTVPPRFLHSEMTTLMSRSPENPSWKSSLFVEKTSSSSSLLSLPVTTSPSVSSTLPQSIPSSSFSVTSLLTPGMVKTTDTSTEPGTSLSPNLSGTSVEILAASEVTTDTEKIHPSSSMAVTNVGTTSSGHELYSSVSIHSEPSKATYPVGTPSSMAETSISTSMPANFETTGFEAEPFSHLTSGFRKTNMSLDTSSVTPTNTPSSPGSTHLLQSSKTDFTSSAKTSSPDWPPASQYTEIPVDIITPFNASPSITESTGITSFPESRFTMSVTESTHHLSTDLLPSAETISTGTVMPSLSEAMTSFATTGVPRAISGSGSPFSRTESGPGDATLSTIAESLPSSTPVPFSSSTFTTTDSSTIPALHEITSSSATPYRVDTSLGTESSTTEGRLVMVSTLDTSSQPGRTSSSPILDTRMTESVELGTVTSAYQVPSLSTRLTRTDGIMEHITKIPNEAAHRGTIRPVKGPQTSTSPASPKGLHTGGTKRMETTTTALKTTTTALKTTSRATLTTSVYTPTLGTLTPLNASMQMASTIPTEMMITTPYVFPDVPETTSSLATSLGAETSTALPRTTPSVFNRESETTASLVSRSGAERSPVIQTLDVSSSEPDTTASWVIHPAETIPTVSKTTPNFFHSELDTVSSTATSHGADVSSAIPTNISPSELDALTPLVTISGTDTSTTFPTLTKSPHETETRTTWLTHPAETSSTIPRTIPNFSHHESDATPSIATSPGAETSSAIPIMTVSPGAEDLVTSQVTSSGTDRNMTIPTLTLSPGEPKTIASLVTHPEAQTSSAIPTSTISPAVSRLVTSMVTSLAAKTSTTNRALTNSPGEPATTVSLVTHPAQTSPTVPWTTSIFFHSKSDTTPSMTTSHGAESSSAVPTPTVSTEVPGVVTPLVTSSRAVISTTIPILTLSPGEPETTPSMATSHGEEASSAIPTPTVSPGVPGVVTSLVTSSRAVTSTTIPILTFSLGEPETTPSMATSHGTEAGSAVPTVLPEVPGMVTSLVASSRAVTSTTLPTLTLSPGEPETTPSMATSHGAEASSTVPTVSPEVPGVVTSLVTSSSGVNSTSIPTLILSPGELETTPSMATSHGAEASSAVPTPTVSPGVSGVVTPLVTSSRAVTSTTIPILTLSSSEPETTPSMATSHGVEASSAVLTVSPEVPGMVTSLVTSSRAVTSTTIPTLTISSDEPETTTSLVTHSEAKMISAIPTLAVSPTVQGLVTSLVTSSGSETSAFSNLTVASSQPETIDSWVAHPGTEASSVVPTLTVSTGEPFTNISLVTHPAESSSTLPRTTSRFSHSELDTMPSTVTSPEAESSSAISTTISPGIPGVLTSLVTSSGRDISATFPTVPESPHESEATASWVTHPAVTSTTVPRTTPNYSHSEPDTTPSIATSPGAEATSDFPTITVSPDVPDMVTSQVTSSGTDTSITIPTLTLSSGEPETTTSFITYSETHTSSAIPTLPVSPGASKMLTSLVISSGTDSTTTFPTLTETPYEPETTAIQLIHPAETNTMVPRTTPKFSHSKSDTTLPVAITSPGPEASSAVSTTTISPDMSDLVTSLVPSSGTDTSTTFPTLSETPYEPETTATWLTHPAETSTTVSGTIPNFSHRGSDTAPSMVTSPGVDTRSGVPTTTIPPSIPGVVTSQVTSSATDTSTAIPTLTPSPGEPETTASSATHPGTQTGFTVPIRTVPSSEPDTMASWVTHPPQTSTPVSRTTSSFSHSSPDATPVMATSPRTEASSAVLTTISPGAPEMVTSQITSSGAATSTTVPTLTHSPGMPETTALLSTHPRTETSKTFPASTVFPQVSETTASLTIRPGAETSTALPTQTTSSLFTLLVTGTSRVDLSPTASPGVSAKTAPLSTHPGTETSTMIPTSTLSLGLLETTGLLATSSSAETSTSTLTLTVSPAVSGLSSASITTDKPQTVTSWNTETSPSVTSVGPPEFSRTVTGTTMTLIPSEMPTPPKTSHGEGVSPTTILRTTMVEATNLATTGSSPTVAKTTTTFNTLAGSLFTPLTTPGMSTLASESVTSRTSYNHRSWISTTSSYNRRYWTPATSTPVTSTFSPGISTSSIPSSTAATVPFMVPFTLNFTITNLQYEEDMRHPGSRKFNATERELQGLLKPLFRNSSLEYLYSGCRLASLRPEKDSSATAVDAICTHRPDPEDLGLDRERLYWELSNLTNGIQELGPYTLDRNSLYVNGFTHRSSMPTTSTPGTSTVDVGTSGTPSSSPSPTTAGPLLMPFTLNFTITNLQYEEDMRRTGSRKFNTMESVLQGLLKPLFKNTSVGPLYSGCRLTLLRPEKDGAATGVDAICTHRLDPKSPGLNREQLYWELSKLTNDIEELGPYTLDRNSLYVNGFTHQSSVSTTSTPGTSTVDLRTSGTPSSLSSPTIMAAGPLLVPFTLNFTITNLQYGEDMGHPGSRKFNTTERVLQGLLGPIFKNTSVGPLYSGCRLTSLRSEKDGAATGVDAICIHHLDPKSPGLNRERLYWELSQLTNGIKELGPYTLDRNSLYVNGFTHRTSVPTSSTPGTSTVDLGTSGTPFSLPSPATAGPLLVLFTLNFTITNLKYEEDMHRPGSRKFNTTERVLQTLLGPMFKNTSVGLLYSGCRLTLLRSEKDGAATGVDAICTHRLDPKSPGVDREQLYWELSQLTNGIKELGPYTLDRNSLYVNGFTHWIPVPTSSTPGTSTVDLGSGTPSSLPSPTTAGPLLVPFTLNFTITNLKYEEDMHCPGSRKFNTTERVLQSLLGPMFKNTSVGPLYSGCRLTLLRSEKDGAATGVDAICTHRLDPKSPGVDREQLYWELSQLTNGIKELGPYTLDRNSLYVNGFTHQTSAPNTSTPGTSTVDLGTSGTPSSLPSPTSAGPLLVPFTLNFTITNLQYEEDMHHPGSRKFNTTERVLQGLLGPMFKNTSVGLLYSGCRLTLLRPEKNGAATGMDAICSHRLDPKSPGLNREQLYWELSQLTHGIKELGPYTLDRNSLYVNGFTHRSSVAPTSTPGTSTVDLGTSGTPSSLPSPTTAVPLLVPFTLNFTITNLQYGEDMRHPGSRKFNTTERVLQGLLGPLFKNSSVGPLYSGCRLISLRSEKDGAATGVDAICTHHLNPQSPGLDREQLYWQLSQMTNGIKELGPYTLDRNSLYVNGFTHRSSGLTTSTPWTSTVDLGTSGTPSPVPSPTTTGPLLVPFTLNFTITNLQYEENMGHPGSRKFNITESVLQGLLKPLFKSTSVGPLYSGCRLTLLRPEKDGVATRVDAICTHRPDPKIPGLDRQQLYWELSQLTHSITELGPYTLDRDSLYVNGFTQRSSVPTTSTPGTFTVQPETSETPSSLPGPTATGPVLLPFTLNFTITNLQYEEDMRRPGSRKFNTTERVLQGLLMPLFKNTSVSSLYSGCRLTLLRPEKDGAATRVDAVCTHRPDPKSPGLDRERLYWKLSQLTHGITELGPYTLDRHSLYVNGFTHQSSMTTTRTPDTSTMHLATSRTPASLSGPMTASPLLVLFTINFTITNLRYEENMHHPGSRKFNTTERVLQGLLRPVFKNTSVGPLYSGCRLTLLRPKKDGAATKVDAICTYRPDPKSPGLDREQLYWELSQLTHSITELGPYTLDRDSLYVNGFTQRSSVPTTSIPGTPTVDLGTSGTPVSKPGPSAASPLLVLFTLNFTITNLRYEENMQHPGSRKFNTTERVLQGLLRSLFKSTSVGPLYSGCRLTLLRPEKDGTATGVDAICTHHPDPKSPRLDREQLYWELSQLTHNITELGPYALDNDSLFVNGFTHRSSVSTTSTPGTPTVYLGASKTPASIFGPSAASHLLILFTLNFTITNLRYEENMWPGSRKFNTTERVLQGLLRPLFKNTSVGPLYSGCRLTLLRPEKDGEATGVDAICTHRPDPTGPGLDREQLYLELSQLTHSITELGPYTLDRDSLYVNGFTHRSSVPTTSTGVVSEEPFTLNFTINNLRYMADMGQPGSLKFNITDNVMQHLLSPLFQRSSLGARYTGCRVIALRSVKNGAETRVDLLCTYLQPLSGPGLPIKQVFHELSQQTHGITRLGPYSLDKDSLYLNGYNEPGPDEPPTTPKPATTFLPPLSEATTAMGYHLKTLTLNFTISNLQYSPDMGKGSATFNSTEGVLQHLLRPLFQKSSMGPFYLGCQLISLRPEKDGAATGVDTTCTYHPDPVGPGLDIQQLYWELSQLTHGVTQLGFYVLDRDSLFINGYAPQNLSIRGEYQINFHIVNWNLSNPDPTSSEYITLLRDIQDKVTTLYKGSQLHDTFRFCLVTNLTMDSVLVTVKALFSSNLDPSLVEQVFLDKTLNASFHWLGSTYQLVDIHVTEMESSVYQPTSSSSTQHFYLNFTITNLPYSQDKAQPGTTNYQRNKRNIEDALNQLFRNSSIKSYFSDCQVSTFRSVPNRHHTGVDSLCNFSPLARRVDRVAIYEEFLRMTRNGTQLQNFTLDRSSVLVDGYSPNRNEPLTGNSDLPFWAVILIGLAGLLGVITCLICGVLVTTRRRKKEGEYNVQQQCPGYYQSHLDLEDLQ

