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Why study nitrilases

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Use of enzymes in the manufacture of fine chemicals is attractive because of ... acid, S-phenyllactic acid, (S)-ibuprofen, (S)-a-phenylglycine and (S)-naproxen. ... – PowerPoint PPT presentation

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Title: Why study nitrilases


1
Why study nitrilases?
  • The glu,cys,lys catalytic triad offers versatile
    chemistry
  • Use of enzymes in the manufacture of fine
    chemicals is attractive because of
    enantioselectivity.
  • Use of enzymes in environmental remediation is
    attractive because organisms may not survive the
    toxins.
  • Their metabolic role is not well characterised

2
Chemistry
Nitrilase - cyanide dihydratase - CynD - B.
pumilus, P.stutzeri
Cyanide hydratase - G. sorghi
Amidase G. pallidus
Carbamylase 1ERZ Agrobacterium sp.
3
The Superfamily
4
Relationship of solved structures to the
bacterial and plant nitrilases, CynD, and fungal
cyanide hydratrases
Plant nitrilases
Solved structures
CynD
Bacterial nitrilases
Fungal cyanide hydratases
5
Current uses
  • Environmental remediation of cyanide
  • Manufacture of acrylic acid
  • Manufacture of specific enantiomers R-mandelic
    acid, R-4-cyano-3-hydroxybutyric acid,
    S-phenyllactic acid, (S)-ibuprofen,
    (S)-a-phenylglycine and (S)-naproxen.

6
Oligomerization
  • All known nitrilase homologues are at least
    dimers
  • There are four crystal structures of homologues
    two are dimers and two are tetramers with 222
    symmetry. Only one has known enzyme activity a
    carbamylase
  • Our published work has shown three forms built
    around helical symmetry two are terminating
    spirals with 14 and 18 subunits respectively. The
    18mer changes to an open helix at pH5.4
  • Most determinations of oligomeric state are based
    on gel-filtration and are unreliable but the
    numbers range from 2-18 subunits for all known
    nitrilases

7
Link between activity and oligomerization
  • Nagasawa et al and two previous authors have
    shown that dimers are inactive until they
    oligomerize (in Rhodococci )
  • We have shown that in case of B. pumilus an
    activity increase accompanies the pH dependent
    increase in size
  • We have shown that destructive mutation of
    residues in the interfaces which associate to
    form helices abolishes activity
  • Mueller et al 2006 archaeal nitrilase active as
    a dimer

8
What is it useful to know?(biotechnology
perspective)
  • The configuration of the active site
  • How is specificity / activity controlled
  • The oligomeric configuration
  • How is the oligomeric configuration controlled
  • How the oligomeric configuration affects the
    active site configuration
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