生物
计算生物学
非编码RNA
基因
基因调控网络
基因表达调控
小RNA
植物发育
植物生长
调节器
合理设计
生物技术
调节顺序
核糖核酸
植物根系
长非编码RNA
转录调控
作者
Xiaotong Chen,Zhaohui Chen,Ryan Watts,Ming Liu,Hong Luo
摘要
Noncoding RNAs (ncRNAs) play dominant roles in plant growth traits, involved in architecture shaping, reproductive timing and seed development. Increasing evidence shows that ncRNAs are versatile regulators that connect chromatin, transcriptional control, and post-transcriptional gene regulation to these developmental programs. This review synthesizes current understanding of ncRNA functions in plant growth and development across five modules: leaf and shoot development, root development, floral development, fleshy fruit development, and seed development. We integrate detailed mechanisms spanning microRNAs, small interfering RNAs, long noncoding RNAs, circular RNAs, and tRNA-derived fragments, with emphasis on how these ncRNAs influence developmental traits and their regulatory crosstalk. We also discuss opportunities for rational crop engineering by tuning endogenous ncRNA pathways and by introducing synthetic regulatory circuits. Collectively, the continued advances across multi-omic platforms and computational frameworks will refine our understanding of ncRNA regulatory landscapes, providing opportunities to enhance the design of agriculturally versatile crops.
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