AI Article Synopsis
- The study focused on introducing single mutations into the rplC and rpsJ genes in Bacillus subtilis, affecting essential ribosomal proteins L3 and S10.
- The L3 G52D mutation led to accumulation of the 30S ribosomal subunit at high temperatures and reduced sporulation efficiency.
- The S10 H56R mutation resulted in severe growth issues, decreased spore formation, and delayed development of competence in the mutants.
Article Abstract
We introduced single mutations into the rplC and rpsJ genes, which encode the essential ribosomal proteins L3 (RplC) and S10 (RpsJ), respectively, and are located in the S10 gene cluster of the gram-positive, endospore-forming bacterium Bacillus subtilis, and examined whether these mutations affected their growth rate, sporulation, competence development and 70S ribosome formation. Mutant cells harboring the G52D mutation in the L3 ribosomal protein, which is located at the peptidyl transferase center of 50S, accumulated 30S subunit at 45°C, probably due to a defect in 50S formation, and exhibited a reduction in the sporulation frequency at high temperature. On the other hand, mutant cells harboring the H56R mutation in the S10 protein, which is located near the aminoacyl-tRNA site of 30S, showed severe growth defect and deficiency in spore formation, and also exhibited significant delay in competence development.
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| http://dx.doi.org/10.2323/jgam.59.105 | DOI Listing |
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