蛋白酶抑制剂ASP通过抑制金桔中蛋白质的降解来增强其抗冻性。

IF 7.6 Q1 GENETICS & HEREDITY
园艺研究(英文) Pub Date : 2023-02-16 eCollection Date: 2023-04-01 DOI:10.1093/hr/uhad023
Hua Yang, Ke-Wei Qiao, Jin-Jing Teng, Jia-Bei Chen, Ying-Li Zhong, Li-Qun Rao, Xing-Yao Xiong, Huang Li
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引用次数: 1

摘要

冷驯化是一个复杂的生物学过程,导致植物抗寒性的发展。在这项研究中,我们证明了蛋白酶抑制剂FmASP在柑橘类亲缘物种金桔中的冷诱导表达通过最大限度地减少蛋白质降解而有助于其抗冻性。首先,我们发现,只有经过冷驯化的金桔植物,尽管在冷冻过程中叶片细胞受到了广泛的损伤,但在压力缓解后才能恢复正常生长。为了剖析冷驯化对这种防冻性能的影响,我们对经过冷驯化(4°C)、冷冻处理(-10°C)和冷冻后恢复(25°C)的金桔叶进行了蛋白质丰度测定和定量蛋白质组学分析。FmASP(抗丝氨酸蛋白酶)和几种非特异性蛋白酶被鉴定为冷驯化诱导的差异表达蛋白,并在整个低温处理过程中与稳定的蛋白质丰度相关。FmASP被进一步表征为多种蛋白酶的强大抑制剂。此外,FmASP在拟南芥中的异质性表达证实了其在抗寒性中的积极作用。最后,我们提出了FmASP的工作模型,并说明了这种细胞外定位蛋白酶抑制剂如何保护蛋白质免受降解,从而维持冷冻后恢复的基本细胞功能。这些发现揭示了蛋白酶抑制在冷冻反应中的重要作用,并为这种作用如何帮助开发提高植物耐冻性的新策略提供了见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Protease inhibitor ASP enhances freezing tolerance by inhibiting protein degradation in kumquat.

Protease inhibitor ASP enhances freezing tolerance by inhibiting protein degradation in kumquat.

Protease inhibitor ASP enhances freezing tolerance by inhibiting protein degradation in kumquat.

Protease inhibitor ASP enhances freezing tolerance by inhibiting protein degradation in kumquat.

Cold acclimation is a complex biological process leading to the development of freezing tolerance in plants. In this study, we demonstrated that cold-induced expression of protease inhibitor FmASP in a Citrus-relative species kumquat [Fortunella margarita (Lour.) Swingle] contributes to its freezing tolerance by minimizing protein degradation. Firstly, we found that only cold-acclimated kumquat plants, despite extensive leaf cellular damage during freezing, were able to resume their normal growth upon stress relief. To dissect the impact of cold acclimation on this anti-freezing performance, we conducted protein abundance assays and quantitative proteomic analysis of kumquat leaves subjected to cold acclimation (4°C), freezing treatment (-10°C) and post-freezing recovery (25°C). FmASP (Against Serine Protease) and several non-specific proteases were identified as differentially expressed proteins induced by cold acclimation and associated with stable protein abundance throughout the course of low-temperature treatment. FmASP was further characterized as a robust inhibitor of multiple proteases. In addition, heterogeneous expression of FmASP in Arabidopsis confirmed its positive role in freezing tolerance. Finally, we proposed a working model of FmASP and illustrated how this extracellular-localized protease inhibitor protects proteins from degradation, thereby maintaining essential cellular function for post-freezing recovery. These findings revealed the important role of protease inhibition in freezing response and provide insights on how this role may help develop new strategies to enhance plant freezing tolerance.

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