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Reactivity of the binuclear non-heme iron active site of delta(9) desaturase studied by large-scale multireference ab initio calculations
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SYSNO ASEP 0436895 Druh ASEP J - Článek v odborném periodiku Zařazení RIV J - Článek v odborném periodiku Poddruh J Článek ve WOS Název Reactivity of the binuclear non-heme iron active site of delta(9) desaturase studied by large-scale multireference ab initio calculations Tvůrce(i) Chalupský, Jakub (UOCHB-X) RID, ORCID
Rokob, Tibor András (UOCHB-X)
Kurashige, Y. (JP)
Yanai, T. (JP)
Solomon, E. I. (US)
Rulíšek, Lubomír (UOCHB-X) RID, ORCID
Srnec, Martin (UFCH-W) RID, ORCIDCelkový počet autorů 7 Zdroj.dok. Journal of the American Chemical Society. - : American Chemical Society - ISSN 0002-7863
Roč. 136, č. 45 (2014), s. 15977-15991Poč.str. 15 s. Jazyk dok. eng - angličtina Země vyd. US - Spojené státy americké Klíč. slova DMRG-CASPT2 ; ab initio calculations ; reaction mechanisms Vědní obor RIV CF - Fyzikální chemie a teoretická chemie CEP GA14-31419S GA ČR - Grantová agentura ČR Institucionální podpora UOCHB-X - RVO:61388963 ; UFCH-W - RVO:61388955 UT WOS 000344906100037 EID SCOPUS 84910009565 DOI 10.1021/ja506934k Anotace The results of density matrix renormalization group complete active space self-consistent field (DMRG-CASSCF) and second-order perturbation theory (DMRG-CASPT2) calculations are presented on various structural alternatives for the OO and first CH activating step of the catalytic cycle of the binuclear nonheme iron enzyme Delta(9) desaturase. This enzyme is capable of inserting a double bond into an alkyl chain by double hydrogen (H) atom abstraction using molecular O-2. The reaction step studied here is presumably associated with the highest activation barrier along the full pathway; therefore, its quantitative assessment is of key importance to the understanding of the catalysis. The DMRG approach allows unprecedentedly large active spaces for the explicit correlation of electrons in the large part of the chemically important valence space, which is apparently conditio sine qua non for obtaining well-converged reaction energetics. The derived reaction mechanism involves protonation of the previously characterized 1,2-mu peroxy (FeFeIII)-Fe-II (P) intermediate to a 1,1-mu hydroperoxy species, which abstracts an H atom from the C-10 site of the substrate. An Fe-IV-oxo unit is generated concomitantly, supposedly capable of the second H atom abstraction from C-9. In addition, several popular DFT functionals were compared to the computed DMRG-CASPT2 data. Notably, many of these show a preference for heterolytic CH cleavage, erroneously predicting substrate hydroxylation. This study shows that, despite its limitations, DMRG-CASPT2 is a significant methodological advancement toward the accurate computational treatment of complex bioinorganic systems, such as those with the highly open-shell diiron active sites. Pracoviště Ústav organické chemie a biochemie Kontakt asep@uochb.cas.cz ; Kateřina Šperková, Tel.: 232 002 584 ; Viktorie Chládková, Tel.: 232 002 434 Rok sběru 2015
Počet záznamů: 1