Comparative Analyses of Selection Operating on Nontranslated Intergenic Regions of Diverse Bacterial Species

Thorpe, Harry A.; Bayliss, Sion C.; Hurst, Laurence D.; Feil, Edward J.

doi:10.1534/genetics.116.195784

Cited by 66 publications

(71 citation statements)

References 59 publications

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“…Selection has historically been thought to act largely on amino acid changes in coding sequences; however, recently it has been shown that IGRs, which account for ~15% of microbial genomes, may also be acted upon by selection (Thorpe et al, 2017). Further, parallel evolution has also been observed among longitudinal intrahost samples of P. aeruginosa from CF infection (Khademi and Jelsbak, 2017).…”

Section: Discussionmentioning

confidence: 99%

Long-term intrahost evolution of methicillin resistant Staphylococcus aureus among cystic fibrosis patients with respiratory carriage

Azarian

Ridgway

Zhen

et al. 2019

Preprint

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Staphylococcus aureus is the most commonly identified airway colonizer of cystic fibrosis (CF) patients, and infections with methicillin-resistant S. aureus (MRSA) are associated with poor outcomes. Yet, little is known about the intrahost evolution of S. aureus among CF patients. We investigated convergent evolution and adaptation of MRSA among four CF patients with longterm respiratory carriage. For each patient, we performed whole-genome sequencing on an average of 21 isolates (range: 19-23) carried for a mean of 1,403 days (range: 903-1,679), including 25 pairs of isolates collected on the same day. We then assessed intrahost diversity, population structure, evolutionary history, and signatures of adaptation in the context of patient age, antibiotic treatment, and co-colonizing microbes. We conducted tests of gene-wide diversifying selection and identified instances of switched intergenic regions (IGRs), which may be associated with gene expression. Phylogenetic analysis delineated distinct multilocus sequence type ST5 (n=3) and ST72 (n=1) clonal populations in addition to sporadic, non-clonal isolates, and uncovered a putative transmission event. Variation in antibiotic resistance was observed within clonal populations, even among isolates collected on the same day. Coalescent analysis revealed rates of molecular evolution ranging from 2.21 to 8.64 nucleotide polymorphisms per genome per year. Estimated lineage ages were consistent with acquisition of colonization in early childhood and subsequent persistence of multiple sub-populations. Selection analysis focused on 1,622 core genes shared by all four clonal populations (n=79). Eleven genes were variable in three subjects -most notable, ATP-dependent protease clpX, 2-oxoglutarate dehydrogenase odhA, fmtC, and transcription-repair coupling factor mfd. Only one gene, staphylococcal protein A (spa), was found to have evidence of gene-wide diversifying selection. We identified three instances of intrahost IGR switching events, two of which flanked genes related to quorum sensing. The ecology of microbes in the airways of CF patients is undeniably complex, posing challenges for management. We illustrate appreciable intrahost diversity as well as persistence of a dominant lineage. We also show that intrahost adaptation is a continual process, despite purifying selective pressure, and provide targets that should be investigated further for their function in CF adaptation. Contribution to the FieldStaphylococcus aureus is the most commonly identified airway colonizer of cystic fibrosis (CF) patients, and infections with methicillin-resistant S. aureus (MRSA) are associated with poor outcomes. Yet, little is known about the intrahost evolution of S. aureus among CF patients. We investigated convergent evolution and adaptation of MRSA among four CF patients with longterm respiratory carriage. We found that each patient possessed a single predominant strain in addition to transient non-clonal isolates. Considerable genomic diversity was observed among intrahost popula...

