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Mammals with small populations do not exhibit larger genomes

Department of Biology paper tests the Drift-Barrier hypothesis to determine why genomes of species vary so much in size

Assistant Professor in the Department of Biology David Alvarez Ponce holds a molecule model.

Mammals with small populations do not exhibit larger genomes

Department of Biology paper tests the Drift-Barrier hypothesis to determine why genomes of species vary so much in size

Assistant Professor in the Department of Biology David Alvarez Ponce holds a molecule model.

Assistant Professor in the Department of Biology David Alvarez Ponce and his co-authors, Adam Roddy (Florida International University) and Scott Roy (San Francisco State University), recently published their paper in the high impact journal Molecular Biology and Evolution (impact factor 11).  Ponce initiated the project, and all three authors contributed equally to the work.

In this age of genomics, almost everyone has some appreciation of the importance of genomes. Despite the importance of genomes, major questions remain regarding how they evolve.  Among those unresolved questions is why genomes of species vary so much in size. One possible explanation is the Drift-Barrier hypothesis, which “proposes that large genomes tend to evolve in small populations due to inefficient selection. The data needed to test this hypothesis are challenging to obtain. Ponce and his colleagues made one of the first tests of this hypothesis using data for 199 species of mammals. Their analyses suggest that the hypothesis is not supported in mammals. 

Ponce was recently promoted to associate professor. His work on this paper was funded by his National Science Foundation (NSF) award. Besides the NSF grant that funded this study, Ponce is funded by NSF EPSCoR and the U.S. Fish and Wildlife Service. Published at the end of May, this paper is Ponce's fifth published so far in 2021, all of which are in high-impact journals.

Below is the abstract for Ponce's paper:

Genome size in cellular organisms varies by six orders of magnitude, yet the cause of this large variation remains unexplained. The influential Drift-Barrier Hypothesis proposes that large genomes tend to evolve in small populations due to inefficient selection. However, to our knowledge, no explicit tests of the Drift-Barrier Hypothesis have been reported. We performed the first explicit test, by comparing estimated census population size and genome size in mammals while incorporating potential covariates and the effect of shared evolutionary history. We found a lack of correlation between census population size and genome size among 199 species of mammals. These results suggest that population size is not the predominant factor influencing genome size and that the Drift-Barrier Hypothesis should be considered provisional.

 

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