PDB entry 1e6q

View 1e6q on RCSB PDB site
Description: MYROSINASE FROM SINAPIS ALBA with the bound transition state analogue gluco-tetrazole
Class: hydrolase
Keywords: hydrolase, family 1 glycosyl hydrolase, glucosinolate, tim barrel, d-glucono-1, 5-lactone, transition state
Deposited on 2000-08-22, released 2001-01-05
The last revision prior to the SCOPe 2.08 freeze date was dated 2020-07-29, with a file datestamp of 2020-06-29.
Experiment type: XRAY
Resolution: 1.35 Å
R-factor: N/A
AEROSPACI score: 0.64 (click here for full SPACI score report)

Chains and heterogens:

  • Chain 'M':
    Compound: myrosinase ma1
    Species: SINAPIS ALBA [TaxId:3728]
    Database cross-references and differences (RAF-indexed): Domains in SCOPe 2.08: d1e6qm_
  • Heterogens: NAG, NTZ, GOL, SO4, ZN, HOH

PDB Chain Sequences:

  • Chain 'M':
    Sequence, based on SEQRES records: (download)
    >1e6qM (M:)
    deeitcqenlpftcgntdalnsssfssdfifgvassayqiegtigrglniwdgfthrypn
    ksgpdhgngdttcdsfsywqkdidvldelnatgyrfsiawsriiprgkrsrgvnekgidy
    yhglisglikkgitpfvtlfhwdlpqtlqdeyegfldpqiiddfkdyadlcfeefgdsvk
    ywltinqlysvptrgygsaldapgrcsptvdpscyagnsstepyivahhqllahakvvdl
    yrknythqggkigptmitrwflpyndtdrhsiaatermkefflgwfmgpltngtypqimi
    dtvgerlpsfspeesnlvkgsydflglnyyftqyaqpspnpvnstnhtammdagakltyi
    nasghyigplfekdkadstdniyyypkgiysvmdyfknkyynpliyvtengistpgdenr
    nqsmldytridylcshlcflnkvikekdvnvkgylawalgdnyefnkgftvrfglsyidw
    nnvtdrdlkksgqwyqsfisp
    

    Sequence, based on observed residues (ATOM records): (download)
    >1e6qM (M:)
    eitcqenlpftcgntdalnsssfssdfifgvassayqiegtigrglniwdgfthrypnks
    gpdhgngdttcdsfsywqkdidvldelnatgyrfsiawsriiprgkrsrgvnekgidyyh
    glisglikkgitpfvtlfhwdlpqtlqdeyegfldpqiiddfkdyadlcfeefgdsvkyw
    ltinqlysvptrgygsaldapgrcsptvdpscyagnsstepyivahhqllahakvvdlyr
    knythqggkigptmitrwflpyndtdrhsiaatermkefflgwfmgpltngtypqimidt
    vgerlpsfspeesnlvkgsydflglnyyftqyaqpspnpvnstnhtammdagakltyina
    sghyigplfekdkadstdniyyypkgiysvmdyfknkyynpliyvtengistpgdenrnq
    smldytridylcshlcflnkvikekdvnvkgylawalgdnyefnkgftvrfglsyidwnn
    vtdrdlkksgqwyqsfisp