Publications by authors named "Samantha R Smith"
Species within the genus are adept at sharing adaptive allelic variation, with commensal species repeatedly transferring resistance to their pathogenic relative . However, resistance in commensals is infrequently characterized, limiting our ability to predict novel and potentially transferable resistance mechanisms that ultimately may become important clinically. Unique evolutionary starting places of each species will have distinct genomic backgrounds, which may ultimately control the fate of evolving populations in response to selection as epistatic and additive interactions coerce lineages along divergent evolutionary trajectories.
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- Species in the genus can share adaptive genetic variations, allowing certain commensal species to pass on resistance traits to their pathogenic relatives.
- Resistance in these commensal species is not well understood at both the physical traits and genetic levels, making it hard to predict new resistance mechanisms that could have clinical significance.
- Research on four commensal species showed that after 20 days of exposure to two antibiotics, most evolved increased resistance through specific mutations, suggesting that while different species start with unique genetic backgrounds, their paths to developing resistance may be constrained by shared genetic features.