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W2321511863 abstract "The regioselective activation of C–H bonds in complex molecules containing several of them is still an exciting challenge in chemistry. However, many enzymes catalyze these processes, and much can be learned from the way they do it. For example, each mammalian lipoxygenase isoenzyme abstracts a hydrogen atom from essentially a unique carbon position. This paper presents a comprehensive study at the B3LYP(QM)/CHARMM(MM) level of the hydrogen abstraction reaction from arachidonic acid (AA) catalyzed by rabbit 15-lipoxygenase (15-rLO). Most of the products of this reaction arise from the initial hydrogen abstraction from the carbon C13 of AA. Nevertheless, we have shown that 15-rLO seems able to catalyze not only the abstraction of H13 but also that of H10. After having studied 20 of these hydrogen transfers initiated from different snapshots of an extensive MD sampling of the Michaelis complex, we have even concluded that the reaction mechanisms for both abstractions are identical (proton-coupled electron transfer processes), with transition state structures matching their geometries around the shifting hydrogen. Despite that similarity, the average potential energy barrier for the H13 abstractions is 4.0 kcal/mol lower than for the H10 abstractions, in good agreement with the experimental C13:C10 ratio of 97:3. We have found that a subtle steric hindrance by Leu597 and Ile663 is the main cause for that difference. Driving the strict regiospecificity exhibited by 15-rLO appears to be the essential function of the bulky side chains of those conserved residues, in this way making possible the vital physiological role of 15-rLO and, probably, of all the mammalian lipoxygenase isoenzymes. The understanding of how nature uses residues with the bulkiest aliphatic side chains to achieve the selective activation of C–H bonds can stimulate the design of efficient biocatalysts to that aim." @default.
W2321511863 created "2016-06-24" @default.
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W2321511863 date "2014-11-07" @default.
W2321511863 modified "2023-09-30" @default.
W2321511863 title "Unraveling How Enzymes Can Use Bulky Residues To Drive Site-Selective C–H Activation: The Case of Mammalian Lipoxygenases Catalyzing Arachidonic Acid Oxidation" @default.
W2321511863 cites W1967700647 @default.
W2321511863 cites W1975207791 @default.
W2321511863 cites W1979892619 @default.
W2321511863 cites W1987147145 @default.
W2321511863 cites W1988485815 @default.
W2321511863 cites W1993383767 @default.
W2321511863 cites W2000647441 @default.
W2321511863 cites W2001752540 @default.
W2321511863 cites W2007663400 @default.
W2321511863 cites W2010905744 @default.
W2321511863 cites W2011710650 @default.
W2321511863 cites W2016117607 @default.
W2321511863 cites W2016239417 @default.
W2321511863 cites W2018413666 @default.
W2321511863 cites W2019692171 @default.
W2321511863 cites W2023657151 @default.
W2321511863 cites W2026423508 @default.
W2321511863 cites W2027408247 @default.
W2321511863 cites W2028022118 @default.
W2321511863 cites W2029667189 @default.
W2321511863 cites W2030126029 @default.
W2321511863 cites W2032719166 @default.
W2321511863 cites W2038434242 @default.
W2321511863 cites W2044591029 @default.
W2321511863 cites W2048310961 @default.
W2321511863 cites W2050333027 @default.
W2321511863 cites W2051434435 @default.
W2321511863 cites W2051631220 @default.
W2321511863 cites W2051633428 @default.
W2321511863 cites W2051669046 @default.
W2321511863 cites W2052559859 @default.
W2321511863 cites W2052624151 @default.
W2321511863 cites W2053400691 @default.
W2321511863 cites W2061912018 @default.
W2321511863 cites W2068617439 @default.
W2321511863 cites W2069363412 @default.
W2321511863 cites W2076017392 @default.
W2321511863 cites W2078146328 @default.
W2321511863 cites W2081159460 @default.
W2321511863 cites W2082973874 @default.
W2321511863 cites W2083630420 @default.
W2321511863 cites W2084615004 @default.
W2321511863 cites W2094642658 @default.
W2321511863 cites W2094941054 @default.
W2321511863 cites W2100073813 @default.
W2321511863 cites W2108116455 @default.
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W2321511863 cites W2160316343 @default.
W2321511863 cites W2161752773 @default.
W2321511863 cites W2266295411 @default.
W2321511863 cites W2316741846 @default.
W2321511863 cites W2323610406 @default.
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W2321511863 doi "https://doi.org/10.1021/cs5006103" @default.
W2321511863 hasPublicationYear "2014" @default.
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