Fidgetin
1_MISST 6_ SVYGL 11_ KMQWT 16_ PEHAQ 21_ WPEQH 26_ FDITS 31_ TTRSP 36_ AHKVE 41_ AYRGH 46_ LQRTY 51_ QYAWA 56_ NDDIS 61_ ALTAS 66_ NLLKK 71_ YAEKY 76_ SGILE 81_ GPVDR 86_ PVLSN 91_ YSDTP 96_ SGLVN 101_ GRKNE 106_ SEPWQ 111_ PSLNS 116_ EAVYP 121_ MNCVP 126_ DVITA 131_ SKAGV 136_ SSALP 141_ PADVS 146_ ASIGS 151_ SPGVA 156_ SNLTE 161_ PSYSS 166_ STCGS 171_ HTVPS 176_ LHAGL 181_ PSQEY 186_ APGYN 191_ GSYLH 196_ STYSS 201_ QPAPA 206_ LPSPH 211_ PSPLH 216_ SSGLL 221_ QPPPP 226_ PPPPP 231_ ALVPG 236_ YNGTS 241_ NLSSY 246_ SYPSA 251_ SYPPQ 256_ TAVGS 261_ GYSPG 266_ GAPPP 271_ PSAYL 276_ PSGIP 281_ APTPL 286_ PPTTV 291_ PGYTY 296_ QGHGL 301_ TPIAP 306_ SALTN 311_ SSASS 316_ LKRKA 321_ FYMAG 326_ QGDMD 331_ SSYGN 336_ YSYGQ 341_ QRSTQ 346_ SPMYR 351_ MPDNS 356_ ISNTN 361_ RGNGF 366_ DRSAE 371_ TSSLA 376_ FKPTK 381_ QLMSS 386_ EQQRK 391_ FSSQS 396_ SRALT 401_ PPSYS 406_ TAKNS 411_ LGSRS 416_ SESFG 421_ KYTSP 426_ VMSEH 431_ GDEHR 436_ QLLSH 441_ PMQGP 446_ GLRAA 451_ TSSNH 456_ SVDEQ 461_ LKNTD 466_ THLID 471_ LVTNE 476_ IITQG 481_ PPVDW 486_ NDIAG 491_ LDLVK 496_ AVIKE 501_ EVLWP 506_ VLRSD 511_ AFSGL 516_ TALPR 521_ SILLF 526_ GPRGT 531_ GKTLL 536_ GRCIA 541_ SQLGA 546_ TFFKI 551_ AGSGL 556_ VAKWL 561_ GEAEK 566_ IIHAS 571_ FLVAR 576_ CRQPS 581_ VIFVS 586_ DIDML 591_ LSSQV 596_ NEEHS 601_ PVSRM 606_ RTEFL 611_ MQLDT 616_ VLTSA 621_ EDQIV 626_ VICAT 631_ SKPEE 636_ IDESL 641_ RRYFM 646_ KRLLI 651_ PLPDS 656_ TARHQ 661_ IIVQL 666_ LSQHN 671_ YCLND 676_ KEFAL 681_ LVQRT 686_ EGFSG 691_ LDVAH 696_ LCQEA 701_ VVGPL 706_ HAMPA 711_ TDLSA 716_ IMPSQ 721_ LRPVT 726_ YQDFE 731_ NAFCK 736_ IQPSI 741_ SQKEL 746_ DMYVE 751_WNKMF
1: ATP-dependent microtubule severing protein. Severs microtubules along their length and depolymerizes their ends, primarily the minus-end, that may lead to the suppression of microtubule growth from and attachment to centrosomes. Microtubule severing may promote rapid reorganization of cellular microtubule arrays and the release of microtubules from the centrosome following nucleation. Microtubule release from the mitotic spindle poles may allow depolymerization of the microtubule end proximal to the spindle pole, leading to poleward microtubule flux and poleward motion of chromosome