Figure S11. Association between genome size and pan-genome size. Genome sizes represent averages a across all sequenced strains for a given species and pan-genome sizes were calculated as the total number of protein families normalized by the number of strains of a given each species. (PDF 138 kb
Table S3. Principal component analysis statistics of the quantitative variables used in the study. ...
Figure S14. Correlation between dS/dN and intergenic DNA. For each species, dS/dN ratios were estima...
For more than a decade, pan-genome analysis has been applied as an effective method for explaining t...
Figure S10. Association between Ne and pan-genome size, adjusted for sample size (Spearman’s rho = 0...
Figure S9. Association between pan-genome size and Ne for each lifestyle category. Pan-genome size f...
Figure S7. Correlation between genome size, pan-genome size, and effective population sizes as compu...
Figure S8. Correlation between genome size and Ne for each lifestyle category. Genome size for a giv...
Table S2. Correlation statistics between Ne and genome or pan-genome size for each lifestyle categor...
Figure S3. Association between bacterial lifestyle and effective population size, as computed from s...
Figure S6. Impact of recombination on estimates of effective population size. Relationship between r...
Figure S1. Correspondence between Ne estimated from universally distributed genes and from the compl...
Figure S13. Correlation between gene turnover and effective population size. A. Gene turnover, T, wa...
Figure S4. Correlation between growth rate and effective population size computed from species’ core...
Table S5. Minimum doubling times of each species and corresponding references. (DOCX 217 kb
Figure S2. Correlation between phylogenetic distance and Ne dissimilarity. Phylogenetic distances fo...
Table S3. Principal component analysis statistics of the quantitative variables used in the study. ...
Figure S14. Correlation between dS/dN and intergenic DNA. For each species, dS/dN ratios were estima...
For more than a decade, pan-genome analysis has been applied as an effective method for explaining t...
Figure S10. Association between Ne and pan-genome size, adjusted for sample size (Spearman’s rho = 0...
Figure S9. Association between pan-genome size and Ne for each lifestyle category. Pan-genome size f...
Figure S7. Correlation between genome size, pan-genome size, and effective population sizes as compu...
Figure S8. Correlation between genome size and Ne for each lifestyle category. Genome size for a giv...
Table S2. Correlation statistics between Ne and genome or pan-genome size for each lifestyle categor...
Figure S3. Association between bacterial lifestyle and effective population size, as computed from s...
Figure S6. Impact of recombination on estimates of effective population size. Relationship between r...
Figure S1. Correspondence between Ne estimated from universally distributed genes and from the compl...
Figure S13. Correlation between gene turnover and effective population size. A. Gene turnover, T, wa...
Figure S4. Correlation between growth rate and effective population size computed from species’ core...
Table S5. Minimum doubling times of each species and corresponding references. (DOCX 217 kb
Figure S2. Correlation between phylogenetic distance and Ne dissimilarity. Phylogenetic distances fo...
Table S3. Principal component analysis statistics of the quantitative variables used in the study. ...
Figure S14. Correlation between dS/dN and intergenic DNA. For each species, dS/dN ratios were estima...
For more than a decade, pan-genome analysis has been applied as an effective method for explaining t...