Trash to treasure: lactate and protein lactylation in maize root impacts response to drought
文献类型: 外文期刊
作者: Shi, Zi 1 ; Zhou, Miaoyi 1 ; Song, Wei 1 ; Liu, Ya 1 ; Wang, Ronghuan 1 ; Wang, Yuandong 1 ; Zhang, Ruyang 1 ; Zhao, Jiuran 1 ; Ren, Wen 1 ;
作者机构: 1.Beijing Acad Agr & Forestry Sci, Beijing Key Lab Maize DNA Fingerprinting & Mol Bre, Beijing 100097, Peoples R China
关键词: lactate; lactylome; drought; spermidine; maize
期刊名称:SCIENCE CHINA-LIFE SCIENCES ( 影响因子:9.1; 五年影响因子:7.1 )
ISSN: 1674-7305
年卷期: 2023 年 66 卷 8 期
页码:
收录情况: SCI
摘要: Lactate, protein lactylation (Kla), and specifically histone lactylation have recently been shown to regulate antipathogenic immune responses in mammals. Herein, after we confirmed the presence and accumulation of lactate in maize roots under drought conditions, a lactylome profiling analysis revealed that Kla modifications were invariably present in maize roots, that there were obvious differences in the lactylomes of drought-sensitive (B73) vs. drought-tolerant (Jing2416) lines, and that growing Jing2416 under drought conditions caused significant decreases in the lactylation of multiple enzymes responsible for fatty acid degradation. Inspired by findings of histone-Kla based epigenetic regulation of immune functions in animals, we initially discovered 37 Kla sites on 16 histones in the maize genome, and again detected obvious differential histone Klamediated trends between two lines by ChIP-Seq. Notably, only 2.7% of genes with differential histone Kla peaks detected during drought stress were commonly present in both lines, a finding demonstrating that abiotic stress triggers distinct epigenetic activities in diverse germplasm while also strongly supporting that a histone Kla layer of regulation is associated with physiological responses to drought stress. Interestingly, exogenous application of spermidine improved the drought tolerance of B73 and substantially altered the levels of lactate, protein lactylation, and histone Kla modification. Thus, beyond extending the known domain of Kla-based biochemical and epigenetic regulation from animal immunity to plant stress physiology, our study suggests the physiological, biochemical, and genetic function of "the best-known metabolic waste", lactate.
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