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- Title
Examining the Effects of Temperature on the Evolution of Bacterial tRNA Pools.
- Authors
Jain, Vatsal; Cope, Alexander L
- Abstract
The genetic code consists of 61 codons coding for 20 amino acids. These codons are recognized by transfer RNAs (tRNAs) that bind to specific codons during protein synthesis. All organisms utilize less than all 61 possible anticodons due to base pair wobble: the ability to have a mismatch with a codon at its third nucleotide. Previous studies observed a correlation between the tRNA pool of bacteria and the temperature of their respective environments. However, it is unclear if these patterns represent biological adaptations to maintain the efficiency and accuracy of protein synthesis in different environments. A mechanistic mathematical model of mRNA translation is used to quantify the expected elongation rates and error rate for each codon based on an organism's tRNA pool. A comparative analysis across a range of bacteria that accounts for covariance due to shared ancestry is performed to quantify the impact of environmental temperature on the evolution of the tRNA pool. We find that thermophiles generally have more anticodons represented in their tRNA pool than mesophiles or psychrophiles. Based on our model, this increased diversity is expected to lead to increased missense errors. The implications of this for protein evolution in thermophiles are discussed.
- Subjects
TRANSFER RNA; GENETIC code; BACTERIAL evolution; BIOLOGICAL adaptation; TEMPERATURE effect; BASE pairs; GENETIC translation
- Publication
Genome Biology & Evolution, 2024, Vol 16, Issue 6, p1
- ISSN
1759-6653
- Publication type
Article
- DOI
10.1093/gbe/evae116