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PDBsum entry 3std
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Contents |
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* Residue conservation analysis
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References listed in PDB file
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Key reference
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Title
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Structure-Based design of potent inhibitors of scytalone dehydratase: displacement of a water molecule from the active site.
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Authors
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J.M.Chen,
S.L.Xu,
Z.Wawrzak,
G.S.Basarab,
D.B.Jordan.
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Ref.
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Biochemistry, 1998,
37,
17735-17744.
[DOI no: ]
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PubMed id
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Abstract
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Scytalone dehydratase (SD) is a molecular target of inhibitor design efforts
aimed at protecting rice plants from the fungal disease caused by Magnaporthe
grisea. As determined from X-ray diffraction data of an SD-inhibitor complex
[Lundqvist et al. (1994) Structure (London) 2, 937-944], there is an extended
hydrogen-bonding network between protein side chains, the inhibitor, and two
bound water molecules. From models of SD complexed to quinazoline and
benztriazine inhibitors, a new class of potent SD inhibitors involving the
displacement of an active-site water molecule were designed. We were able to
increase inhibitory potency by synthesizing compounds with a nitrile
functionality displayed into the space occupied by one of the crystallographic
water molecules. Sixteen inhibitors are compared. The net conversion of potent
quinazoline and benztriazine inhibitors to cyanoquinolines and cyanocinnolines
increased binding potency 2-20-fold. Replacement of the nitrile with a hydrogen
atom lowered binding affinity 100-30,000-fold. X-ray crystallographic data at
1.65 A resolution on a SD-inhibitor complex confirmed that the nitrile
functionality displaced the water molecule as intended and that a favorable
orientation was created with tyrosines 30 and 50 which had been part of the
hydrogen-bonding network with the water molecule. Additional data on inhibitors
presented herein reveals the importance of two hydrogen-bonding networks toward
inhibitory potency: one between Asn131 and an appropriately positioned inhibitor
heteroatom and one between a bound water molecule and a second inhibitor
heteroatom.
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