EGY2 蛋白酶在应对强光胁迫中的作用。

IF 2.6 4区生物学 Q2 PLANT SCIENCES

Functional Plant Biology Pub Date : 2024-01-01 DOI:10.1071/FP23243

Robert Lucinski, Jedrzej Dobrogojski, Takao Ishikawa, Malgorzata Adamiec

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引用次数: 0

摘要

在本研究中，我们研究了膜内蛋白酶之一 EGY2 在短期强光胁迫条件下对 PSII 正常工作的重要性。EGY2 是 S2P 家族的叶绿体膜内蛋白酶，拟南芥中缺少 EGY2 会影响 PSII 蛋白的组成。egy2突变体的PsbA降解速度较慢，PsbC和PsbD含量降低。在暴露于强光胁迫时，这些化学计量学变化会影响 PSII 的功能状态，导致其对 PSII 反应中心光抑制的敏感性提高，散热增加。此外，我们还探讨了 EGY2 与 pTAC16 转录因子（EGY2 的潜在底物）之间的关系。在光胁迫下，WT 植物的 pTAC16 水平下降，而 egy2 突变体的 pTAC16 水平保持不变。这一发现表明，EGY2 可能通过蛋白水解作用将 pTAC16 从类囊体膜中释放出来。我们还利用酵母双杂交系统证实了 EGY2 与 pTAC16 之间的物理相互作用，为 EGY2 通过从类囊体膜释放 pTAC16 参与调控 PsbA 和 PsbC/PsbD 操作子提供了证据。

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The role of EGY2 protease in response to high light stress.

In this study, we investigated the importance of one of the intramembrane proteases, EGY2, for the proper functioning of PSII under short-term high light stress conditions. EGY2 is a chloroplast intramembrane protease of the S2P family, whose absence in Arabidopsis thaliana affects PSII protein composition. The egy2 mutants exhibited a slower degradation of PsbA and decreased content of PsbC and PsbD. During exposure to high light stress, these stoichiometric changes affect the functional state of PSII, leading to its higher sensitivity to photoinhibition of the PSII reaction centre and increased heat dissipation. Furthermore, we explored the relationship between EGY2 and the pTAC16 transcription factor, which is a potential EGY2 substrate. Under light stress, WT plants showed decreased levels of pTAC16, while it remained unchanged in the egy2 mutants. This finding suggests that EGY2 may release pTAC16 from thylakoid membranes through proteolytic cleavage. We also confirmed the physical interaction between EGY2 and pTAC16 using the yeast two-hybrid system, providing evidence of EGY2's involvement in the regulation of PsbA and PsbC/PsbD operons by releasing pTAC16 from the thylakoid membrane.

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来源期刊

Functional Plant Biology 生物-植物科学

CiteScore

5.50

自引率

3.30%

发文量

156

审稿时长

1 months

期刊介绍： Functional Plant Biology (formerly known as Australian Journal of Plant Physiology) publishes papers of a broad interest that advance our knowledge on mechanisms by which plants operate and interact with environment. Of specific interest are mechanisms and signal transduction pathways by which plants adapt to extreme environmental conditions such as high and low temperatures, drought, flooding, salinity, pathogens, and other major abiotic and biotic stress factors. FPB also encourages papers on emerging concepts and new tools in plant biology, and studies on the following functional areas encompassing work from the molecular through whole plant to community scale. FPB does not publish merely phenomenological observations or findings of merely applied significance. Functional Plant Biology is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science. Functional Plant Biology is published in affiliation with the Federation of European Societies of Plant Biology and in Australia, is associated with the Australian Society of Plant Scientists and the New Zealand Society of Plant Biologists.