Leucine--tRNA ligase, cytoplasmic (EC 6.1.1.4) (Leucyl-tRNA synthetase) (LeuRS)
1_MAERK 6_ GTAKV 11_ DFLKK 16_ IEKEI 21_ QQKWD 26_ TERVF 31_ EVNAS 36_ NLEKQ 41_ TSKGK 46_ YFVTF 51_ PYPYM 56_ NGRLH 61_ LGHTF 66_ SLSKC 71_ EFAVG 76_ YQRLK 81_ GKCCL 86_ FPFGL 91_ HCTGM 96_ PIKAC 101_ ADKLK 106_ REIEL 111_ YGCPP 116_ DFPDE 121_ EEEEE 126_ ETSVK 131_ TEDII 136_ IKDKA 141_ KGKKS 146_ KAAAK 151_ AGSSK 156_ YQWGI 161_ MKSLG 166_ LSDEE 171_ IVKFS 176_ EAEHW 181_ LDYFP 186_ PLAIQ 191_ DLKRM 196_ GLKVD 201_ WRRSF 206_ ITTDV 211_ NPYYD 216_ SFVRW 221_ QFLTL 226_ RERNK 231_ IKFGK 236_ RYTIY 241_ SPKDG 246_ QPCMD 251_ HDRQT 256_ GEGVG 261_ PQEYT 266_ LLKLK 271_ VLEPY 276_ PSKLS 281_ GLKGK 286_ NIFLV 291_ AATLR 296_ PETMF 301_ GQTNC 306_ WVRPD 311_ MKYIG 316_ FETVN 321_ GDIFI 326_ CTQKA 331_ ARNMS 336_ YQGFT 341_ KDNGV 346_ VPVVK 351_ ELMGE 356_ EILGA 361_ SLSAP 366_ LTSYK 371_ VIYVL 376_ PMLTI 381_ KEDKG 386_ TGVVT 391_ SVPSD 396_ SPDDI 401_ AALRD 406_ LKKKQ 411_ ALRAK 416_ YGIRD 421_ DMVLP 426_ FEPVP 431_ VIEIP 436_ GFGNL 441_ SAVTI 446_ CDELK 451_ IQSQN 456_ DREKL 461_ AEAKE 466_ KIYLK 471_ GFYEG 476_ IMLVD 481_ GFKGQ 486_ KVQDV 491_ KKTIQ 496_ KKMID 501_ AGDAL 506_ IYMEP 511_ EKQVM 516_ SRSSD 521_ ECVVA 526_ LCDQW 531_ YLDYG 536_ EENWK 541_ KQTSQ 546_ CLKNL 551_ ETFCE 556_ ETRRN 561_ FEATL 566_ GWLQE 571_ HACSR 576_ TYGLG 581_ THLPW 586_ DEQWL 591_ IESLS 596_ DSTIY 601_ MAFYT 606_ VAHLL 611_ QGGNL 616_ HGQAE 621_ SPLGI 626_ RPQQM 631_ TKEVW 636_ DYVFF 641_ KEAPF 646_ PKTQI 651_ AKEKL 656_ DQLKQ 661_ EFEFW 666_ YPVDL 671_ RVSGK 676_ DLVPN 681_ HLSYY 686_ LYNHV 691_ AMWPE 696_ QSDKW 701_ PTAVR 706_ ANGHL 711_ LLNSE 716_ KMSKS 721_ TGNFL 726_ TLTQA 731_ IDKFS 736_ ADGMR 741_ LALAD 746_ AGDTV 751_ EDANF 756_ VEAMA 761_ DAGIL 766_ RLYTW 771_ VEWVK 776_ EMVAN 781_ WDSLR 786_ SGPAS 791_ TFNDR 796_ VFASE 801_ LNAGI 806_ IKTDQ 811_ NYEKM 816_ MFKEA 821_ LKTGF 826_ FEFQA 831_ AKDKY 836_ RELAV 841_ EGMHR 846_ ELVFR 851_ FIEVQ 856_ TLLLA 861_ PFCPH 866_ LCEHI 871_ WTLLG 876_ KPDSI 881_ MNASW 886_ PVAGP 891_ VNEVL 896_ IHSSQ 901_ YLMEV 906_ THDLR 911_ LRLKN 916_ YMMPA 921_ KGKKT 926_ DKQPL 931_ QKPSH 936_ CTIYV 941_ AKNYP 946_ PWQHT 951_ TLSVL 956_ RKHFE 961_ ANNGK 966_ LPDNK 971_ VIASE 976_ LGSMP 981_ ELKKY 986_ MKKVM 991_ PFVAM 996_ IKENL 1001_ EKMGP 1006_ RILDL 1011_ QLEFD 1016_ EKAVL 1021_ MENIV 1026_ YLTNS 1031_ LELEH 1036_ IEVKF 1041_ ASEAE 1046_ DKIRE 1051_ DCCPG 1056_ KPLNV 1061_ FRIEP 1066_ GVSVS 1071_ LVNPQ 1076_ PSNGH 1081_ FSTKI 1086_ EIRQG 1091_ DNCDS 1096_ IIRRL 1101_ MKMNR 1106_ GIKDL 1111_ SKVKL 1116_ MRFDD 1121_ PLLGP 1126_ RRVPV 1131_ LGKEY 1136_ TEKTP 1141_ ISEHA 1146_ VFNVD 1151_ LMSKK 1156_ IHLTE 1161_ NGIRV 1166_ DIGDT 1171_IIYLV
1: Aminoacyl-tRNA synthetase that catalyzes the specific attachment of leucine to its cognate tRNA (tRNA(Leu)) (PubMed:25051973, PubMed:32232361). It performs tRNA aminoacylation in a two-step reaction: Leu is initially activated by ATP to form a leucyl-adenylate (Leu-AMP) intermediate; then the leucyl moiety is transferred to the acceptor 3' end of the tRNA to yield leucyl-tRNA (PubMed:25051973). To improve the fidelity of catalytic reactions, it is also able to hydrolyze misactivated aminoacyl-adenylate intermediates (pre-transfer editing) and mischarged aminoacyl-tRNAs (post-transfer editing) (PubMed:25051973)