Horizontal gene transfer potentiates adaptation by reducing selective constraints on the spread of genetic variation
Laura C. Woods, Rebecca J. Gorrell, F. Ë. Taylor, Tim Connallon, Terry Kwok, Michael J. McDonald
Abstract
We find that HGT increases the rate of adaptation, with most horizontally transferred genetic variants establishing at a low frequency in the population. When challenged with antibiotic, this low-level variation potentiates adaptation, with HGT populations flourishing in conditions where nonpotentiated populations go extinct. By extending previous models of evolution under HGT, we evaluated the conditions for the establishment and spread of HGT-acquired alleles into recipient populations. We then used our model to estimate parameters of HGT and selection from our experimental evolution data. Together, our findings show how HGT can act as an evolutionary force that facilitates the spread of nonselected genetic variation and expands the adaptive potential of microbial populations.