Hemes on a string:硫还原地理杆菌PgcA功能机制的见解。

The Journal of Biological Chemistry Pub Date : 2023-10-01 Epub Date: 2023-08-16 DOI:10.1016/j.jbc.2023.105167
Tomás M Fernandes, Marta A Silva, Leonor Morgado, Carlos A Salgueiro
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摘要

不溶性化合物的微生物细胞外还原需要在环境中扩散的可溶性电子穿梭器、自由扩散的细胞色素,或与释放或获取电子的细胞导电附件直接接触,以确保细胞需求和环境条件之间的连续平衡。在这项工作中,我们产生并表征了PgcA的三个细胞色素结构域,这是一种细胞外三血红素细胞色素,有助于硫还原地理杆菌中Fe(III)和Mn(IV)氧化物的还原。三个单血红素结构域在结构上同源,但它们的血红素基团显示出可变的轴向配位和还原势能值。通过NMR和可见光谱监测的电子转移实验表明,在还原不同的电子受体的同时,畴无序交换电子的程度是可变的。结果表明,PgcA是一类新的细胞色素的一部分,即微生物血红素连接的氧化还原链,它利用低复杂性的蛋白质延伸来结合金属,并通过其细胞色素结构域促进分子内和分子间的电子转移事件。
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Hemes on a string: insights on the functional mechanisms of PgcA from Geobacter sulfurreducens.

Microbial extracellular reduction of insoluble compounds requires soluble electron shuttles that diffuse in the environment, freely diffusing cytochromes, or direct contact with cellular conductive appendages that release or harvest electrons to assure a continuous balance between cellular requirements and environmental conditions. In this work, we produced and characterized the three cytochrome domains of PgcA, an extracellular triheme cytochrome that contributes to Fe(III) and Mn(IV) oxides reduction in Geobacter sulfurreducens. The three monoheme domains are structurally homologous, but their heme groups show variable axial coordination and reduction potential values. Electron transfer experiments monitored by NMR and visible spectroscopy show the variable extent to which the domains promiscuously exchange electrons while reducing different electron acceptors. The results suggest that PgcA is part of a new class of cytochromes - microbial heme-tethered redox strings - that use low-complexity protein stretches to bind metals and promote intra- and intermolecular electron transfer events through its cytochrome domains.

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