2012
DOI: 10.1021/jo300879r
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A Model Reaction Assesses Contribution of H-Tunneling and Coupled Motions to Enzyme Catalysis

Abstract: To assess the contribution of physical features to enzyme catalysis, the enzymatic reaction has to be compared to a relevant uncatalyzed reaction. While such comparisons have been conducted for some hydrolytic and radical reactions, it is most challenging for biological hydride transfer and redox reactions in general. Here, the same experimental tools used to study the H-tunneling and coupled motions for enzymatic hydride transfer between two carbons were used in the study of an uncatalyzed model reaction. The… Show more

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Cited by 15 publications
(64 citation statements)
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References 79 publications
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“…28 Additionally, the rehybridization of the donor and acceptor carbons are found to be nonsynchronous with that in alcohol (from sp 3 to sp 2.60 ) lagging behind that in Xn + (from sp 2 to sp 2.53 ). These results suggest a TRS with imbalanced development in charge and geometry in the alcohol moiety and nonsynchronous rehybridization between the two reacting carbons.…”
Section: Resultsmentioning
confidence: 91%
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“…28 Additionally, the rehybridization of the donor and acceptor carbons are found to be nonsynchronous with that in alcohol (from sp 3 to sp 2.60 ) lagging behind that in Xn + (from sp 2 to sp 2.53 ). These results suggest a TRS with imbalanced development in charge and geometry in the alcohol moiety and nonsynchronous rehybridization between the two reacting carbons.…”
Section: Resultsmentioning
confidence: 91%
“…47 The quantitative comparison between the two systems manifests the role of protein motions in such catalysis: protein motions advance the geometry change of the system, providing favorable orbital conditions for H-tunneling to occur. 28,29 …”
Section: Resultsmentioning
confidence: 99%
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“…This is opposite to the order found in enzymes, strongly supporting the above important proposal regarding the role of protein motions in catalysis. 24 In order to strengthen the conclusion, it is necessary to expand the study to other H-transfer systems in solution, especially those in which the 21 KIEs on both the H-donor and H-acceptor can be determined so that the rehybridization of both can be examined. For this purpose, use of the xanthylium ion (Xn + ) as a hydride acceptor is necessary since the 21 KIE on its 9-C-L bond (sp 2 to sp 3 ) can also be determined.…”
mentioning
confidence: 99%
“…[24][25][26][27] Here, kinetics of the hydride-transfer reactions from alcohols to Xn + ClO 4 À in MeCN were similarly determined by following the decay of the Xn + UV-Vis absorption (Fig. S1, ESIw).…”
mentioning
confidence: 99%