The rhodanese RhdA helps azotobacter vinelandii in maintaining cellular redox balance

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OriginalspracheEnglisch
Seiten (von - bis)777-784
Seitenumfang8
FachzeitschriftBiological chemistry
Jahrgang391
Ausgabenummer7
PublikationsstatusVeröffentlicht - 1 Juli 2010

Abstract

The tandem domain rhodanese-homology protein RhdA of Azotobacter vinelandii shows an active-site loop structure that confers structural peculiarity in the environment of its catalytic cysteine residue. The in vivo effects of the lack of RhdA were investigated using an A. vinelandii mutant strain (MV474) in which the rhdA gene was disrupted by deletion. Here, by combining analytical measurements and transcript profiles, we show that deletion of the rhdA gene generates an oxidative stress condition to which A. vinelandii responds by activating defensive mechanisms. In conditions of growth in the presence of the superoxide generator phenazine methosulfate, a stressor-dependent induction of rhdA gene expression was observed, thus highlighting that RhdA is important for A. vinelandii to sustain oxidative stress. The potential of RhdA to buffer general levels of oxidants in A. vinelandii cells via redox reactions involving its cysteine thiol is discussed.

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The rhodanese RhdA helps azotobacter vinelandii in maintaining cellular redox balance. / Remelli, William; Cereda, Angelo; Papenbrock, Jutta et al.
in: Biological chemistry, Jahrgang 391, Nr. 7, 01.07.2010, S. 777-784.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Remelli W, Cereda A, Papenbrock J, Forlani F, Pagani S. The rhodanese RhdA helps azotobacter vinelandii in maintaining cellular redox balance. Biological chemistry. 2010 Jul 1;391(7):777-784. doi: 10.1515/BC.2010.073
Remelli, William ; Cereda, Angelo ; Papenbrock, Jutta et al. / The rhodanese RhdA helps azotobacter vinelandii in maintaining cellular redox balance. in: Biological chemistry. 2010 ; Jahrgang 391, Nr. 7. S. 777-784.
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abstract = "The tandem domain rhodanese-homology protein RhdA of Azotobacter vinelandii shows an active-site loop structure that confers structural peculiarity in the environment of its catalytic cysteine residue. The in vivo effects of the lack of RhdA were investigated using an A. vinelandii mutant strain (MV474) in which the rhdA gene was disrupted by deletion. Here, by combining analytical measurements and transcript profiles, we show that deletion of the rhdA gene generates an oxidative stress condition to which A. vinelandii responds by activating defensive mechanisms. In conditions of growth in the presence of the superoxide generator phenazine methosulfate, a stressor-dependent induction of rhdA gene expression was observed, thus highlighting that RhdA is important for A. vinelandii to sustain oxidative stress. The potential of RhdA to buffer general levels of oxidants in A. vinelandii cells via redox reactions involving its cysteine thiol is discussed.",
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AB - The tandem domain rhodanese-homology protein RhdA of Azotobacter vinelandii shows an active-site loop structure that confers structural peculiarity in the environment of its catalytic cysteine residue. The in vivo effects of the lack of RhdA were investigated using an A. vinelandii mutant strain (MV474) in which the rhdA gene was disrupted by deletion. Here, by combining analytical measurements and transcript profiles, we show that deletion of the rhdA gene generates an oxidative stress condition to which A. vinelandii responds by activating defensive mechanisms. In conditions of growth in the presence of the superoxide generator phenazine methosulfate, a stressor-dependent induction of rhdA gene expression was observed, thus highlighting that RhdA is important for A. vinelandii to sustain oxidative stress. The potential of RhdA to buffer general levels of oxidants in A. vinelandii cells via redox reactions involving its cysteine thiol is discussed.

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