多倍体驱动自噬参与植物特有的功能。
Polyploidy drives autophagy to participate in plant-specific functions.
作者信息
Liu Moyang, Yang Ming, Liang Heng, Luo Bote, Deng Junjie, Cao Lingyan, Zheng Daojun, Chen Cheng
机构信息
Shanghai Collaborative Innovation Center of Agri-Seeds/School of Agriculture and Biology Shanghai Jiao Tong University Shanghai China.
Institute of Tropical Horticulture Research, Hainan Academy of Agricultural Sciences Haikou China.
出版信息
Imeta. 2024 Dec 9;3(6):e252. doi: 10.1002/imt2.252. eCollection 2024 Dec.
Polyploidization promotes the functional diversification of autophagy in plants, expanding autophagy-associated genes (AAGs) to support processes like chloroplast division and flowering. Analysis of 92,967 AAGs in , , and 74 other plant species shows that 45.69% of AAGs are polyploidy-related, highlighting polyploidy's role in linking autophagy to plant-specific functions.
多倍体化促进了植物自噬的功能多样化,扩展了自噬相关基因(AAGs)以支持叶绿体分裂和开花等过程。对92,967个自噬相关基因在[此处原文缺失具体植物物种信息]以及其他74种植物物种中的分析表明,45.69%的自噬相关基因与多倍体相关,这突出了多倍体在将自噬与植物特定功能联系起来方面的作用。
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