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Section: Discussionmentioning

confidence: 99%

Long-term intrahost evolution of methicillin resistant Staphylococcus aureus among cystic fibrosis patients with respiratory carriage

Azarian

Ridgway

Zhen

et al. 2019

Preprint

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“…This implies, from the rate at which non-synonymous mutations accumulate relative to synonymous mutations, that δ n = 0.6. A recent analysis of intergenic regions in several species of bacteria has concluded that selection is weaker in intergenic regions than at non-synonymous sites, we therefore assume that δ i = 0.8 (30). Using these estimates suggests that selection leads us to an underestimate of the true mutation rate per year in the wild by ~27%; this in turn means we have underestimated the DT by ~27%, a relatively small effect.…”

Section: Discussionmentioning

confidence: 99%

The Distribution of Bacterial Doubling Times in the Wild

Gibson

Wilson

Feil

et al. 2017

Preprint

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Generation time varies widely across organisms and is an important factor in the life cycle, life history and evolution of organisms. Although the doubling time (DT), has been estimated for many bacteria in the lab, it is nearly impossible to directly measure it in the natural environment. However, an estimate can be obtained by measuring the rate at which bacteria accumulate mutations per year in the wild and the rate at which they mutate per generation in the lab. If we assume the mutation rate per generation is the same in the wild and in the lab, and that all mutations in the wild are neutral, an assumption that we show is not very important, then an estimate of the DT can be obtained by dividing the latter by the former. We estimate the DT for four species of bacteria for which we have both an accumulation and a mutation rate estimate. We also infer the distribution of DTs across all bacteria from the distribution of the accumulation and mutation rates. Both analyses suggest that DTs for bacteria in the wild are substantially greater than those in the lab, that they vary by orders of magnitude between different species of bacteria and that a substantial fraction of bacteria double very slowly in the wild.

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“…Due to computational limitations (BEAST analyses), we necessarily took measures to limit our data set to <600 isolates. For countries with large numbers of available genomes, we implemented a subsampling strategy similar one previously described (Thorpe, Bayliss, Hurst, & Feil, ), whereby phylogenetic lineage diversity was captured thus minimizing the overrepresentation of clonal complexes (e.g., outbreaks): phylogenetic inference on all isolates available from a country was performed with Fasttree (Price, Dehal, & Arkin, ) and a random isolate was selected from each clade extending from n branches, where n was the desired number of isolates from the country. Numbers of isolates per country were selected based on the availability of appropriate genome sequence data as well as TB prevalence (Figure ) (World Health Organization, ).…”

Section: Methodsmentioning

confidence: 99%

Lineage specific histories of Mycobacterium tuberculosis dispersal in Africa and Eurasia

et al. 2019

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Mycobacterium tuberculosis ( M.tb ) is a globally distributed, obligate pathogen of humans that can be divided into seven clearly defined lineages. An emerging consensus places the origin and global dispersal of M.tb within the past 6,000 years: identifying how the ancestral clone of M.tb spread and differentiated within this timeframe is important for identifying the ecological drivers of the current pandemic. We used Bayesian phylogeographic inference to reconstruct the migratory history of M.tb in Africa and Eurasia and to investigate lineage specific patterns of spread from a geographically diverse sample of 552 M.tb genomes. Applying evolutionary rates inferred with ancient M.tb genome calibration, we estimated the timing of major events in the migratory history of the pathogen. Inferred timings contextualize M.tb dispersal within historical phenomena that altered patterns of connectivity throughout Africa and Eurasia: trans‐Indian Ocean trade in spices and other goods, the Silk Road and its predecessors, the expansion of the Roman Empire, and the European Age of Exploration. We found that Eastern Africa and Southeast Asia have been critical in the dispersal of M.tb . Our results further reveal that M.tb populations have grown through range expansion, as well as in situ, and delineate the independent evolutionary trajectories of bacterial subpopulations underlying the current pandemic.

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Comparative Analyses of Selection Operating on Nontranslated Intergenic Regions of Diverse Bacterial Species

Cited by 66 publications

References 59 publications

Long-term intrahost evolution of methicillin resistant Staphylococcus aureus among cystic fibrosis patients with respiratory carriage

Long-term intrahost evolution of methicillin resistant Staphylococcus aureus among cystic fibrosis patients with respiratory carriage

The Distribution of Bacterial Doubling Times in the Wild

Lineage specific histories of Mycobacterium tuberculosis dispersal in Africa and Eurasia

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