Reductive nitrosylation of Methanosarcina acetivorans protoglobin: a comparative study

Ascenzi, P.; Pesce, A.; Nardini, M.; Bolognesi, M.; Ciaccio, C.; Coletta, M.; Dewilde, S.

doi:/10.1016/j.bbrc.2012.11.122

Reductive nitrosylation of Methanosarcina acetivorans protoglobin: a comparative study

Ascenzi, P.; Pesce, A.; Nardini, M.; Bolognesi, M.; Ciaccio, C.; Coletta, M.; Dewilde, S. (2013). Reductive nitrosylation of Methanosarcina acetivorans protoglobin: a comparative study. Biochem. Biophys. Res. Commun. 430(4): 1301-1305. https://dx.doi.org/10.1016/j.bbrc.2012.11.122

In: Biochemical and Biophysical Research Communications. ACADEMIC PRESS INC ELSEVIER SCIENCE: San Diego etc.. ISSN 0006-291X; e-ISSN 1090-2104, meer

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Trefwoorden

Methanosarcina acetivorans Sowers, Baron & Ferry, 1984 [WoRMS]
Marien/Kust

Author keywords

Methanosarcina acetivorans protoglobin; Reductive nitrosylation offerric; Methanosarcina acetivorans protoglobin; Nitrosylation of ferrousMethanosarcina acetivorans protoglobin; Kinetics; Thermodynamics

Auteurs		Top
Ascenzi, P. Pesce, A. Nardini, M. Bolognesi, M.	Ciaccio, C. Coletta, M. Dewilde, S., meer

Abstract

Methanosarcina acetivorans is a strictly anaerobic non-motile methane-producing Archaea expressing protoglobin (Pgb) which might either facilitate O₂ detoxification or act as a CO sensor/supplier in methanogenesis. Unusually, M. acetivorans Pgb (MaPgb) binds preferentially O₂ rather than CO and displays anticooperativity in ligand binding. Here, kinetics and/or thermodynamics of ferric and ferrous MaPgb (MaPgb(III) and MaPgb(II), respectively) nitrosylation are reported. Data were obtained between pH 7.2 and 9.5, at 22.0 °C. Addition of NO to MaPgb(III) leads to the transient formation of MaPgb(III)–NO in equilibrium with MaPgb(II)–NO⁺. In turn, MaPgb(II)–NO⁺ is converted to MaPgb(II) by OH⁻-based catalysis. Then, MaPgb(II) binds NO very rapidly leading to MaPgb(II)–NO. The rate-limiting step for reductive nitrosylation of MaPgb(III) is represented by the OH⁻-mediated reduction of MaPgb(II)–NO⁺ to MaPgb(II). Present results highlight the potential role of MaPgb in scavenging of reactive nitrogen and oxygen species.

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