The pseudoentropy of allele frequency trajectories, the persistence of variation, and the effective population size
Vellnow N, Goßmann T, Waxman D (2024)
BioSystems: 105176.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Abstract / Bemerkung
To concisely describe how genetic variation, at individual loci or across whole genomes, changes over time, and to follow transitory allelic changes, we introduce a quantity related to entropy, that we term pseudoentropy. This quantity emerges in a diffusion analysis of the mean time a mutation segregates in a population. For a neutral locus with an arbitrary number of alleles, the mean time of segregation is generally proportional to the pseudoentropy of initial allele frequencies. After the initial time point, pseudoentropy generally decreases, but other behaviours are possible, depending on the genetic diversity and selective forces present.
For a biallelic locus, pseudoentropy and entropy coincide, but they are distinct quantities with more than two alleles. Thus for populations with multiple biallelic loci, the language of entropy suffices. Then entropy, combined across loci, serves as a concise description of genetic variation. We used individual based simulations to explore how this entropy behaves under different evolutionary scenarios. In agreement with predictions, the entropy associated with unlinked neutral loci decreases over time. However, deviations from free recombination and neutrality have clear and informative effects on the entropy’s behaviour over time.
Analysis of publicly available data of a natural D. melanogaster population, that had been sampled over seven years, using a sliding-window approach, yielded considerable variation in entropy trajectories of different genomic regions. These mostly follow a pattern that suggests a substantial effective population size and a limited effect of positive selection on genome-wide diversity over short time scales.
Erscheinungsjahr
2024
Zeitschriftentitel
BioSystems
Art.-Nr.
105176
ISSN
03032647
Page URI
https://pub.uni-bielefeld.de/record/2987704
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Vellnow N, Goßmann T, Waxman D. The pseudoentropy of allele frequency trajectories, the persistence of variation, and the effective population size. BioSystems. 2024: 105176.
Vellnow, N., Goßmann, T., & Waxman, D. (2024). The pseudoentropy of allele frequency trajectories, the persistence of variation, and the effective population size. BioSystems, 105176. https://doi.org/10.1016/j.biosystems.2024.105176
Vellnow, Nikolas, Goßmann, Toni, and Waxman, David. 2024. “The pseudoentropy of allele frequency trajectories, the persistence of variation, and the effective population size”. BioSystems: 105176.
Vellnow, N., Goßmann, T., and Waxman, D. (2024). The pseudoentropy of allele frequency trajectories, the persistence of variation, and the effective population size. BioSystems:105176.
Vellnow, N., Goßmann, T., & Waxman, D., 2024. The pseudoentropy of allele frequency trajectories, the persistence of variation, and the effective population size. BioSystems, : 105176.
N. Vellnow, T. Goßmann, and D. Waxman, “The pseudoentropy of allele frequency trajectories, the persistence of variation, and the effective population size”, BioSystems, 2024, : 105176.
Vellnow, N., Goßmann, T., Waxman, D.: The pseudoentropy of allele frequency trajectories, the persistence of variation, and the effective population size. BioSystems. : 105176 (2024).
Vellnow, Nikolas, Goßmann, Toni, and Waxman, David. “The pseudoentropy of allele frequency trajectories, the persistence of variation, and the effective population size”. BioSystems (2024): 105176.