蛋白酵素
氧化磷酸化
线粒体
呼吸链
生物化学
生物
蛋白水解酶
细胞生物学
酶
计算生物学
线粒体呼吸链
代谢途径
柠檬酸循环
化学
磷酸化
作者
Nataliia Nechytailo,Karolina Szczepanowska
摘要
The mitochondrial oxidative phosphorylation (OXPHOS) system consists of multimeric, highly ordered protein complexes critical for energy production and metabolic wiring in the cell. Recent discoveries in mitochondrial proteolysis, facilitated by advances in proteomic approaches, have transformed the view of mitochondrial proteases from a simple quality-control system into a dynamically coordinated network of enzymes that actively shape the status of the OXPHOS machinery. Mapping OXPHOS-associated proteolytic circuits has uncovered specialized functions of individual proteases and identified key interaction sites. The present review outlines how mitochondrial proteases regulate the OXPHOS life cycle: expression, delivery, assembly, long-term maintenance, and disposal of mitochondrial respiratory complexes. We summarize past findings and highlight emerging concepts, including asynchronous OXPHOS turnover, cofactor-driven proteolysis, and bioenergetics-coupled degradation. Progress in these areas will deepen our understanding of how proteases coordinate the OXPHOS life cycle.
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