Singh Jitendra, Varshney Umesh
Department of Microbiology and Cell Biology, Indian Institute of Science, Bangalore, India.
Jawaharlal Nehru Centre for Advanced Scientific Research, Bangalore, India.
IUBMB Life. 2025 Jan;77(1):e2927. doi: 10.1002/iub.2927. Epub 2024 Nov 23.
Initiation factors play critical roles in fine-tuning translation initiation, which is the first and the rate-limiting step in protein synthesis. In bacteria, initiation factors, IF1, IF2 and IF3 work in concert to accurately position the initiator tRNA (i-tRNA) in its formyl-aminoacyl form, and the mRNA start codon at the ribosomal P-site, setting the stage for accommodation of the aminoacyl-tRNA in response to the second codon, and formation of the first peptide bond. Among these, IF3 is particularly crucial in ensuring the fidelity of translation initiation as it is involved in the accuracy of the selection of i-tRNA and the start codon. The two-domains (N- and C-terminal) dumbbell shaped structure and dynamics of IF3 significantly influence its fidelity function. This review explores how the N- and C-terminal domains of IF3 communicate with each other and how their interaction with i-tRNA helps to maintain the fidelity of translation initiation.
起始因子在精确调控翻译起始过程中发挥着关键作用,翻译起始是蛋白质合成的第一步且是限速步骤。在细菌中,起始因子IF1、IF2和IF3协同作用,将起始tRNA(i-tRNA)精确地定位为甲酰化氨基酰形式,并将mRNA起始密码子定位在核糖体P位点,为响应第二个密码子接纳氨基酰-tRNA以及形成第一个肽键做好准备。其中,IF3在确保翻译起始的保真度方面尤为关键,因为它参与了i-tRNA和起始密码子选择的准确性。IF3的双结构域(N端和C端)哑铃状结构及其动力学特性显著影响其保真功能。本综述探讨了IF3的N端和C端结构域如何相互沟通,以及它们与i-tRNA的相互作用如何有助于维持翻译起始的保真度。
