Vacuolar Degradation of Plant Organelles

Marisa S Otegui, Charlotte Steelheart, Wenlong Ma, Juncai Ma, Byung-Ho Kang, Victor Sanchez De Medina Hernandez, Yasin Dagdas, Caiji Gao, Shino Goto-Yamada, Kazusato Oikawa, Mikio Nishimura
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Abstract

Plants continuously remodel and degrade their organelles due to damage from their metabolic activities and environmental stressors, as well as an integral part of their cell differentiation programs. Whereas certain organelles use local hydrolytic enzymes for limited remodeling, most of pathways that control the partial or complete dismantling of organelles rely on vacuolar degradation. Specifically, selective autophagic pathways play a crucial role in recognizing and sorting plant organelle cargo for vacuolar clearance, especially under cellular stress conditions induced by factors like heat, drought, and damaging light. In these short reviews, we discuss the mechanisms that control the vacuolar degradation of chloroplasts, mitochondria, endoplasmic reticulum, Golgi, and peroxisomes, with an emphasis on autophagy, recently discovered selective autophagy receptors for plant organelles, and crosstalk with other catabolic pathways.
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植物细胞器的空泡降解
由于新陈代谢活动和环境胁迫造成的损害,以及细胞分化程序不可分割的一部分,植物不断重塑和降解其细胞器。虽然某些细胞器利用局部水解酶进行有限的重塑,但控制细胞器部分或完全解体的大多数途径都依赖于液泡降解。具体来说,选择性自噬途径在识别和分拣植物细胞器货物以进行液泡清除方面起着至关重要的作用,尤其是在热量、干旱和破坏性光照等因素诱导的细胞胁迫条件下。在这些简短的综述中,我们讨论了控制叶绿体、线粒体、内质网、高尔基体和过氧物酶体液泡降解的机制,重点是自噬、最近发现的植物细胞器选择性自噬受体以及与其他分解途径的交叉作用。
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