Arsenite oxidase in complex with antimonite and arsenite oxyanions

Engrola, Filipa; Correia, Márcia A.S.; Watson, Cameron; Romão, Carlos C.; Veiros, Luis F.; Romão, Maria João; Santos-Silva, Teresa; Santini, Joanne M.

doi:https://doi.org/10.1016/j.jbc.2023.105036

Utilize este identificador para referenciar este registo: http://hdl.handle.net/10362/158663

Título:	Arsenite oxidase in complex with antimonite and arsenite oxyanions
Autor:	Engrola, Filipa Correia, Márcia A.S. Watson, Cameron Romão, Carlos C. Veiros, Luis F. Romão, Maria João Santos-Silva, Teresa Santini, Joanne M.
Palavras-chave:	antimony arsenic arsenite oxidase DFT calculations enzyme mechanism molybdenum enzyme X-ray crystallography Biochemistry Molecular Biology Cell Biology
Data:	Ago-2023
Resumo:	Arsenic contamination of groundwater is among one of the biggest health threats affecting millions of people in the world. There is an urgent need for efficient arsenic biosensors where the use of arsenic metabolizing enzymes can be explored. In this work, we have solved four crystal structures of arsenite oxidase (Aio) in complex with arsenic and antimony oxyanions and the structures determined correspond to intermediate states of the enzymatic mechanism. These structural data were complemented with density-functional theory calculations providing a unique view of the molybdenum active site at different time points that, together with mutagenesis data, enabled to clarify the enzymatic mechanism and the molecular determinants for the oxidation of As(III) to the less toxic As(V) species.
Descrição:	Funding Information: Work supported by UCIBIO funding from FCT-MCTES ( UIDB/04378/2020 , UIDP/04378/2020 , and Engrola PhD student grant UI/BD/151155/2021 ) and the Institute for Health and Bioeconomy—i4HB (project LA/P/0140/2020 ). Centro de Química Estrutural (CQE) and Institute of Molecular Sciences (IMS) acknowledge the financial support of FCT-MCTES (Projects UIDB/00100/2020 , UIDP/00100/2020 , and LA/P/0056/2020 , respectively). The authors thank Doctor Pedro Matias for valuable discussions and acknowledge MAX IV Laboratory for time on Beamline Biomax under Proposal [ID20190007]. Research conducted at MAX IV is supported by the Swedish Research council under contract 2018-07152 , the Swedish Governmental Agency for Innovation Systems under contract 2018-04969 , and Formas under contract 2019-02496 . We also acknowledge the Paul Scherrer Institut, Villigen, Switzerland for synchrotron radiation beamtime at beamline PXIII. Some measurements were performed at XALOC beamline at ALBA Synchrotron with the collaboration of ALBA staff. Funding Information: C. W. is supported by a Biotechnology and Biological Sciences Research Council (BBSRC) Industrial CASE Studentship ( BB/L01615X/1 ) with Bio Nano Consulting Ltd as the industrial partner. Publisher Copyright: © 2023 The Authors
Peer review:	yes
URI:	http://hdl.handle.net/10362/158663
DOI:	https://doi.org/10.1016/j.jbc.2023.105036
ISSN:	0021-9258
Aparece nas colecções:	Home collection (FCT)

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