PTMs - Q8WXI7 As Substrate

Site PTM Type Enzyme
S5 Phosphorylation
T27 Phosphorylation
T35 Phosphorylation
T54 Phosphorylation
T63 Phosphorylation
S66 Phosphorylation
T68 Phosphorylation
S69 Phosphorylation
S70 Phosphorylation
S84 Phosphorylation
T95 Phosphorylation
S97 Phosphorylation
S124 Phosphorylation
T150 Phosphorylation
T159 Phosphorylation
Y162 Phosphorylation
T163 Phosphorylation
T166 Phosphorylation
T178 Phosphorylation
S202 Phosphorylation
T211 Phosphorylation
T222 Phosphorylation
S229 Phosphorylation
S299 Phosphorylation
S311 Phosphorylation
S354 Phosphorylation
T373 Phosphorylation
S472 O-Glycosylation
S475 O-Glycosylation
S475 Phosphorylation
S477 O-Glycosylation
T480 O-Glycosylation
T486 Phosphorylation
S494 Phosphorylation
S495 Phosphorylation
S496 Phosphorylation
T497 Phosphorylation
S502 Phosphorylation
S503 Phosphorylation
S511 Phosphorylation
S610 Phosphorylation
S620 O-Glycosylation
T623 O-Glycosylation
T624 O-Glycosylation
T628 O-Glycosylation
S708 O-Glycosylation
S708 Phosphorylation
S709 O-Glycosylation
S709 Phosphorylation
T718 O-Glycosylation
T718 Phosphorylation
S844 Phosphorylation
S890 Phosphorylation
T895 Phosphorylation
S908 O-Glycosylation
S912 O-Glycosylation
S913 O-Glycosylation
S914 O-Glycosylation
S918 O-Glycosylation
S927 Phosphorylation
T932 Phosphorylation
T955 Phosphorylation
S959 Phosphorylation
T984 Phosphorylation
T1002 Phosphorylation
S1007 Phosphorylation
S1155 Phosphorylation
T1202 Phosphorylation
S1367 Phosphorylation
T1512 O-Glycosylation
S1514 O-Glycosylation
T1515 O-Glycosylation
T1516 O-Glycosylation
T1770 Phosphorylation
S1782 Phosphorylation
S1785 Phosphorylation
T1794 Phosphorylation
S1864 O-Glycosylation
S1864 Phosphorylation
T1867 O-Glycosylation
T1867 Phosphorylation
T1870 O-Glycosylation
S2007 Phosphorylation
T2049 Phosphorylation
T2067 Phosphorylation
S2070 Phosphorylation
T2270 Phosphorylation
S2371 Phosphorylation
T2376 Phosphorylation
S2381 Phosphorylation
T2454 Phosphorylation
T2456 Phosphorylation
T2461 Phosphorylation
S2726 Phosphorylation
S2798 Phosphorylation
T2820 Phosphorylation
S2923 Phosphorylation
T2924 Phosphorylation
S2927 Phosphorylation
S2932 Phosphorylation
T2982 O-Glycosylation
S2991 Phosphorylation
S2993 Phosphorylation
Y2994 Phosphorylation
S2998 Phosphorylation
S3048 Phosphorylation
T3053 Phosphorylation
S3054 Phosphorylation
S3060 Phosphorylation
T3095 Phosphorylation
S3096 Phosphorylation
S3097 Phosphorylation
T3099 Phosphorylation
T3131 Phosphorylation
S3146 O-Glycosylation
S3147 O-Glycosylation
S3149 O-Glycosylation
T3160 Phosphorylation
S3210 O-Glycosylation
S3211 O-Glycosylation
S3215 O-Glycosylation
S3217 O-Glycosylation
T3358 Phosphorylation
S3363 Phosphorylation
T3390 O-Glycosylation
S3395 O-Glycosylation
