Autophagy: A New Avenue and Biochemical Mechanisms to Mitigate the Climate Change.

IF 2.3 Q2 BIOLOGY
Scientifica Pub Date : 2024-10-12 eCollection Date: 2024-01-01 DOI:10.1155/2024/9908323
Muhammad Abubakkar Azmat, Malaika Zaheer, Muhammad Shaban, Saman Arshad, Muhammad Hasan, Alyan Ashraf, Muhammad Naeem, Aftab Ahmad, Nayla Munawar
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引用次数: 0

Abstract

Autophagy is a preserved process in eukaryotes that allows large material degeneration and nutrient recovery via vacuoles or lysosomes in cytoplasm. Autophagy starts from the moment of induction during the formation of a phagophore. Degradation may occur in the autophagosomes even without fusion with lysosome or vacuole, particularly in microautophagosomes. This process is arbitrated by the conserved machinery of basic autophagy-related genes (ATGs). In selective autophagy, specific materials are recruited by autophagosomes via receptors. Selective autophagy targets a vast variety of cellular components for degradation, i.e., old or damaged organelles, aggregates, and inactive or misfolded proteins. In optimal conditions, autophagy in plants ensures cellular homeostasis, proper plant growth, and fitness. Moreover, autophagy is essential during stress responses in plants and aids in survival of plants. Several biotic and abiotic stresses, i.e., pathogen infection, nutrient deficiency, plant senescence, heat stress, drought, osmotic stress, and hypoxia induce autophagy in plants. Cell death is not a stress, which induces autophagy but in contrast, sometimes it is a consequence of autophagy. In this way, autophagy plays a vital role in plant survival during harsh environmental conditions by maintaining nutrient concentration through elimination of useless cellular components. This review discussed the recent advances regarding regulatory functions of autophagy under normal and stressful conditions in plants and suggests future prospects in mitigating climate change. Autophagy in plants offers a viable way to increase plant resilience to climate change by increasing stress tolerance and nutrient usage efficiency.

自噬:减缓气候变化的新途径和生化机制。
自噬是真核生物的一种保存过程,可使大量物质变性,并通过细胞质中的空泡或溶酶体回收营养。自噬从吞噬细胞形成过程中的诱导时刻开始。即使没有与溶酶体或液泡融合,自噬体也可能发生降解,特别是在微自噬体。这一过程是由基本自噬相关基因(ATGs)的保守机制决定的。在选择性自噬中,特定物质通过受体被自噬体招募。选择性自噬以各种细胞成分为降解目标,即老化或受损的细胞器、聚集体、无活性或折叠错误的蛋白质。在最佳条件下,植物的自噬可确保细胞平衡、植物正常生长和健康。此外,自噬对植物的应激反应也至关重要,有助于植物存活。几种生物和非生物胁迫,即病原体感染、营养缺乏、植物衰老、热胁迫、干旱、渗透胁迫和缺氧,都会诱导植物自噬。细胞死亡不是诱导自噬的压力,相反,有时它是自噬的结果。因此,在恶劣的环境条件下,自噬通过消除无用的细胞成分来维持营养浓度,从而在植物的生存过程中发挥着至关重要的作用。这篇综述讨论了植物在正常和胁迫条件下自噬调控功能的最新进展,并提出了缓解气候变化的未来前景。植物中的自噬可提高植物的抗逆性和养分利用效率,从而为增强植物对气候变化的适应能力提供了一条可行的途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Scientifica
Scientifica BIOLOGY-
CiteScore
6.70
自引率
0.00%
发文量
43
审稿时长
21 weeks
期刊介绍: Scientifica is a peer-reviewed, Open Access journal that publishes research articles, review articles, and clinical studies covering a wide range of subjects in the life sciences, environmental sciences, health sciences, and medicine. The journal is divided into the 65 subject areas.
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