Physiological significance of the two isoforms of initiator tRNAs in Escherichia coli

Amit Kumar Sahu, Riyaz Ahmad Shah, Divya Nashier, Prafful Sharma, Rajagopal Varada, Kuldeep Lahry, Sudhir Singh, Sunil Shetty, Tanweer Hussain, Umesh Varshney

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningpeer review

Abstract

Escherichia coli possesses four initiator tRNA (i-tRNA) genes, three of which are present together as metZWV and the fourth one as metY. In E. coli B, all four genes (metZWV and metY) encode i-tRNAfMet1, in which the G at position 46 is modified to m7G46 by TrmB (m7G methyltransferase). However, in E. coli K, because of a single-nucleotide polymorphism, metY encodes a variant, i-tRNAfMet2, having an A in place of m7G46. We generated E. coli strains to explore the importance of this polymorphism in i-tRNAs. The strains were sustained either on metYA46 (metY of E. coli K origin encoding i-tRNAfMet2) or its derivative metYG46 (encoding i-tRNAfMet1) in single (chromosomal) or plasmid-borne copies. We show that the strains sustained on i-tRNAfMet1 have a growth fitness advantage over those sustained on i-tRNAfMet2. The growth fitness advantages are more pronounced for the strains sustained on i-tRNAfMet1 in nutrient-rich media than in nutrient-poor media. The growth fitness of the strains correlates well with the relative stabilities of the i-tRNAs in vivo. Furthermore, the atomistic molecular dynamics simulations support the higher stability of i-tRNAfMet1 than that of i-tRNAfMet2. The stability of i-tRNAfMet1 remains unaffected upon the deletion of TrmB. These studies highlight how metYG46 and metYA46 alleles might influence the growth fitness of E. coli under certain nutrient-limiting conditions.
OriginalsprogEngelsk
TidsskriftJournal of Bacteriology
Vol/bind206
Udgave nummer9
Antal sider17
ISSN0021-9193
DOI
StatusUdgivet - 2024

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