Tudor domain-containing protein 6 (Antigen NY-CO-45) (Cancer/testis antigen 41.2) (CT41.2)
1_MCSTP 6_ GMPAP 11_ GASLA 16_ LRVSF 21_ VDVHP 26_ DVIPV 31_ QLWGL 36_ VGERR 41_ GEYLR 46_ LSREI 51_ QEAAA 56_ TRGQW 61_ ALGSA 66_ SASPG 71_ ELCLV 76_ QVGLL 81_ WHRCR 86_ VVSRQ 91_ AQESR 96_ VFLLD 101_ EGRTI 106_ TAGAG 111_ SLAPG 116_ RREFF 121_ NLPSE 126_ VLGCV 131_ LAGLV 136_ PAGCG 141_ AGSGE 146_ PPQHW 151_ PADAV 156_ DFLSN 161_ LQGKE 166_ VHGCV 171_ LDVLL 176_ LHRLV 181_ LLEVP 186_ DVFQQ 191_ MRELG 196_ LARRV 201_ PDSLF 206_ RSLLE 211_ RYLTA 216_ ATASV 221_ GSGVP 226_ VLSRV 231_ PLKQK 236_ QPGLD 241_ YFYPQ 246_ LQLGV 251_ TEAVV 256_ ITQVC 261_ HPHRI 266_ HCQLR 271_ SVSQE 276_ IHRLS 281_ ESMAQ 286_ VYRGS 291_ TGTGD 296_ ENSTS 301_ ATWEE 306_ REESP 311_ DKPGS 316_ PCASC 321_ GLDGH 326_ WYRAL 331_ LLETF 336_ RPQRC 341_ AQVLH 346_ VDYGR 351_ KELVS 356_ CSSLR 361_ YLLPE 366_ YFRMP 371_ VVTYP 376_ CALYG 381_ LWDGG 386_ RGWSR 391_ SQVGD 396_ LKTLI 401_ LGKAV 406_ NAKIE 411_ FYCSF 416_ EHVYY 421_ VSLYG 426_ EDGIN 431_ LNRVF 436_ GVQSC 441_ CLADR 446_ VLQSQ 451_ ATEEE 456_ EPETS 461_ QSQSP 466_ AEEVD 471_ EEISL 476_ PALRS 481_ IRLKM 486_ NAFYD 491_ AQVEF 496_ VKNPS 501_ EFWIR 506_ LRKHN 511_ VTFSK 516_ LMRRM 521_ CGFYS 526_ SASKL 531_ DGVVL 536_ KPEPD 541_ DLCCV 546_ KWKEN 551_ GYYRA 556_ IVTKL 561_ DDKSV 566_ DVFLV 571_ DRGNS 576_ ENVDW 581_ YDVRM 586_ LLPQF 591_ RQLPI 596_ LAVKC 601_ TLADI 606_ WPLGK 611_ TWSQE 616_ AVSFF 621_ KKTVL 626_ HKELV 631_ IHILD 636_ KQDHQ 641_ YVIEI 646_ LDESR 651_ TGEEN 656_ ISKVI 661_ AQAGY 666_ AKYQE 671_ FETKE 676_ NILVN 681_ AHSPG 686_ HVSNH 691_ FTTES 696_ NKIPF 701_ AKTGE 706_ GEQKA 711_ KRENK 716_ TTSVS 721_ KALSD 726_ TTVVT 731_ NGSTE 736_ LVVQE 741_ KVKRA 746_ SVYFP 751_ LMQNC 756_ LEIKP 761_ GSSSK 766_ GELEV 771_ GSTVE 776_ VRVSY 781_ VENPG 786_ YFWCQ 791_ LTRNI 796_ QGLKT 801_ LMSDI 806_ QYYCK 811_ NTAAP 816_ HQRNT 821_ LACLA 826_ KRTVN 831_ RQWSR 836_ ALISG 841_ IQSVE 846_ HVNVT 851_ FVDYG 856_ DREMV 861_ SVKNI 866_ YSISE 871_ EFLKV 876_ KAQAF 881_ RCSLY 886_ NLIQP 891_ VGQNP 896_ FVWDV 901_ KAIQA 906_ FNEFI 911_ DNAWQ 916_ KNLEL 921_ KCTIF 926_ ALASI 931_ NEELF 936_ NIVDL 941_ LTPFQ 946_ SACHF 951_ LVEKR 956_ LARPV 961_ KLQKP 966_ LESSV 971_ QLHSY 976_ FYSTH 981_ DMKIG 986_ SEELV 991_ YITHI 996_ DDPWT 1001_ FYCQL 1006_ ARNAN 1011_ ILEQL 1016_ SCSIT 1021_ QLSKV 1026_ LLNLK 1031_ TSPLN 1036_ PGTLC 1041_ LAKYT 1046_ DGNWY 1051_ RGIVI 1056_ EKEPK 1061_ KVFFV 1066_ DFGNI 1071_ YVVTS 1076_ DDLLP 1081_ IPSDA 1086_ YDVLL 1091_ LPMQA 1096_ VRCSL 1101_ SDIPD 1106_ HIPEE 1111_ VVVWF 1116_ QETIL 1121_ DKSLK 1126_ ALVVA 1131_ KDPDG 1136_ TLIIE 1141_ LYGDN 1146_ IQISA 1151_ SINKK 1156_ LGLLS 1161_ YKDRI 1166_ RKKES 1171_ EVLCS 1176_ TTETL 1181_ EEKNE 1186_ NMKLP 1191_ CTEYL 1196_ SKSVG 1201_ YKLPN 1206_ KEILE 1211_ ESYKP 1216_ QINSS 1221_ YKELK 1226_ LLQSL 1231_ TKTNL 1236_ VTQYQ 1241_ DSVGN 1246_ KNSQV 1251_ FPLTT 1256_ EKKEE 1261_ ISAET 1266_ PLKTA 1271_ RVEAT 1276_ LSERK 1281_ IGDSC 1286_ DKDLP 1291_ LKFCE 1296_ FPQKT 1301_ IMPGF 1306_ KTTVY 1311_ VSHIN 1316_ DLSDF 1321_ YVQLI 1326_ EDEAE 1331_ ISHLS 1336_ ERLNS 1341_ VKTRP 1346_ EYYVG 1351_ PPLQR 1356_ GDMIC 1361_ AVFPE 1366_ DNLWY 1371_ RAVIK 1376_ EQQPN 1381_ DLLSV 1386_ QFIDY 1391_ GNVSV 1396_ VHTNK 1401_ IGRLD 1406_ LVNAI 1411_ LPGLC 1416_ IHCSL 1421_ QGFEV 1426_ PDNKN 1431_ SKKMM 1436_ HYFSQ 1441_ RTSEA 1446_ AIRCE 1451_ FVKFQ 1456_ DRWEV 1461_ ILADE 1466_ HGIIA 1471_ DDMIS 1476_ RYALS 1481_ EKSQV 1486_ ELSTQ 1491_ VIKSA 1496_ SSKSV 1501_ NKSDI 1506_ DTSVF 1511_ LNWYN 1516_ PEKKM 1521_ IRAYA 1526_ TVIDG 1531_ PEYFW 1536_ CQFAD 1541_ TEKLQ 1546_ CLEVE 1551_ VQTAG 1556_ EQVAD 1561_ RRNCI 1566_ PCPYI 1571_ GDPCI 1576_ VRYRE 1581_ DGHYY 1586_ RALIT 1591_ NICED 1596_ YLVSV 1601_ RLVDF 1606_ GNIED 1611_ CVDPK 1616_ ALWAI 1621_ PSELL 1626_ SVPMQ 1631_ AFPCC 1636_ LSGFN 1641_ ISEGL 1646_ CSQEG 1651_ NDYFY 1656_ EIITE 1661_ DVLEI 1666_ TILEI 1671_ RRDVC 1676_ DIPLA 1681_ IVDLK 1686_ SKGKS 1691_ INEKM 1696_ EKYSK 1701_ TGIKS 1706_ ALPYE 1711_ NIDSE 1716_ IKQTL 1721_ GSYNL 1726_ DVGLK 1731_ KLSNK 1736_ AVQNK 1741_ IYMEQ 1746_ QTDEL 1751_ AEITE 1756_ KDVNI 1761_ IGTKP 1766_ SNFRD 1771_ PKTDN 1776_ ICEGF 1781_ ENPCK 1786_ DKIDT 1791_ EELEG 1796_ ELECH 1801_ LVDKA 1806_ EFDDK 1811_ YLITG 1816_ FNTLL 1821_ PHANE 1826_ TKEIL 1831_ ELNSL 1836_ EVPLS 1841_ PDDES 1846_ KEFLE 1851_ LESIE 1856_ LQNSL 1861_ VVDEE 1866_ KGELS 1871_ PVPPN 1876_ VPLSQ 1881_ ECVTK 1886_ GAMEL 1891_ FTLQL 1896_ PLSCE 1901_ AEKQP 1906_ ELELP 1911_ TAQLP 1916_ LDDKM 1921_ DPLSL 1926_ GVSQK 1931_ AQESM 1936_ CTEDM 1941_ RKSSC 1946_ VESFD 1951_ DQRRM 1956_ SLHLH 1961_ GADCD 1966_ PKTQN 1971_ EMNIC 1976_ EEEFV 1981_ EYKNR 1986_ DAISA 1991_ LMPLF 1996_ SEEES 2001_ SDGSK 2006_ HNNGL 2011_ PDHIS 2016_ AQLQN 2021_ TYTLK 2026_ AFTVG 2031_ SKCVV 2036_ WSSLR 2041_ NTWSK 2046_ CEILE 2051_ TAEEG 2056_ TRVLN 2061_ LSNGM 2066_ EEIVN 2071_ PENVW 2076_ NGIPK 2081_ LDKSP 2086_ PEKRG 2091_LEVME
1: Tudor domain-containing protein involved in germ cell development, more specifically the formation of chromatoid body (during spermiogenesis), Balbiani body (during oogenesis), germ plasm (upon fertilization), and for proper miRNA expression and spliceosome maturation (By similarity). Essential for RNA-dependent helicase UPF1 localization to chromatoid body, for UPF1-UPF2 and UPF1-DDX4 interactions which are required for mRNA degradation, using the extended 3' UTR-triggered nonsense-mediated mRNA decay (NMD) pathway. Involved in spliceosome maturation and mRNA splicing in prophase I spermatocytes through interaction with arginine N-methyltransferase PRMT5 and symmetrically arginine dimethylated SNRPB (small nuclear ribonucleoprotein-associated protein) (By similarity)