Bacteria with functional DNA repair systems are expected to have low mutation rates due to strong natural selection for genomic stability.However,our study of the wild-type Streptococcus pneumoniae D39,a pathogen resp...Bacteria with functional DNA repair systems are expected to have low mutation rates due to strong natural selection for genomic stability.However,our study of the wild-type Streptococcus pneumoniae D39,a pathogen responsible for many common diseases,revealed a high spontaneous mutation rate of 0.02 per genome per cell division in mutation-accumulation(MA)lines.This rate is orders of magnitude higher than that of other non-mutator bacteria and is characterized by a high mutation bias in the A/T direction.The high mutation rate may have resulted from a reduction in the overall efficiency of selection,conferred by the tiny effective population size in nature.In line with this,S.pneumoniae D39 also exhibited the lowest DNA mismatch-repair(MMR)efficiency among bacteria.Treatment with the antibiotic penicillin did not elevate the mutation rate,as penicillin did not induce DNA damage and S.pneumoniae lacks a stress response pathway.Our findings suggested that the MA results are applicable to within-host scenarios and provide insights into pathogen evolution.展开更多
Due to technical errors,Ho-Ching T.Tsui and Malcolm E.Winkler,both collaborators who made substantial contributions to this work and were previously acknowledged,did not receive emails regarding authorship consent and...Due to technical errors,Ho-Ching T.Tsui and Malcolm E.Winkler,both collaborators who made substantial contributions to this work and were previously acknowledged,did not receive emails regarding authorship consent and were inadvertently omitted from the author list.We have now rectified this oversight and added them to the author list.展开更多
基金financially supported by Laoshan Laboratory(LSKJ202203203)the National Natural Science Founda-tion of China(31961123002,32270435)+4 种基金the Fundamental Research Funds for the Central Universities of China(202041001)the Shan-dong Provincial Natural Science Foundation(ZR2023QC191)the Postdoctoral Fellowship Program of CPSF under Grant Number GZC20232504the Multidisciplinary University Research Initiative Award from the US Army Research Office(W911NF-09-1-0444)National Institutes of Health award(R35-GM122566 to ML)and(R35-GM131767 to MEW).
文摘Bacteria with functional DNA repair systems are expected to have low mutation rates due to strong natural selection for genomic stability.However,our study of the wild-type Streptococcus pneumoniae D39,a pathogen responsible for many common diseases,revealed a high spontaneous mutation rate of 0.02 per genome per cell division in mutation-accumulation(MA)lines.This rate is orders of magnitude higher than that of other non-mutator bacteria and is characterized by a high mutation bias in the A/T direction.The high mutation rate may have resulted from a reduction in the overall efficiency of selection,conferred by the tiny effective population size in nature.In line with this,S.pneumoniae D39 also exhibited the lowest DNA mismatch-repair(MMR)efficiency among bacteria.Treatment with the antibiotic penicillin did not elevate the mutation rate,as penicillin did not induce DNA damage and S.pneumoniae lacks a stress response pathway.Our findings suggested that the MA results are applicable to within-host scenarios and provide insights into pathogen evolution.
文摘Due to technical errors,Ho-Ching T.Tsui and Malcolm E.Winkler,both collaborators who made substantial contributions to this work and were previously acknowledged,did not receive emails regarding authorship consent and were inadvertently omitted from the author list.We have now rectified this oversight and added them to the author list.