T3396 O-Glycosylation
T3396 Phosphorylation
T3397 O-Glycosylation
S3401 O-Glycosylation
S3401 Phosphorylation
T3402 O-Glycosylation
T3402 Phosphorylation
T3415 O-Glycosylation
S3416 O-Glycosylation
S3484 Phosphorylation
T3662 Phosphorylation
S3664 Phosphorylation
S3678 Phosphorylation
S3694 Phosphorylation
S3743 Phosphorylation
S3795 O-Glycosylation
T3799 O-Glycosylation
S3801 O-Glycosylation
T3806 O-Glycosylation
S3807 O-Glycosylation
T3813 O-Glycosylation
S3814 O-Glycosylation
T3815 O-Glycosylation
T3819 O-Glycosylation
T3820 O-Glycosylation
T3821 O-Glycosylation
S3822 O-Glycosylation
S3831 O-Glycosylation
T3834 O-Glycosylation
T3835 O-Glycosylation
T3842 O-Glycosylation
S3900 Phosphorylation
S3901 Phosphorylation
S3902 Phosphorylation
T3909 Phosphorylation
S3935 Phosphorylation
S3985 Phosphorylation
T4007 O-Glycosylation
S4011 O-Glycosylation
T4014 O-Glycosylation
S4058 O-Glycosylation
S4059 O-Glycosylation
S4065 O-Glycosylation
T4130 O-Glycosylation
S4132 O-Glycosylation
T4135 O-Glycosylation
T4136 O-Glycosylation
T4250 O-Glycosylation
T4255 O-Glycosylation
S4256 O-Glycosylation
S4260 O-Glycosylation
T4266 O-Glycosylation
S4269 O-Glycosylation
S4660 O-Glycosylation
S4663 O-Glycosylation
S4686 Phosphorylation
T4763 Phosphorylation
T4819 Phosphorylation
S4875 Phosphorylation
S4891 Phosphorylation
S4969 Phosphorylation
S4994 Phosphorylation
S5020 Phosphorylation
T5069 Phosphorylation
T5080 O-Glycosylation
T5091 O-Glycosylation
S5092 Phosphorylation
T5151 Phosphorylation
S5168 Phosphorylation
T5178 Phosphorylation
T5185 O-Glycosylation
T5185 Phosphorylation
T5189 O-Glycosylation
T5189 Phosphorylation
S5208 Phosphorylation
S5234 O-Glycosylation
T5235 O-Glycosylation
S5241 O-Glycosylation
T5242 O-Glycosylation
T5247 O-Glycosylation
T5249 O-Glycosylation
T5257 O-Glycosylation
S5258 O-Glycosylation
S5259 O-Glycosylation
T5262 O-Glycosylation
T5450 Phosphorylation
S5465 Phosphorylation
T5479 Phosphorylation
S5486 Phosphorylation
T5522 Phosphorylation
S5525 Phosphorylation
T5529 Phosphorylation
S5530 Phosphorylation
T5549 Phosphorylation
T5553 O-Glycosylation
S5554 O-Glycosylation
T5558 O-Glycosylation
S5735 Phosphorylation
S5747 Phosphorylation
T5752 Phosphorylation
T5774 O-Glycosylation
S5776 O-Glycosylation
T5777 O-Glycosylation
S5778 O-Glycosylation
S5779 O-Glycosylation
S5804 Phosphorylation
T5810 Phosphorylation
T5811 Phosphorylation
T5817 Phosphorylation
T5843 Phosphorylation
S5848 Phosphorylation
T5857 Phosphorylation
S5900 O-Glycosylation
T5903 O-Glycosylation
T5904 O-Glycosylation
T5905 O-Glycosylation
T5952 Phosphorylation
S5959 Phosphorylation
T5962 Phosphorylation
T6071 O-Glycosylation
S6072 O-Glycosylation
T6114 Phosphorylation
T6128 Phosphorylation
T6263 O-Glycosylation
T6273 O-Glycosylation
S6275 Phosphorylation
