Life-history traits may affect DNA mutation rates in males more than in females
For the first time, scientists have used large-scale DNA sequencing data to investigate a long-standing evolutionary assumption: DNA mutation rates are influenced by a set of species-specific life-history traits. These traits include metabolic rate and the interval of time between an individual's birth and the birth of its offspring, known as generation time. The team of researchers led by Kateryna Makova, a Penn State University associate professor of biology, and first author Melissa Wilson Sayres, a graduate student, used whole-genome sequence data to test life-history hypotheses for 32 mammalian species, including humans. For each species, they studied the mutation rate, estimated by the rate of substitutions in neutrally evolving DNA segments -- chunks of genetic material that are not subject to natural selection. They then correlated their estimations with several indicators of life history. The results of the research will be published in the journal Evolution on 13 June 2011.