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Molecular and evolutionary processes generating variation in gene expression

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  • UserDr Patricia Wittkopp, Biological Science Building, University of Michigan
  • ClockThursday 18 February 2021, 14:00-15:00
  • HouseZoom meeting.

If you have a question about this talk, please contact Caroline Newnham.

Host: Frank Jiggins

Genetic variation affecting gene expression is wide-spread within and among species. This variation reflects the combined actions of mutation introducing new genetic variants and selection eliminating deleterious ones. Comparative studies of gene expression in fruit flies, yeast, plants, and mice have shown that the relative contributions of cis- and trans-acting variants to expression differences change over evolutionary time, indicating that selection has different effects on cis- and trans-regulatory variants. To better understand the reasons for this now widely observed pattern, we have been systematically studying the effects of mutation and selection on expression of the TDH3 gene of the baker’s yeast Saccharomyces cerevisiae. This work has revealed differences between cis- and trans-regulatory mutations in their frequency, effects, and dominance. Differences in pleiotropy are also generally assumed to exist between cis- and trans-regulatory that affect their evolutionary fate, but have been difficult to measure. In this talk, I will discuss how newly arising cis- and trans-regulatory mutations affecting expression of this focal gene are structured within the regulatory network, their pleiotropic effects on expression of all other genes in the genome, and how these pleiotropic effects influence fitness.

This talk is part of the Genetics Seminar series.

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