探索棉花 SFR2 在应对寒冷胁迫时的难题。

Plant signaling & behavior Pub Date : 2024-12-31 Epub Date: 2024-06-05 DOI:10.1080/15592324.2024.2362518

Samantha M Surber, Ngoc Pham Thien Thao, Cailin N Smith, Zachery D Shomo, Allison C Barnes, Rebecca L Roston

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摘要

棉花是全球许多地区的重要农作物，但对低温很敏感。对冷冻敏感的酶 2（SFR2）的活性提高了植物的耐寒性，并产生了三聚半乳糖基酰二乙酰甘油（TGDG），但它在对冷敏感的植物（如棉花）中的作用仍然未知。最近有报道称，棉花 SFR2 在正常和寒冷条件下产生的 TGDG 都很少。在此，我们研究了棉花 SFR2 的活化和 TGDG 的产生。通过在原生系统中使用多种方法、转化到拟南芥中以及异源酵母表达，我们提供了棉花 SFR2 的活化方式与之前在其他植物物种中发现的不同的证据。我们的结论是，棉花中的 SFR2 并不像拟南芥那样在酸化或冷冻时以类似的方式激活，而且 SFR2 蛋白的其他区域对于酶的激活比以前报道的更为关键。

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Exploring cotton SFR2's conundrum in response to cold stress.

Cotton is an important agricultural crop to many regions across the globe but is sensitive to low-temperature exposure. The activity of the enzyme SENSITIVE TO FREEZING 2 (SFR2) improves cold tolerance of plants and produces trigalactosylsyldiacylglycerol (TGDG), but its role in cold sensitive plants, such as cotton remains unknown. Recently, it was reported that cotton SFR2 produced very little TGDG under normal and cold conditions. Here, we investigate cotton SFR2 activation and TGDG production. Using multiple approaches in the native system and transformation into Arabidopsis thaliana, as well as heterologous yeast expression, we provide evidence that cotton SFR2 activates differently than previously found among other plant species. We conclude with the hypothesis that SFR2 in cotton is not activated in a similar manner regarding acidification or freezing like Arabidopsis and that other regions of SFR2 protein are critical for activation of the enzyme than previously reported.

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Plant signaling & behavior

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