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Acyl carrier protein OsMTACP2 confers rice cold tolerance at the booting stage
Xiu-Li Hou, Xiangyan Han, Ying Meng, Lizhi Wang, Wenqi Zhang, Chao Yang, Hui Li, Shanjie Tang, Zhenhua Guo, Chunyan Liu, Yongmei Qin, Shaohua Zhang, Guanghou Shui, Xiaofeng Cao, Xianwei Song
Plant Physiology
Abstract
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DOI: 10.1093/plphys/kiae118 |
论文题目: |
Acyl carrier protein OsMTACP2 confers rice cold tolerance at the booting stage |
英文论文题目: |
Acyl carrier protein OsMTACP2 confers rice cold tolerance at the booting stage |
第一作者: |
Xiu-Li Hou, Xiangyan Han, Ying Meng, Lizhi Wang, Wenqi Zhang, Chao Yang, Hui Li, Shanjie Tang, Zhenhua Guo, Chunyan Liu, Yongmei Qin, Shaohua Zhang, Guanghou Shui, Xiaofeng Cao, Xianwei Song |
英文第一作者: |
Xiu-Li Hou, Xiangyan Han, Ying Meng, Lizhi Wang, Wenqi Zhang, Chao Yang, Hui Li, Shanjie Tang, Zhenhua Guo, Chunyan Liu, Yongmei Qin, Shaohua Zhang, Guanghou Shui, Xiaofeng Cao, Xianwei Song |
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2024-03-12 |
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Low temperatures occurring at the booting stage in rice (Oryza sativa L.) often result in yield loss by impeding male reproductive development. However, the underlying mechanisms by which rice responds to cold at this stage remain largely unknown. Here, we identified MITOCHONDRIAL ACYL CARRIER PROTEIN 2 (OsMTACP2), the encoded protein of which mediates lipid metabolism involved in the cold response at the booting stage. Loss of OsMTACP2 function compromised cold tolerance, hindering anther cuticle and pollen wall development, resulting in abnormal anther morphology, lower pollen fertility and seed setting. OsMTACP2 was highly expressed in tapetal cells and microspores during anther development, with the encoded protein localizing to both mitochondria and the cytoplasm. Comparative transcriptomic analysis revealed differential expression of genes related to lipid metabolism between the wild type and the Osmtacp2-1 mutant in response to cold. Through a lipidomic analysis, we demonstrated that wax esters, which are the primary lipid components of the anther cuticle and pollen walls, function as cold-responsive lipids. Their levels increased dramatically in the wild type but not in Osmtacp2-1 when exposed to cold. Additionally, mutants of two cold induced genes of wax ester biosynthesis, ECERIFERUM1 and WAX CRYSTAL-SPARSE LEAF2, showed decreased cold tolerance. These results suggest that OsMTACP2-mediated wax ester biosynthesis is essential for cold tolerance in rice at the booting stage. |
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Plant Physiology |
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Plant Physiology |
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