FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2011275295> ?p ?o ?g. }

• W2011275295 endingPage "164" @default.
• W2011275295 startingPage "145" @default.
• W2011275295 abstract "A series of site-directed mutagenesis experiments have been performed in our laboratory, bearing on the Zn2+ metalloprotease from Bacillus stearothermophillus, a protein very closely related to thermolysin (TLN), and their consequences on the binding of inhibitors belonging to the thiolate, carboxylate, hydroxamate, and phosphoramidate classes of compounds [A. Beaumont et al. (1995), J. Biol. Chem., Vol. 270, pp. 16803–16808]. An unexpected result related to the mutation of protonated His231, which resides at the entrance of the enzymatic cavity, into an Ala residue, shown to leave the binding affinities of thiolate inhibitors unaffected, but to abolish almost completely those of the phosphoramidate inhibitors. In order to account for such contrasting differential responses, we have undertaken a theoretical study of the comparative binding affinities of a representative thiol inhibitor, thiorphan (I) and a phosphoramidate (II), to a model of the enzymatic cavity of both the native and the mutated protein, encompassing up to 27 residues. The computations of inter- (ΔE) and intramolecular interactions were done with the sum of interactions between fragments ab initio computed procedure [N. Gresh et al. (1984), Theoret. Chim. Acta. Vol. 66, pp. 1–20; (1985), Theoret. Chim. Acta, Vol. 67, pp. 11–32; (1986), Int. J. Quant. Chem., Vol. 29, pp. 101–118; (1994), in Modelling the Hydrogen Bond, American Chemical Society Symposia, Vol. 569, D. A. Smith, Ed., American Chemical Society, pp. 82–112; N. Gresh (1995), J. Comput. Chem., Vol. 16, 856–882]. The energy balances for the His231 → Ala mutation incorporate a solvation energy contribution, computed using the Langlet et al. Continuum procedure [J. Langlet et al. (1988), J. Phys. Chem., Vol. 92, pp. 1617–1631], and this term was shown to play a decisive role in the comparative energy balances of the thiolate vs phosphoramidate inhibitors. Whereas the resolvation energy was able to compensate for the loss of ΔE induced by the H231 A mutation for the complex of I, thus accounting for its insensitivity to the mutation, such a compensation did not occur in the case of II, leading in its complexes to an overall loss of about 7 kcal/mole in the mutated cavity with respect to the native one. These results emphasized the critical role played by solvation in enzyme-inhibitor recognition processses. © 1997 John Wiley & Sons, Inc." @default.
• W2011275295 created "2016-06-24" @default.
• W2011275295 creator A5011338417 @default.
• W2011275295 creator A5079049821 @default.
• W2011275295 date "1997-02-01" @default.
• W2011275295 modified "2023-09-25" @default.
• W2011275295 title "Thermolysin-inhibitor binding: Effect of the His231 → Ala mutation on the relative affinities of thiolate versus phosphoramidate inhibitors—a model theoretical investigation incorporating acontinuum reaction field hydration model" @default.
• W2011275295 cites W1506994069 @default.
• W2011275295 cites W1545280185 @default.
• W2011275295 cites W176210329 @default.
• W2011275295 cites W1909498262 @default.
• W2011275295 cites W1970148666 @default.
• W2011275295 cites W1976289739 @default.
• W2011275295 cites W1978072021 @default.
• W2011275295 cites W1988811740 @default.
• W2011275295 cites W1988860642 @default.
• W2011275295 cites W1989272189 @default.
• W2011275295 cites W1994083018 @default.
• W2011275295 cites W1995518203 @default.
• W2011275295 cites W1997388207 @default.
• W2011275295 cites W2001455970 @default.
• W2011275295 cites W2006504719 @default.
• W2011275295 cites W2007586990 @default.
• W2011275295 cites W2010373789 @default.
• W2011275295 cites W2016892955 @default.
• W2011275295 cites W2019838731 @default.
• W2011275295 cites W2019962781 @default.
• W2011275295 cites W2021577368 @default.
• W2011275295 cites W2023749443 @default.
• W2011275295 cites W2026547695 @default.
• W2011275295 cites W2028129929 @default.
• W2011275295 cites W2029267447 @default.
• W2011275295 cites W2033407864 @default.
• W2011275295 cites W2033869281 @default.
• W2011275295 cites W2037295961 @default.
• W2011275295 cites W2039741320 @default.
• W2011275295 cites W2043110757 @default.
• W2011275295 cites W2043268323 @default.
• W2011275295 cites W2043429268 @default.
• W2011275295 cites W2043560137 @default.
• W2011275295 cites W2043686473 @default.
• W2011275295 cites W2051543023 @default.
• W2011275295 cites W2058565981 @default.
• W2011275295 cites W2058878095 @default.
• W2011275295 cites W2061476715 @default.
• W2011275295 cites W2066343603 @default.
• W2011275295 cites W2069920566 @default.
• W2011275295 cites W2071958671 @default.
• W2011275295 cites W2073607085 @default.
• W2011275295 cites W2073775843 @default.
• W2011275295 cites W2076457673 @default.
• W2011275295 cites W2077006909 @default.
• W2011275295 cites W2077421343 @default.
• W2011275295 cites W2078301833 @default.
• W2011275295 cites W2081167734 @default.
• W2011275295 cites W2084459057 @default.
• W2011275295 cites W2090538398 @default.
• W2011275295 cites W2093751310 @default.
• W2011275295 cites W2094666728 @default.
• W2011275295 cites W2116929165 @default.
• W2011275295 cites W2120109226 @default.
• W2011275295 cites W2123142773 @default.
• W2011275295 cites W2125350295 @default.
• W2011275295 cites W2132124258 @default.
• W2011275295 cites W2132694471 @default.
• W2011275295 cites W2137502578 @default.
• W2011275295 cites W2138423248 @default.
• W2011275295 cites W2149105617 @default.
• W2011275295 cites W2158198055 @default.
• W2011275295 cites W2159692814 @default.
• W2011275295 cites W2169202020 @default.
• W2011275295 cites W2171742422 @default.
• W2011275295 cites W2177655263 @default.
• W2011275295 cites W2505581013 @default.
• W2011275295 cites W2950820508 @default.
• W2011275295 cites W4230014612 @default.
• W2011275295 cites W4235995681 @default.
• W2011275295 doi "https://doi.org/10.1002/(sici)1097-0282(199702)41:2<145::aid-bip3>3.0.co;2-t" @default.
• W2011275295 hasPublicationYear "1997" @default.
• W2011275295 type Work @default.
• W2011275295 sameAs 2011275295 @default.
• W2011275295 citedByCount "32" @default.
• W2011275295 countsByYear W20112752952012 @default.
• W2011275295 countsByYear W20112752952014 @default.
• W2011275295 crossrefType "journal-article" @default.
• W2011275295 hasAuthorship W2011275295A5011338417 @default.
• W2011275295 hasAuthorship W2011275295A5079049821 @default.
• W2011275295 hasConcept C109300003 @default.
• W2011275295 hasConcept C112887158 @default.
• W2011275295 hasConcept C147597530 @default.
• W2011275295 hasConcept C178790620 @default.
• W2011275295 hasConcept C181199279 @default.
• W2011275295 hasConcept C185020521 @default.
• W2011275295 hasConcept C185592680 @default.
• W2011275295 hasConcept C2779281246 @default.
• W2011275295 hasConcept C2780283098 @default.
• W2011275295 hasConcept C2780340462 @default.
• W2011275295 hasConcept C2780880337 @default.

• next