期刊
AMERICAN NATURALIST
卷 198, 期 1, 页码 93-112出版社
UNIV CHICAGO PRESS
DOI: 10.1086/714530
关键词
bacteria; correlated responses; genetic architecture; metabolism; mutation; pleiotropy
资金
- National Science Foundation [DEB-1951307]
- BEACON Center for the Study of Evolution inAction [DBI-0939454]
- USDA National Institute of Food and Agriculture [MICL02253]
Unused traits in a given environment may erode due to lack of pressure, resulting in reduced fitness in other environments. The genetic architecture and correlations with other traits may play a role in determining evolutionary outcomes.
Traits that are unused in a given environment are subject to processes that tend to erode them, leading to reduced fitness in other environments. Although this general tendency is clear, we know much less about why some traits are lost while others are retained and about the roles of mutation and selection in generating different responses. We addressed these issues by examining populations of a facultative anaerobe, Escherichia coli, that have evolved for >30 years in the presence of oxygen, with relaxed selection for anaerobic growth and the associated metabolic plasticity. We asked whether evolution led to the loss, improvement, or maintenance of anaerobic growth, and we analyzed gene expression and mutational data sets to understand the outcomes. We identified genomic signatures of both positive and purifying selection on aerobic-specific genes, while anaerobic-specific genes showed clear evidence of relaxed selection. We also found parallel evolution at two interacting loci that regulate anaerobic growth. We competed the ancestor and evolved clones from each population in an anoxic environment, and we found that anaerobic fitness had not decayed, despite relaxed selection. In summary, relaxed selection does not necessarily reduce an organism's fitness in other environments. Instead, the genetic architecture of the traits under relaxed selection and their correlations with traits under positive and purifying selection may sometimes determine evolutionary outcomes.
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