This work was financed by national funds from FCT - Fundação para a Ciência e a Tecnologia, I.P., in the scope of the project UIDP/04378/2020 and UIDB/04378/2020 of the Research Unit on Applied Molecular Biosciences - UCIBIO and the project LA/P/0140/2020 of the Associate Laboratory Institute for Health and Bioeconomy - i4HB. FCT supported SRP through the projects PTDC/BIA-PRO/109796/2009 and PTDC/BIA-BQM/29442/2017, DSB and RNSO through the scholarships UI/BD/151168/2021, and “Verão com Ciência2020”, respectively.Bacterial peroxidases are responsible for the reduction of hydrogen peroxide to water. Found in the periplasm of gram-negative bacteria, they are one of the defense mechanisms against endogenous and exogenous peroxide stress under low oxygen tensions. Besides being involved in peroxide detoxification, bacterial peroxidases have been proposed to constitute an alternative pathway to the respiratory chain under anoxic conditions, as demonstrated in E. coli that can use hydrogen peroxide as an electron acceptor in the absence of oxygen. Bacterial peroxidases are c-type cytochromes with either two or three c-type hemes bound to the polypeptide chain, being divided into classical or non-classical, respectively. Orthologous to the classical bacterial peroxidases are the MauG enzymes that share some structural, spectroscopic and sequence similarities but have distinct physiological roles (though for most their function remains unknown). The spectroscopic and kinetic data on bacterial peroxidases are reviewed for both classes. Most classical bacterial peroxidases require reductive activation that consists in structural changes so that the catalytic heme becomes accessible to the substrate. However, non-classical enzymes are ready to bind the hydrogen peroxide as their catalytic center is penta-coordinated, which is also observed in their structural model. The few studies that report the involvement of bacterial peroxidases from pathogenic bacteria in biofilms, is an indication that these enzymes might contribute to their infection mechanism and thus can constitute alternative drug targetspublishersversionpublishe
