Biological process  Biological_process unknown  Molecular function  Molecular function unknown   Protein   tudor domain containing 6  Gene symbol   TDRD6    Cellular component           Component           Experimental evidence      Total number of studies : 3       Peptide sequence Method Platform  Sample  Reference Mass spectrometry Plasma Liu et al. 2007 Mass spectrometry LTQ linear ion trap Plasma Jin et al. 2005 Mass spectrometry LTQ linear ion trap Plasma Tu et al. 2005          Multiple reaction monitoring data           Peptide sequence MH+ Sample Number of studies Reference Data not present           Protein concentration             Protein concentration Method Sample Reference Data not present           Extracellular vesicle proteins             Sample Isolation  Experimental method Vesiclepedia accession Reference Data not present          Architecture           Domains Motifs TUDOR   65 - 120 TUDOR   309 - 367 TUDOR   535 - 591 TUDOR   814 - 873 TUDOR   1032 - 1086 TUDOR   1351 - 1409 TUDOR   1566 - 1625 TUDOR   2025 - 2082          External links           HPRD UniProt NetPath  18172  O60522  NetPath_M221400             Protein sequence  NP_001010870.1               MCSTPGMPAP GASLALRVSF VDVHPDVIPV QLWGLVGERR GEYLRLSREI QEAAATRGQW ALGSASASPG ELCLVQVGLL WHRCRVVSRQ AQESRVFLLD EGRTITAGAG SLAPGRREFF NLPSEVLGCV LAGLVPAGCG AGSGEPPQHW PADAVDFLSN LQGKEVHGCV LDVLLLHRLV LLEVPDVFQQ MRELGLARRV PDSLFRSLLE RYLTAATASV GSGVPVLSRV PLKQKQPGLD YFYPQLQLGV TEAVVITQVC HPHRIHCQLR SVSQEIHRLS ESMAQVYRGS TGTGDENSTS ATWEEREESP DKPGSPCASC GLDGHWYRAL LLETFRPQRC AQVLHVDYGR KELVSCSSLR YLLPEYFRMP VVTYPCALYG LWDGGRGWSR SQVGDLKTLI LGKAVNAKIE FYCSFEHVYY VSLYGEDGIN LNRVFGVQSC CLADRVLQSQ ATEEEEPETS QSQSPAEEVD EEISLPALRS IRLKMNAFYD AQVEFVKNPS EFWIRLRKHN VTFSKLMRRM CGFYSSASKL DGVVLKPEPD DLCCVKWKEN GYYRAIVTKL DDKSVDVFLV DRGNSENVDW YDVRMLLPQF RQLPILAVKC TLADIWPLGK TWSQEAVSFF KKTVLHKELV IHILDKQDHQ YVIEILDESR TGEENISKVI AQAGYAKYQE FETKENILVN AHSPGHVSNH FTTESNKIPF AKTGEGEQKA KRENKTTSVS KALSDTTVVT NGSTELVVQE KVKRASVYFP LMQNCLEIKP GSSSKGELEV GSTVEVRVSY VENPGYFWCQ LTRNIQGLKT LMSDIQYYCK NTAAPHQRNT LACLAKRTVN RQWSRALISG IQSVEHVNVT FVDYGDREMV SVKNIYSISE EFLKVKAQAF RCSLYNLIQP VGQNPFVWDV KAIQAFNEFI DNAWQKNLEL KCTIFALASI NEELFNIVDL LTPFQSACHF LVEKRLARPV KLQKPLESSV QLHSYFYSTH DMKIGSEELV YITHIDDPWT FYCQLARNAN ILEQLSCSIT QLSKVLLNLK TSPLNPGTLC LAKYTDGNWY RGIVIEKEPK KVFFVDFGNI YVVTSDDLLP IPSDAYDVLL LPMQAVRCSL SDIPDHIPEE VVVWFQETIL DKSLKALVVA KDPDGTLIIE LYGDNIQISA SINKKLGLLS YKDRIRKKES EVLCSTTETL EEKNENMKLP CTEYLSKSVG YKLPNKEILE ESYKPQINSS YKELKLLQSL TKTNLVTQYQ DSVGNKNSQV FPLTTEKKEE ISAETPLKTA RVEATLSERK IGDSCDKDLP LKFCEFPQKT IMPGFKTTVY VSHINDLSDF YVQLIEDEAE ISHLSERLNS VKTRPEYYVG PPLQRGDMIC AVFPEDNLWY RAVIKEQQPN DLLSVQFIDY GNVSVVHTNK IGRLDLVNAI LPGLCIHCSL QGFEVPDNKN SKKMMHYFSQ RTSEAAIRCE FVKFQDRWEV ILADEHGIIA DDMISRYALS EKSQVELSTQ VIKSASSKSV NKSDIDTSVF LNWYNPEKKM IRAYATVIDG PEYFWCQFAD TEKLQCLEVE VQTAGEQVAD RRNCIPCPYI GDPCIVRYRE DGHYYRALIT NICEDYLVSV RLVDFGNIED CVDPKALWAI PSELLSVPMQ AFPCCLSGFN ISEGLCSQEG NDYFYEIITE DVLEITILEI RRDVCDIPLA IVDLKSKGKS INEKMEKYSK TGIKSALPYE NIDSEIKQTL GSYNLDVGLK KLSNKAVQNK IYMEQQTDEL AEITEKDVNI IGTKPSNFRD PKTDNICEGF ENPCKDKIDT EELEGELECH LVDKAEFDDK YLITGFNTLL PHANETKEIL ELNSLEVPLS PDDESKEFLE LESIELQNSL VVDEEKGELS PVPPNVPLSQ ECVTKGAMEL FTLQLPLSCE AEKQPELELP TAQLPLDDKM DPLSLGVSQK AQESMCTEDM RKSSCVESFD DQRRMSLHLH GADCDPKTQN EMNICEEEFV EYKNRDAISA LMPLFSEEES SDGSKHNNGL PDHISAQLQN TYTLKAFTVG SKCVVWSSLR NTWSKCEILE TAEEGTRVLN LSNGMEEIVN PENVWNGIPK LDKSPPEKRG LEVMEI