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The Open Protein Structure Annotation Network
PDB Keyword
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3fzy

    Table of contents
    1. 1. Protein Summary
    2. 2. Ligand Summary

    Title Structural and molecular mechanism for autoprocessing of MARTX toxin of Vibrio cholerae at multiple sites. J.Biol.Chem. 284 26557-26568 2009
    Site CSGID
    PDB Id 3fzy Target Id IDP00167
    Molecular Characteristics
    Source Vibrio cholerae o1 biovar el tor str. n16961
    Alias Ids TPS26732,243277, 4455065 Molecular Weight 483677.18 Da.
    Residues 4545 Isoelectric Point 4.97
    Sequence mgkpfwrsveyfftgnysaddgnnnivaigfggqihayggddhvtvgsigatvytgsgndtvvggsayl kvedstghlivkgaagyadinksgdgnvsfagaaggvsidhlgnhgdvsyggaaayngitrkglsgnvt fagaggynalwhetnqgnlsftgagagnkldrtwsnryqgshgdvtfdgagaansissrvetgnitfrg agadnhlvrkgkvgditlqgagasnrierthqaedvytqtrgnirfegvggynslysdvahgdihfsgg gayntiirkgsgndfakegmtnakadeivltkavmsgswigqdhhvtavksasepntylfafadstytk inkvqlrndpqtgelkyystawykevnhlsnlanqdisdnggftavningaytlsdlkvehqqsvtvha vekslteyewvtyangavidakevslsdakmgghaiyadgtkvdvkavksnrqpntyiyakvlgpytki vvvelandpetgalkyqarswykegdhtanianqdissatgynpmgkggyslsdlhysvnavrstsetv adieeytdqtlfkpandsgessgdvrfngagggnviksnvtrgnvhfngggianvilhssqfgntefng ggaanvivksgeegdltfrgaglanvlvhqseqgkmdvyaggavnvlvrlgdgqylahllaygnisvqk gsgdsrvvmlggynthtqigsgnglwlaaggfnvmtqvgkgdvaavlagganvltkmgegeltsgmlgg anvithisnddqlsnttavalgganiltkkgkgntlavmggganvlthvgdgtttgvmvgganiltkvg ngdttgillgvgnvlthvgdgqtlgvmgaagniftkvgdgtsiavmigagnifthvgegnawalmgglg nvftkvgngdalalmvaeanvfthigdgmsvalmlakgnvatkvgngttlaamvgnvnifthighgstf aamigqanimtkvgndltaalmvgkanimthvgdgtslglfagevnvmtkvgngttlaamfgkanimth vgdgltgvlalgeanivtklgddfmgvvaaakanvvthvgdattaavlagkgniltkvgegttvgllis dvgnvmthvgdgttigiakgkanlitkvgdglgvnvtwgqanvftqvgdgdrynfakgeanlitkvgdg qevsvvqgeaniithvgngddytgawgkanvitkvghgqnvvlakgeanivtqvgdgdsfnalwskgni vtkvgdgmqvtaakgqanitttvgnglnvtaaygdanintkvgdgvsvnvawgkynintkvgdglnvav mkgkananihvgdglninasyaqnnvaikvgngdfyslavassntssnklsalfdnikqtvlgvggsqa inylvqgdeasssgthkgrgaiatpeitkldgfqmdaikevssdlgdsltgsvtkvdtpdlnkmqhaln vddssvqapnlivngdfelgehgwqsthgveasyagsvygvegeghgarvteldtytntslyqdlanla qgeviavsfdfakraglsnnegievlwngevvfsssxdesawqqknlkltaqagsnriefkgtghndgl gyildnvvatsessqqanairehatqnpaaqnalsdkeraeadrqrleqekqkqldavagsqsqlestd qqalenngqaqrdavkeeseavtaelaklaqgldvldgqathtgesgdqwrndfagglldgvqsqldda kqlandkiaaakqtlsdnnskvkesvakseagvaqgeqnragveqdiadaqadaekrkadalakgkdaq qaesdahhavnnaqsrgdrdvqlaenkanqaqadaqgakqnegdrpdrqgvtgsglsgnahsvegaget dshvntdsqtnadgrfseglteqeqealegatnavnrlqinagiraknsvssmtsmfsetnsksivvpt kvspeperqevtrrdvrisgvnleslsavqgsqptgqlasksvpgfkshfastsigienelsglvvvlp knsaqtfgyvhdsqgnplfmltkdmnqggysnpvgindiqgvnnwqthtielvtypseisdtaavesrk eamlwlakeftdhinqsnhqslphlvsddgrftlvisnskhliaagngtsidaqgktigmtpsgqqatm aisakefgtssspevrllesapwyqaglrdeflanaknttlddpataqnvyayltsvysktadlakeyg