Sexually dimorphic acetyl‐CoA biosynthesis and utilization in response to drought and exogenous acetic acid

生物 茉莉酸 生物合成 生物化学 光合作用 耐旱性 新陈代谢 糖酵解 植物 基因
作者
Linchao Xia,M. Li,Yao Chen,Yujie Dai,Huanhuan Li,Sheng Zhang
出处
期刊:Plant Journal [Wiley]
卷期号:119 (4): 1967-1985 被引量:1
标识
DOI:10.1111/tpj.16901
摘要

SUMMARY Female willows exhibit greater drought tolerance and benefit more from exogenous acetic acid (AA)‐improved drought tolerance than males. However, the potential mechanisms driving these sex‐specific responses remain unclear. To comprehensively investigate the sexually dimorphic responsive mechanisms of willows to drought and exogenous AA, here, we performed physiological, proteomic, Lys‐acetylproteomic, and transgenic analyses in female and male Salix myrtillacea exposed to drought and AA‐applicated drought treatments, focusing on protein abundance and lysine acetylation (LysAc) changes. Drought‐tolerant females suffered less drought‐induced photosynthetic and oxidative damage, did not activate AA and acetyl‐CoA biosynthesis, TCA cycle, fatty acid metabolism, and jasmonic acid signaling as strongly as drought‐sensitive males. Exogenous AA caused overaccumulation of endogenous AA and inhibition of acetyl‐CoA biosynthesis and utilization in males. However, exogenous AA greatly enhanced acetyl‐CoA biosynthesis and utilization and further enhanced drought performance of females, possibly determining that AA improved drought tolerance more in females than in males. Interestingly, overexpression of acetyl‐CoA synthetase ( ACS ) could reprogram fatty acids, increase LysAc levels, and improve drought tolerance, highlighting the involvement of ACS‐derived acetyl‐CoA in drought responses. In addition, drought and exogenous AA induced sexually dimorphic LysAc associated with histones, transcription factors, and metabolic enzymes in willows. Especially, exogenous AA may greatly improve the photosynthetic capacity of S. myrtillacea males by decreasing LysAc levels and increasing the abundances of photosynthetic proteins. While hyperacetylation in glycolysis, TCA cycle, and fatty acid biosynthesis potentially possibly serve as negative feedback to acclimate acetyl‐CoA biosynthesis and utilization in drought‐stressed males and AA‐applicated females. Thus, acetyl‐CoA biosynthesis and utilization determine the sexually dimorphic responses of S. myrtillacea to drought and exogenous AA.
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