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Published September 1, 2020 | Supplemental Material + Accepted Version + Submitted
Journal Article Open

Selective Enzymatic Oxidation of Silanes to Silanols

Bähr, Susanne ORCID icon
Brinkmann-Chen, Sabine ORCID icon
Garcia-Borràs, Marc ORCID icon
Roberts, John M. ORCID icon
Katsoulis, Dimitris E. ORCID icon
Houk, Kendall N. ORCID icon
Arnold, Frances H. ORCID icon

Abstract

Compared to the biological world's rich chemistry for functionalizing carbon, enzymatic transformations of the heavier homologue silicon are rare. We report that a wild‐type cytochrome P450 monooxygenase (P450_(BM3) from Bacillus megaterium, CYP102A1) has promiscuous activity for oxidation of hydrosilanes to give silanols. Directed evolution was applied to enhance this non‐native activity and create a highly efficient catalyst for selective silane oxidation under mild conditions with oxygen as the terminal oxidant. The evolved enzyme leaves C−H bonds present in the silane substrates untouched, and this biotransformation does not lead to disiloxane formation, a common problem in silanol syntheses. Computational studies reveal that catalysis proceeds through hydrogen atom abstraction followed by radical rebound, as observed in the native C−H hydroxylation mechanism of the P450 enzyme. This enzymatic silane oxidation extends nature's impressive catalytic repertoire.

Additional Information

© 2020 Wiley‐VCH Verlag GmbH & Co. KGaA, Weinheim. Manuscript received: February 24, 2020; Accepted manuscript online: March 24, 2020; Version of record online: April 21, 2020. This work was supported by the Dow University Partnership Initiative(227027AO),the Rothenberg Innovation Initiative (RI2) Program (F.H.A.), the NIH National Institute for General Medical Sciences GM-124480 (K.N.H.), the Deutsche Forschungsgemeinschaft (DFG) Postdoctoral Fellowship (BA 6604/1-1 to S.B.), and the Spanish MINECO (JdC-I contract IJCI-2017-33411 to M.G.-B.). We thank N. W. Goldberg, Dr. S. B. J. Kan, and A. M. Knight for productive discussions, and Dr. Zhijun Jia for experimental assistance.

Attached Files

Accepted Version - nihms-1621273.pdf

Submitted - Selective_Enzymatic_Oxidation_of_Silanes_to_Silanols_v1.pdf

Supplemental Material - anie202002861-s1-20200324_siox_supporting_information.pdf

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