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The role of clonal interference across genetic backgrounds and environments
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Resumo(s)
The study of adaptation in microorganisms has led to a significant
expansion in knowledge at many biological levels, ranging from biochemistry and
genetics, to ecology and demography. Experimental evolution, in particular, has
been invaluable at elucidating how complex the adaptive dynamics in microbial
populations can be. One of the most fundamental characteristics of these
dynamics is the distribution of beneficial mutations driving the adaptive process.
How often do microorganisms acquire these mutations? And what are their
expected effects? These questions have been at the heart of evolutionary biology
from the very beginning, and the studies that have tackled these difficult issues
have been tremendously enlightening about adaptive processes. However, the
increasing awareness of the complexity of the environment where microorganisms
live requires constant development of new approaches to answer these
fundamental questions about their evolution. Large population sizes lead to
increased levels of clonal interference, and thus to a deviation from the expected
outcome in classical regimes of periodic selection. Genetic variation within an
evolving population, which is now easily detected by sequencing technologies, can
create complex interactions between phenotypes. Environments with antagonistic
biotic interactions, pose very different selective pressures from the ones
experienced when a species grows alone. All these factors influence adaptation in
microorganisms and, importantly, drive the pathogenicity traits that create severe
clinical and epidemiological problems.
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Biology