Metabolic Flux of N10-Formyltetrahydrofolate Plays a Critical Role in the Fidelity of Translation Initiation in Escherichia coli.

One-carbon metabolism produces methionine and N10-formyl-tetrahydrofolate (N10-fTHF) required for aminoacylation and formylation of initiator tRNA (i-tRNA), respectively. In Escherichia coli, N10-fTHF is made from 5, 10-methylene-THF by a two-step reaction using 5,10-methylene-THF dehydrogenase/cyclohydrolase (FolD). The i-tRNAs from all domains of life possess a highly conserved sequence of three consecutive G-C base pairs (3GC pairs) in their anticodon stem. A 3GC mutant i-tRNA (wherein the 3GC pairs are mutated to those found in elongator tRNAMet) is incompetent in initiation in E. coli (even though it is efficiently aminoacylated and formylated). Here, we show that E. coli strains having mutations in FolD (G122D or C58Y or P140L) allow a plasmid encoded 3GC mutant i-tRNA to participate in initiation. In vitro, the FolD mutants are highly compromised in their dehydrogenase/cyclohydrolase activities leading to reduced production of N10-fTHF and decreased rates of i-tRNA formylation. The perturbation of one-carbon metabolism by trimethoprim (inhibitor of dihydrofolate reductase) phenocopies FolD deficiency and allows initiation with the 3GC mutant i-tRNA. This study reveals an important crosstalk between one-carbon metabolism and the fidelity of translation initiation via formylation of i-tRNA, and suggests that augmentation of the age old sulfa drugs with FolD inhibitors could be an important antibacterial strategy. Copyright © 2020 Elsevier Ltd. All rights reserved.

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Kuldeep Lahry, Aiswarya Gopal, Shivjee Sah, Riyaz Ahmad Shah, Umesh Varshney. Metabolic Flux of N10-Formyltetrahydrofolate Plays a Critical Role in the Fidelity of Translation Initiation in Escherichia coli. Journal of molecular biology. 2020 Sep 04;432(19):5473-5488

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PMID: 32795532

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