T6285 Phosphorylation
T6289 Phosphorylation
T6329 Phosphorylation
T6335 Phosphorylation
S6358 O-Glycosylation
T6360 O-Glycosylation
T6360 Phosphorylation
T6361 O-Glycosylation
S6363 O-Glycosylation
S6381 O-Glycosylation
S6381 Phosphorylation
T6383 O-Glycosylation
T6383 Phosphorylation
S6384 O-Glycosylation
S6384 Phosphorylation
T6385 O-Glycosylation
T6385 Phosphorylation
T6392 O-Glycosylation
T6395 O-Glycosylation
T6396 O-Glycosylation
T6409 Phosphorylation
T6429 O-Glycosylation
S6432 O-Glycosylation
T6433 O-Glycosylation
T6438 O-Glycosylation
T6444 O-Glycosylation
T6447 O-Glycosylation
T6449 O-Glycosylation
T6575 O-Glycosylation
T6576 O-Glycosylation
S6577 O-Glycosylation
T6583 O-Glycosylation
T6583 Phosphorylation
T6590 Phosphorylation
S6635 Phosphorylation
T6682 O-Glycosylation
T6683 O-Glycosylation
T6686 O-Glycosylation
T6688 O-Glycosylation
S6689 O-Glycosylation
T6691 O-Glycosylation
S6695 O-Glycosylation
S6945 O-Glycosylation
S6945 Phosphorylation
T6946 O-Glycosylation
S6948 O-Glycosylation
S6948 Phosphorylation
T6950 O-Glycosylation
S6957 Phosphorylation
S6963 Phosphorylation
S6973 Phosphorylation
S7000 Phosphorylation
T7012 Phosphorylation
T7014 Phosphorylation
S7069 O-Glycosylation
T7072 O-Glycosylation
T7073 O-Glycosylation
S7076 O-Glycosylation
S7203 Phosphorylation
S7240 O-Glycosylation
S7242 O-Glycosylation
S7242 Phosphorylation
S7243 O-Glycosylation
S7279 Phosphorylation
T7289 Phosphorylation
S7304 Phosphorylation
T7305 Phosphorylation
T7325 Phosphorylation
T7330 Phosphorylation
S7337 Phosphorylation
T7340 Phosphorylation
T7345 Phosphorylation
S7346 Phosphorylation
S7365 O-Glycosylation
T7368 O-Glycosylation
T7369 O-Glycosylation
S7372 O-Glycosylation
S7475 Phosphorylation
S7493 Phosphorylation
T7502 Phosphorylation
S7506 Phosphorylation
T7517 Phosphorylation
S7518 Phosphorylation
T7523 Phosphorylation
S7527 Phosphorylation
S7534 O-Glycosylation
S7538 O-Glycosylation
S7539 O-Glycosylation
T7541 O-Glycosylation
T7542 O-Glycosylation
T7547 Phosphorylation
S7548 Phosphorylation
T7549 Phosphorylation
S7608 O-Glycosylation
S7610 O-Glycosylation
S7611 O-Glycosylation
T7614 O-Glycosylation
S7616 O-Glycosylation
S7674 O-Glycosylation
S7677 O-Glycosylation
T7704 Phosphorylation
T7705 Phosphorylation
S7713 Phosphorylation
S7723 Phosphorylation
T7728 Phosphorylation
T7729 Phosphorylation
T7755 Phosphorylation
T7756 Phosphorylation
T7760 Phosphorylation
T7823 O-Glycosylation
S7827 O-Glycosylation
S7828 O-Glycosylation
S7828 Phosphorylation
T7830 O-Glycosylation
T7830 Phosphorylation
T7842 Phosphorylation
S7853 Phosphorylation
T7857 Phosphorylation
T7887 Phosphorylation
T7907 Phosphorylation
S7920 Phosphorylation
T7924 Phosphorylation
S7929 Phosphorylation
T7933 Phosphorylation
S7935 Phosphorylation
