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The –SH Protection Method for Determining Accurate K(d) Values for Enzyme-Coenzyme Complexes of NAD(+)-Dependent Glutamate Dehydrogenase and Engineered Mutants: Evidence for Nonproductive NADPH Complexes

Inactivation rates have been measured for clostridial glutamate dehydrogenase and several engineered mutants at various DTNB concentrations. Analysis of rate constants allowed determination of K(d) for each non-covalent enzyme-DTNB complex and the rate constant for reaction to form the inactive enzy...

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Autores principales: Griffin, Joanna, Engel, Paul C.
Formato: Texto
Lenguaje:English
Publicado: SAGE-Hindawi Access to Research 2010
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2962915/
https://www.ncbi.nlm.nih.gov/pubmed/21048875
http://dx.doi.org/10.4061/2010/951472
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author Griffin, Joanna
Engel, Paul C.
author_facet Griffin, Joanna
Engel, Paul C.
author_sort Griffin, Joanna
collection PubMed
description Inactivation rates have been measured for clostridial glutamate dehydrogenase and several engineered mutants at various DTNB concentrations. Analysis of rate constants allowed determination of K(d) for each non-covalent enzyme-DTNB complex and the rate constant for reaction to form the inactive enzyme-thionitrobenzoate adduct. Both parameters are sensitive to the mutations F238S, P262S, the double mutation F238S/P262S, and D263K, all in the coenzyme binding site. Study of the effects of NAD(+), NADH and NADPH at various concentrations in protecting against inactivation by 200 μM DTNB allowed determination of K(d) values for binding of these coenzymes to each protein, yielding surprising results. The mutations were originally devised to lessen discrimination against the disfavoured coenzyme NADP(H), and activity measurements showed this was achieved. However, the K(d) determinations indicated that, although K(d) values for NAD(+) and NADH were increased considerably, K(d) for NADPH was increased even more than for NADH, so that discrimination against binding of NADPH was not decreased. This apparent contradiction can only be explained if NADPH has a nonproductive binding mode that is not weakened by the mutations, and a catalytically productive mode that, though strengthened, is masked by the nonproductive binding. Awareness of the latter is important in planning further mutagenesis.
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spelling pubmed-29629152010-11-03 The –SH Protection Method for Determining Accurate K(d) Values for Enzyme-Coenzyme Complexes of NAD(+)-Dependent Glutamate Dehydrogenase and Engineered Mutants: Evidence for Nonproductive NADPH Complexes Griffin, Joanna Engel, Paul C. Enzyme Res Research Article Inactivation rates have been measured for clostridial glutamate dehydrogenase and several engineered mutants at various DTNB concentrations. Analysis of rate constants allowed determination of K(d) for each non-covalent enzyme-DTNB complex and the rate constant for reaction to form the inactive enzyme-thionitrobenzoate adduct. Both parameters are sensitive to the mutations F238S, P262S, the double mutation F238S/P262S, and D263K, all in the coenzyme binding site. Study of the effects of NAD(+), NADH and NADPH at various concentrations in protecting against inactivation by 200 μM DTNB allowed determination of K(d) values for binding of these coenzymes to each protein, yielding surprising results. The mutations were originally devised to lessen discrimination against the disfavoured coenzyme NADP(H), and activity measurements showed this was achieved. However, the K(d) determinations indicated that, although K(d) values for NAD(+) and NADH were increased considerably, K(d) for NADPH was increased even more than for NADH, so that discrimination against binding of NADPH was not decreased. This apparent contradiction can only be explained if NADPH has a nonproductive binding mode that is not weakened by the mutations, and a catalytically productive mode that, though strengthened, is masked by the nonproductive binding. Awareness of the latter is important in planning further mutagenesis. SAGE-Hindawi Access to Research 2010-06-29 /pmc/articles/PMC2962915/ /pubmed/21048875 http://dx.doi.org/10.4061/2010/951472 Text en Copyright © 2010 J. Griffin and P. C. Engel. https://creativecommons.org/licenses/by/3.0/ This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Griffin, Joanna
Engel, Paul C.
The –SH Protection Method for Determining Accurate K(d) Values for Enzyme-Coenzyme Complexes of NAD(+)-Dependent Glutamate Dehydrogenase and Engineered Mutants: Evidence for Nonproductive NADPH Complexes
title The –SH Protection Method for Determining Accurate K(d) Values for Enzyme-Coenzyme Complexes of NAD(+)-Dependent Glutamate Dehydrogenase and Engineered Mutants: Evidence for Nonproductive NADPH Complexes
title_full The –SH Protection Method for Determining Accurate K(d) Values for Enzyme-Coenzyme Complexes of NAD(+)-Dependent Glutamate Dehydrogenase and Engineered Mutants: Evidence for Nonproductive NADPH Complexes
title_fullStr The –SH Protection Method for Determining Accurate K(d) Values for Enzyme-Coenzyme Complexes of NAD(+)-Dependent Glutamate Dehydrogenase and Engineered Mutants: Evidence for Nonproductive NADPH Complexes
title_full_unstemmed The –SH Protection Method for Determining Accurate K(d) Values for Enzyme-Coenzyme Complexes of NAD(+)-Dependent Glutamate Dehydrogenase and Engineered Mutants: Evidence for Nonproductive NADPH Complexes
title_short The –SH Protection Method for Determining Accurate K(d) Values for Enzyme-Coenzyme Complexes of NAD(+)-Dependent Glutamate Dehydrogenase and Engineered Mutants: Evidence for Nonproductive NADPH Complexes
title_sort –sh protection method for determining accurate k(d) values for enzyme-coenzyme complexes of nad(+)-dependent glutamate dehydrogenase and engineered mutants: evidence for nonproductive nadph complexes
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2962915/
https://www.ncbi.nlm.nih.gov/pubmed/21048875
http://dx.doi.org/10.4061/2010/951472
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