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PDBsum entry 6bvh
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Hydrolase/inhibitor
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PDB id
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6bvh
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References listed in PDB file
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Key reference
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Title
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Potent, Multi-Target serine protease inhibition achieved by a simplified β-Sheet motif.
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Authors
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X.Chen,
B.T.Riley,
S.J.De veer,
D.E.Hoke,
J.Van haeften,
D.Leahy,
J.E.Swedberg,
M.Brattsand,
P.J.Hartfield,
A.M.Buckle,
J.M.Harris.
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Ref.
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PLoS One, 2019,
14,
e0210842.
[DOI no: ]
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PubMed id
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Abstract
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Engagement of an extended β-sheet is a common substrate/inhibitor interaction
at the active site of serine proteases and is an important feature of Laskowski
mechanism inhibitors that present a substrate-like loop to a target protease.
This loop is cleaved but subsequently relegated forming a stable
inhibitor/protease complex. Laskowski inhibitors are ubiquitous in nature and
are used extensively in serine protease inhibitor design. However, most studies
concentrate on introducing new sidechain interactions rather than the direct
contributions of the substrate-like β-sheet to enzyme inhibition. Here we
report the crystal structure of an simplified β-sheet inhibitory motif within
the Sunflower Trypsin Inhibitor (SFTI) in complex with trypsin. We show that the
intramolecular hydrogen bond network of this SFTI variant (SFTI-TCTR) engages
the inhibitor sidechains that would normally interact with a target protease,
giving mainchain interactions a more prominent role in complex formation.
Despite having reduced sidechain interactions, this SFTI variant is remarkably
potent and inhibits a diverse range of serine proteases. Crystal structural
analysis and molecular modelling of SFTI-TCTR complexes again indicates an
interface dominated by β-sheet interactions, highlighting the importance of
this motif and the adaptability of SFTI as a scaffold for inhibitor design.
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