T7948 Phosphorylation
S7958 O-Glycosylation
S7961 O-Glycosylation
S8066 Phosphorylation
S8078 Phosphorylation
S8097 Phosphorylation
S8109 Phosphorylation
T8113 O-Glycosylation
T8116 O-Glycosylation
S8117 O-Glycosylation
S8118 O-Glycosylation
T8120 O-Glycosylation
T8120 Phosphorylation
S8128 Phosphorylation
T8132 Phosphorylation
S8139 Phosphorylation
T8140 Phosphorylation
T8147 Phosphorylation
T8159 Phosphorylation
S8160 Phosphorylation
T8164 Phosphorylation
S8237 O-Glycosylation
S8239 O-Glycosylation
T8242 O-Glycosylation
T8243 O-Glycosylation
S8246 O-Glycosylation
S8246 Phosphorylation
T8334 Phosphorylation
T8335 Phosphorylation
T8379 Phosphorylation
S8380 Phosphorylation
Y8386 Phosphorylation
T8411 O-Glycosylation
S8412 O-Glycosylation
T8415 O-Glycosylation
S8416 O-Glycosylation
S8422 Phosphorylation
S8423 Phosphorylation
S8424 Phosphorylation
S8442 Phosphorylation
T8468 Phosphorylation
T8475 Phosphorylation
T8479 Phosphorylation
S8482 Phosphorylation
S8484 Phosphorylation
T8511 Phosphorylation
S8534 O-Glycosylation
T8537 O-Glycosylation
T8538 O-Glycosylation
S8541 O-Glycosylation
S8642 O-Glycosylation
S8643 O-Glycosylation
T8645 O-Glycosylation
T8652 O-Glycosylation
T8652 Phosphorylation
Y8655 Phosphorylation
K8656 Ubiquitination
S8714 O-Glycosylation
T8715 O-Glycosylation
S8716 O-Glycosylation
T8719 O-Glycosylation
T8719 Phosphorylation
S8720 O-Glycosylation
S8720 Phosphorylation
S8721 O-Glycosylation
S8721 Phosphorylation
T8723 O-Glycosylation
T8723 Phosphorylation
T8734 Phosphorylation
T8737 Phosphorylation
T8738 Phosphorylation
T8779 Phosphorylation
S8782 Phosphorylation
T8786 Phosphorylation
T8788 Phosphorylation
T8791 O-Glycosylation
S8797 O-Glycosylation
S8798 O-Glycosylation
T8803 O-Glycosylation
T8803 Phosphorylation
S8807 O-Glycosylation
S8808 O-Glycosylation
S8811 O-Glycosylation
T8815 O-Glycosylation
S8817 O-Glycosylation
T8820 O-Glycosylation
S8823 Phosphorylation
S8826 Phosphorylation
T8829 Phosphorylation
S8833 Phosphorylation
S8840 O-Glycosylation
S8843 O-Glycosylation
T8884 O-Glycosylation
T8888 O-Glycosylation
S8967 Phosphorylation
S8987 Phosphorylation
T8990 Phosphorylation
T9007 O-Glycosylation
S9008 O-Glycosylation
T9009 O-Glycosylation
S9010 O-Glycosylation
T9017 O-Glycosylation
S9020 O-Glycosylation
T9021 O-Glycosylation
S9058 Phosphorylation
S9090 Phosphorylation
T9287 Phosphorylation
T9293 Phosphorylation
S9294 Phosphorylation
S9354 Phosphorylation
T9355 Phosphorylation
T9363 O-Glycosylation
T9363 Phosphorylation
T9368 O-Glycosylation
T9368 Phosphorylation
T9371 Phosphorylation
T9383 Phosphorylation
S9397 Phosphorylation
T9399 Phosphorylation
T9551 O-Glycosylation
S9552 O-Glycosylation
S9553 Phosphorylation
T9562 Phosphorylation
T9563 Phosphorylation
S9567 Phosphorylation

