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Heterotypic transcriptional condensates formed by prion-like paralogous proteins canalize flowering transition in tomato

生物 基因 稳健性(进化) 遗传学 突变体 基因复制 分生组织 转录调控 表型 拟南芥 计算生物学 转录因子
作者
Xiaozhen Huang,Nan Xiao,Yu-Pan Zou,Yue Xie,Lingli Tang,Yueqin Zhang,Yuan Yu,Yiting Li,Xu Cao
出处
期刊:Genome Biology [BioMed Central]
卷期号:23 (1) 被引量:32
标识
DOI:10.1186/s13059-022-02646-6
摘要

Abstract Background Paralogs that arise from gene duplications during genome evolution enable genetic redundancy and phenotypic robustness. Variation in the coding or regulatory sequence of paralogous transcriptional regulators diversifies their functions and relationships, which provides developmental robustness against genetic or environmental perturbation. The fate transition of plant shoot stem cells for flowering and reproductive success requires a robust transcriptional control. However, how paralogs function and interact to achieve such robustness is unknown. Results Here, we explore the genetic relationship and protein behavior of ALOG family transcriptional factors with diverse transcriptional abundance in shoot meristems. A mutant spectrum covers single and higher-order mutant combinations of five ALOG paralogs and creates a continuum of flowering transition defects, showing gradually enhanced precocious flowering, along with inflorescence simplification from wild-type-like to progressively fewer flowers until solitary flower with sterile floral organs. Therefore, these paralogs play unequal roles and act together to achieve a robust genetic canalization. All five proteins contain prion-like intrinsically disordered regions (IDRs) and undergo phase separation. Accumulated mutations following gene duplications lead to IDR variations among ALOG paralogs, resulting in divergent phase separation and transcriptional regulation capabilities. Remarkably, they retain the ancestral abilities to assemble into a heterotypic condensate that prevents precocious activation of the floral identity gene ANANTHA . Conclusions Our study reveals a novel genetic canalization mechanism enabled by heterotypic transcriptional condensates formed by paralogous protein interactions and phase separation, uncovering the molecular link between gene duplication caused IDR variation and robust transcriptional control of stem cell fate transition.
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