MicroRNA-mediated gene regulation and the resilience of multicellular animals

Victor Ambros
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Abstract

MicroRNAs are small RNAs that enable parts of the genome to regulate the other parts of the genome by RNA::RNA complementarity. Genes that encode microRNAs function as trans-acting regulators of hundreds of other genes, primarily by inhibiting the production of protein from mRNAs to which the microRNAs can bind by base pairing. MicroRNAs and their Argonaute partner proteins constitute a regulatory complex (the miRISC) that exhibits astonishing regulatory versatility. microRNAs have been shown to perform diverse roles in genetic regulatory networks (GRNs) – to control developmental switches, to dampen gene expression noise, to coordinate multigene functional modules, and more broadly, to confer robustness and resilience to developmental and homeostatic processes. Genetic analysis reveals that the function of particular microRNAs can be conditional, such that the microRNA is required under particular environmental or physiological conditions, but relatively dispensable under other conditions. The diversity and versatility of microRNA function in animal systems reflects the many ways that miRISC can be regulated by cellular signaling pathways, and the structure-function interplay among microRNA, target, and Argonaute. 
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微RNA介导的基因调控与多细胞动物的恢复能力
微小RNA是一种小型RNA,通过RNA::RNA互补,使基因组的一部分能够调节基因组的其他部分。编码 microRNAs 的基因是数百个其他基因的反式调节因子,主要通过碱基配对抑制与 microRNAs 结合的 mRNAs 产生蛋白质。microRNAs 及其 Argonaute 伙伴蛋白构成了一个调控复合体(miRISC),表现出惊人的调控多功能性。microRNAs 已被证明在遗传调控网络(GRNs)中发挥多种作用--控制发育开关、抑制基因表达噪音、协调多基因功能模块,以及更广泛地赋予发育和平衡过程以稳健性和复原力。遗传分析表明,特定 microRNA 的功能可能是有条件的,例如在特定环境或生理条件下需要这种 microRNA,但在其他条件下则相对可有可无。动物系统中 microRNA 功能的多样性和多功能性反映了细胞信号通路调节 miRISC 的多种方式,以及 microRNA、靶标和 Argonaute 之间的结构-功能相互作用。
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