iyindwdpasegfspnaqgltdpkvknawsilprtkpvrmlellsaedsryvrqqiaeklkgtysesla knvfeyfqyggevaghginnattgsvqqpepailfefrsvpsalsdfvpktastvkvdvkaldhfdsas rkaiitevnalvsgsedfdawyqeyraskgqppvknpkssasanhkaewlmtqhaeqwakitapytdnh etltstklasndkeelhalgetsnlennkqqenvasiintmlndmlpfyalrternllvqegdegfevr awpgtedksktiiledpedaaqhkaierfilanfdnfeqmpdelflvdnkvishhegrthvlaqkvdga wqynatvelmsvtelldaanvtgkirgesyqqvidaltdyhasitehadyepesvekllnlrkkiegyv lghpdsgrveamnsllnqvntrldevsllsvaeqtiqaqnsfsrlydqleaanlkeskhlyldqngdfv tkgkgnlanidllgsreavlekvkltvsneygqtvadtifaglsakdlakdgkgvdiaglnkvhqaieq hlspvsatlyiwkpsdhsalghaalqigqgrtqlegqaaadfnqqnyvswwplgskssnisnilnvatk dqpdlklrwsdfsqpahqndtlehdvaseendgfglhdgdiklkrfieklnaakgidasfkeasegyas vllgnpdmlettsipahvfqpfveqwndtsydmmdvahrfaqelrlqaqrsddpellekrignvirqfa eraleeietfkasqadqgrvfrinlegldvaamqaewhrlsndpdaryqlltkncsstvakvlkaggad klightwlpkfgvwtptelfnfgqalqeaqleiaakkqshqvtdvldalsgnekpkenvaiendgtppr dkeslspltrflnnelygdkearrkigeitqtlldhavekgesqkitlqgeagrltgyyhqgtapsege tsspsgkvvlflhgsgssaeeqasairnhyqkqgidmlavnlrgygesdggpsekglyqdartmfnylv ndkgidpsniiihgysmggpiaadlaryaaqngqavsgllldrpmpsmtkaitahevanpagivgaiak avngqfsveknleglpketsillltdneglgnegeklrtkltasgynvtgeqtfygheasnrlmsqyad qivsglsssasvdedldqqgldttstkdqgisnkndhlqvvdskealadgkilhnqnvnswgpitvtpt tdggetrfdgqiivqmendpvvakaaanlagkhaessvvvqldsdgnyrvvygdpskldgklrwqlvgh grdhsetnntrlsgysadelavklakfqqsfnqaeninnkpdhisivgcslvsddkqkgfghqfinamd anglrvdvsvrsselavdeagrkhtkdangdwvqkaennkvslswdaqgevvakderirngiaegdidl srigvnnvdepargaigdnndvfdapekrkpetevianssssnqfsysgniqvnvgegeftavnwgtsn vgikvgtggfkslafgdnnvmvhigdgeskhsvdiggyqalegaqmflgnrnvsfnfghsndlilmmdk siptpplvnpfdgaarisgvlqgiatsgegedwlaaqeqqwtlsgakkfvkdmsgldqsssvdyttlve ldsqnerdsrglkhdaeatlnkqynqwlsgngnsgtsqlsradklrqaneklafnfavggqgadiqvtt gnwnfmfgdniqsildtnlgslfglmtqqftatgqakttftytpqdlprqlknkllgqlagvgaettla difgvdytasgqivsrngqavdgvailkemlevigefsgdqlqafvdpaklldslkagidmgadgiksf aethglkekapeeekdnssvsvnganvnsaqgatvadgntetaetqdrafgfnslnlpnlfatifsqdk qkemkslvenlkqnltadllnmkektfdflrnsghlqgdgdinislgnynfnwggdgkdlgaylgdnnn fwggrgddvfyatgksniftggegndmgvlmgrenmmfggdgndtavvagrinhvflgagddqsfvfge ggeidtgsgrdyvvtsgnfnrvdtgddqdysvtignnnqvelgagndfanifgnynrinagagndvvkl mgyhavlnggdgddhliataiskfsqfnggegrdlmvlggyqntfkggtdvdsfvvsgdvidnlvedir sednivfngidwqklwfersgydxklsilrdpsndsdqskfehigsvtfsdyfngnraqvvigmsekdlsgereytmlsdsaidalvqamsgfepqagdngfidslesksqaaismawsdvvhkkglmv
      BLAST   FFAS

    Structure Determination
    Method XRAY Chains 2
    Resolution (Å) 1.95 Rfree 0.21616
    Matthews' coefficent 2.06 Rfactor 0.16893
    Waters 321 Solvent Content 40.38

    Ligand Information
    Ligands IHP (INOSITOL) x 2;UNX-UNX (UNKNOWN) x 2;UNX (UNKNOWN) x 8
    Metals CL (CHLORIDE) x 1

    Jmol

     
    Google Scholar output for 3fzy

    Protein Summary

     

    Ligand Summary

    Reviews

    References

     

    No references found.

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