Evolutionary genomics of host-transposon conflict, multilevel selection, and Red Queen dynamics
Evolutionary genomics of host-transposon conflict, multilevel selection, and Red Queen dynamics
Parija, M.; Patra, S.; Dahanukar, N.
AbstractTransposable elements (TE) jump from one genomic locus to another. Since increase in their copy number is a metabolic burden for the host, TE are considered as genomic parasites. Although host-TE co-existence is regarded as an evolutionary arms race, the hypothesis is not extensively tested especially using evolutionary genomics. We provide a hypothesis testing framework to understand the distribution of TE in genic regions of the host genome, variation in the regulation of TE by host, and effect of these two factors on host-TE co-evolutionary dynamics. We test our hypothesis by understanding the distributions of potentially active TEs in the genome of 78 teleost fishes, representing major families and orders within the clade. Our analysis reveals coevolutionary arms race predicted by the Red Queen dynamics.