Research Backgrounds

Function:

Thought to provide a protective, lubricating barrier against particles and infectious agents at mucosal surfaces.

PTMs:

Heavily O-glycosylated; expresses both type 1 and type 2 core glycans.

Heavily N-glycosylated; expresses primarily high mannose and complex bisecting type N-linked glycans.

May be phosphorylated. Phosphorylation of the intracellular C-terminal domain may induce proteolytic cleavage and the liberation of the extracellular domain into the extracellular space.

May contain numerous disulfide bridges. Association of several molecules of the secreted form may occur through interchain disulfide bridges providing an extraordinarily large gel-like matrix in the extracellular space or in the lumen of secretory ducts.

Subcellular Location:

Cell membrane>Single-pass type I membrane protein. Secreted>Extracellular space.
Note: May be liberated into the extracellular space following the phosphorylation of the intracellular C-terminus which induces the proteolytic cleavage and liberation of the extracellular domain.

Extracellular region or secreted Cytosol Plasma membrane Cytoskeleton Lysosome Endosome Peroxisome ER Golgi apparatus Nucleus Mitochondrion Manual annotation Automatic computational assertionSubcellular location
Tissue Specificity:

Expressed in corneal and conjunctival epithelia (at protein level). Overexpressed in ovarian carcinomas and ovarian low malignant potential (LMP) tumors as compared to the expression in normal ovarian tissue and ovarian adenomas.

Subunit Structure:

Binds to MSLN. Binding to MSLN mediates heterotypic cell adhesion. This may contribute to the metastasis of ovarian cancer to the peritoneum by initiating cell attachment to the mesothelial epithelium via binding to MSLN.

Family&Domains:

Composed of three domains, a Ser-, Thr-rich N-terminal domain, a repeated domain containing between 12 and 60 partially conserved tandem repeats of 156 amino acids and a C-terminal transmembrane contain domain with a short cytoplasmic tail.

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