 |
PDBsum entry 4z06
|
|
|
|
References listed in PDB file
|
 |
|
Key reference
|
|
|
Title
|
|
The catalytic mechanism and unique low ph optimum of caldicellulosiruptor bescii family 3 pectate lyase.
|
|
|
Authors
|
|
M.Alahuhta,
L.E.Taylor,
R.Brunecky,
D.W.Sammond,
W.Michener,
M.W.Adams,
M.E.Himmel,
Y.J.Bomble,
V.Lunin.
|
|
|
Ref.
|
|
Acta Crystallogr D Biol Crystallogr, 2015,
71,
1946-1954.
[DOI no: ]
|
|
|
PubMed id
|
|
|
|
|
|
Abstract
|
|
|
The unique active site of the Caldicellulosiruptor bescii family 3 pectate lyase
(PL3) enzyme has been thoroughly characterized using a series of point
mutations, X-ray crystallography, pK(a) calculations and biochemical assays. The
X-ray structures of seven PL3 active-site mutants, five of them in complex with
intact trigalacturonic acid, were solved and characterized structurally,
biochemically and computationally. The results confirmed that Lys108 is the
catalytic base, but there is no clear candidate for the catalytic acid. However,
the reaction mechanism can also be explained by an antiperiplanar
trans-elimination reaction, in which Lys108 abstracts a proton from the C5 atom
without the help of simultaneous proton donation by an acidic residue. An
acidified water molecule completes the anti β-elimination reaction by
protonating the O4 atom of the substrate. Both the C5 hydrogen and C4 hydroxyl
groups of the substrate must be orientated in axial configurations, as for
galacturonic acid, for this to be possible. The wild-type C. bescii PL3 displays
a pH optimum that is lower than that of Bacillus subtilis PL1 according to
activity measurements, indicating that C. bescii PL3 has acquired a lower pH
optimum by utilizing lysine instead of arginine as the catalytic base, as well
as by lowering the pK(a) of the catalytic base in a unique active-site
environment.
|
|
|
|
|
|
|
