SPOC domain-containing protein 1
1_MSQAG 6_ DVEGP 11_ STGDP 16_ VLSPQ 21_ HNCEL 26_ LQNME 31_ GASSM 36_ PGLSP 41_ DGPGA 46_ SSGPG 51_ VRAGS 56_ RRKIP 61_ RKEAL 66_ RGGSS 71_ RAAGA 76_ AEVRP 81_ GVLEL 86_ LAVVQ 91_ SRGSM 96_ LAPGL 101_ HMQLP 106_ SVPTQ 111_ GRALT 116_ SKRLQ 121_ VSLCD 126_ ILDDS 131_ CPRKL 136_ CSRSA 141_ GLPER 146_ ALACR 151_ ERLAG 156_ VEEVS 161_ CLRPR 166_ EARDG 171_ GMSSP 176_ GCDRR 181_ SPTLS 186_ KEEPP 191_ GRPLT 196_ SSPDP 201_ VPVRV 206_ RKKWR 211_ RQGAH 216_ SECEE 221_ GAGDF 226_ LWLDQ 231_ SPRGD 236_ NLLSV 241_ GDPPQ 246_ VADLE 251_ SLGGP 256_ CRPPS 261_ PKDTG 266_ SGPGE 271_ PGGSG 276_ AGCAS 281_ GTEKF 286_ GYLPA 291_ TGDGP 296_ QPGSP 301_ CGPVG 306_ FPVPS 311_ GGESL 316_ SSAAQ 321_ APPQS 326_ AALCL 331_ GASAQ 336_ ASAEQ 341_ QEAVC 346_ VVRTG 351_ SDEGQ 356_ APAQD 361_ QEELE 366_ AKAQP 371_ ASRGR 376_ LEQGL 381_ AAPAD 386_ TCASS 391_ REPLG 396_ GLSSS 401_ LDTEA 406_ SRACS 411_ GPFME 416_ QRRSK 421_ GTKNL 426_ KKGPV 431_ PCAQD 436_ RGTDR 441_ SSDNS 446_ HQDRP 451_ EEPSP 456_ GGCPR 461_ LEEVK 466_ IPHGV 471_ KLVCY 476_ LGSGP 481_ VIQLL 486_ GAISH 491_ GQAGG 496_ QLPPK 501_ LEVLE 506_ DLMEV 511_ SSPSP 516_ AQRLR 521_ RKKRP 526_ MVQGP 531_ AGCQV 536_ FQPSP 541_ SGGTA 546_ GDPGG 551_ LSDPF 556_ YPPRS 561_ GSLAL 566_ GDPSS 571_ DPACS 576_ QSGPM 581_ EAEED 586_ SLPEQ 591_ PEDSA 596_ QLQQE 601_ KPSLY 606_ IGVRG 611_ TVVRS 616_ MQEVL 621_ WTRLR 626_ ELPDP 631_ VLSEE 636_ VVEGI 641_ AAGIE 646_ AALWD 651_ LTQGT 656_ NGRYK 661_ TKYRS 666_ LLFNL 671_ RDPRN 676_ LDLFL 681_ KVVHG 686_ DVTPY 691_ DLVRM 696_ SSMQL 701_ APQEL 706_ ARWRD 711_ QEEKR 716_ GLNII 721_ EQQQK 726_ EPCRL 731_ PASKM 736_ THKGE 741_ VEIQR 746_ DMDQT 751_ LTLED 756_ LVGPQ 761_ MFMDC 766_ SPQAL 771_ PIASE 776_ DTTGQ 781_ HDHHF 786_ LDPNC 791_ HICKD 796_ WEPSN 801_ ELLGS 806_ FEAAK 811_ SCGDN 816_ IFQKA 821_ LSQTP 826_ MPAPE 831_ MPKTR 836_ ELSPT 841_ EPQDR 846_ VPPSG 851_ LHVPA 856_ APTKA 861_ LPCLP 866_ PWEGV 871_ LDMFS 876_ IKRFR 881_ ARAQL 886_ VSGHS 891_ CRLVQ 896_ ALPTV 901_ IRSAG 906_ CIPSN 911_ IVWDL 916_ LASIC 921_ PAKAK 926_ DVCVV 931_ RLCPH 936_ GARDT 941_ QNCRL 946_ LYSYL 951_ NDRQR 956_ HGLAS 961_ VEHMG 966_ MVLLP 971_ LPAFQ 976_ PLPTR 981_ LRPLG 986_ GPGLW 991_ ALPVS 996_ PLLSP 1001_ GLEVT 1006_ HSSLL 1011_ LAVLL 1016_ PKEGL 1021_ PDTAG 1026_ SSPWL 1031_ GKVQK 1036_ MVSFN 1041_ SKVEK 1046_ RYYQP 1051_ DDRRP 1056_ NVPLK 1061_ GTPPP 1066_ GGAWQ 1071_ QSQGR 1076_ GSIAP 1081_ RGISA 1086_ WQRPP 1091_ RGRGR 1096_ LWPEP 1101_ ENWQH 1106_ PGRGQ 1111_ WPPEP 1116_ GLRQS 1121_ QHPYS 1126_ VAPAG 1131_ HGFGR 1136_ GQHFH 1141_ RDSCP 1146_ HQALL 1151_ RHLES 1156_ LATMS 1161_ HQLQA 1166_ LLCPQ 1171_ TKSSI 1176_ PRPLQ 1181_ RLSSA 1186_ LAAPE 1191_ PPGPA 1196_ RDSSL 1201_ GPTDE 1206_ AGSEC 1211_PFPRK
1: Protein adapter that acts as an essential executor of PIWIL4-piRNA pathway directed transposon DNA methylation and silencing in the male embryonic germ cells (PubMed:38359823). Recruited to young transposons, which are specifically marked with histone H3 trimethylated at both 'Lys-4' and 'Lys-9' (H3K4me3K9me3), via its association with SPIN1 chromatin reader, and associates with the de novo DNA methylation machinery and repressive chromatin remodeling complexes (By similarity). Following this, PIWIL4 engages with nascent transposable element transcript to direct piRNA-directed DNA methylation. Not required for piRNA biosynthesis (By similarity)