Raffinose induces autophagy to promote plant growth

Sahar Magen, Sahar Daniel, Shahar Weiss, David J. Factor, Sergey Mursalimov, Yoram Soroka, Simon Michaeli, Tamar Avin-Wittenberg
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Abstract

Autophagy is a vital process in eukaryotes, maintaining cellular balance by degrading and recycling cellular components. Autophagy is triggered by various nutrient-deprivation conditions and both biotic and abiotic stresses in plants. Autophagy-deficient mutants exhibit early senescence, reduced yield, and hyper-sensitivity to starvation and abiotic stress. Over-expressing autophagy-related genes in various plant species resulted in increased plant size, yield, and stress resistance. Yet, despite the considerable promise of autophagy modulation for improved plant performance, the molecular mechanisms governing its induction remain partially understood. In the current work, we identified raffinose, a sugar linked to plant stress responses, as a novel plant autophagy inducer. Raffinose treatment resulted in increased biomass and yield in an autophagy-dependent manner in several plant species. We also show that raffinose activates autophagy through the SnRK1 kinase complex, independent of TOR signaling Our findings highlight the potential of raffinose as a tool for enhancing crop resilience and productivity.
棉子糖诱导自噬,促进植物生长
自噬是真核生物的一个重要过程,它通过降解和回收细胞成分来维持细胞平衡。在植物体内,各种营养匮乏条件以及生物和非生物胁迫都会触发自噬。自噬缺陷突变体表现出早期衰老、产量降低以及对饥饿和非生物胁迫的超敏感性。在各种植物物种中过度表达自噬相关基因可使植株增大、增产和抗逆性增强。然而,尽管自噬调节在改善植物性能方面大有可为,但人们对其诱导的分子机制仍然知之甚少。在目前的研究中,我们发现与植物胁迫反应有关的一种糖类--棉子糖是一种新型的植物自噬诱导剂。在多个植物物种中,棉子糖处理以依赖自噬的方式增加了生物量和产量。我们的研究结果凸显了棉子糖作为一种提高作物抗逆性和产量的工具的潜力。
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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