Tikhonova T V, Slutskaya E S, Popov V O
Prikl Biokhim Mikrobiol. 2017 Mar-Apr;53(2):155-63.
Closely related penta- and octaheme nitrite reductases catalyze the reduction of nitrite, nitric oxide, and hydroxylamine to ammonium and of sulfite to sulfide. NrfA pentaheme nitrite reductase plays the key role in anaerobic nitrate respiration and the protection of bacterial cells from stresses caused by nitrogen oxides and hydrogen peroxide. Octaheme nitrite reductases from bacteria of the Thioalkalivibrio genus are less studied, and their function in the cell is unknown. In order to estimate the possible role of octaheme nitrite reductases in the cell resistance to oxidative stress, the peroxidase activity of the enzyme from T. nitratireducens (TvNiR) has been studied in detail. Comparative analysis of the active site structure of TvNiR and cytochrome c peroxidases has shown some common features, such as a five-coordinated catalytic heme and identical catalytic residues in active sites. A model of the possible productive binding of peroxide at the active site of TvNiR has been proposed. The peroxidase activity has been measured for TvNiR hexamers and trimers under different conditions (pH, buffers, the addition of CaCl2 and EDTA). The maximum peroxidase activity of TvNiR with ABTS as a substrate (k cat = 17 s–1; k cat/K m = 855 mM–1 s–1) has been 100–300 times lower than the activity of natural peroxidases. The different activities of TvNiR trimers and hexamers indicate that the rate-limiting stage of the reaction is not the catalytic event at the active site but the electron transfer along the heme c electron-transport chain.
密切相关的五聚体和八聚体细胞色素亚硝酸还原酶催化将亚硝酸盐、一氧化氮和羟胺还原为铵,以及将亚硫酸盐还原为硫化物。NrfA五聚体细胞色素亚硝酸还原酶在厌氧硝酸盐呼吸以及保护细菌细胞免受氮氧化物和过氧化氢引起的应激方面发挥关键作用。硫碱弧菌属细菌的八聚体细胞色素亚硝酸还原酶研究较少,其在细胞中的功能尚不清楚。为了评估八聚体细胞色素亚硝酸还原酶在细胞对氧化应激的抗性中可能发挥的作用,已详细研究了来自硝酸还原硫碱弧菌(TvNiR)的该酶的过氧化物酶活性。对TvNiR和细胞色素c过氧化物酶活性位点结构的比较分析显示了一些共同特征,例如五配位催化血红素和活性位点中相同的催化残基。已提出TvNiR活性位点上过氧化物可能的有效结合模型。已在不同条件(pH、缓冲液、添加CaCl2和EDTA)下测量了TvNiR六聚体和三聚体的过氧化物酶活性。以ABTS为底物时,TvNiR的最大过氧化物酶活性(k cat = 17 s–1;k cat/K m = 855 mM–1 s–1)比天然过氧化物酶的活性低100 - 300倍。TvNiR三聚体和六聚体的不同活性表明,反应的限速阶段不是活性位点处的催化事件,而是沿血红素c电子传递链的电子转移。