Family quarrels in seeds and rapid adaptive evolution in Arabidopsis

Evolutionary conflict can drive rapid adaptive evolution, some-times called an arms race, because each party needs to respond continually to the adaptations of the other. Evidence for such arms races can sometimes be seen in morphology, in behavior, or in the genes underlying sexual interactions of...

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Published inProceedings of the National Academy of Sciences - PNAS Vol. 116; no. 19; pp. 9463 - 9468
Main Authors Geist, Katherine S., Strassmann, Joan E., Queller, David C.
Format Journal Article
LanguageEnglish
Published United States National Academy of Sciences 07.05.2019
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Summary:Evolutionary conflict can drive rapid adaptive evolution, some-times called an arms race, because each party needs to respond continually to the adaptations of the other. Evidence for such arms races can sometimes be seen in morphology, in behavior, or in the genes underlying sexual interactions of host−pathogen interactions, but is rarely predicted a priori. Kin selection theory predicts that conflicts of interest should usually be reduced but not eliminated among genetic relatives, but there is little evidence as to whether conflict within families can drive rapid adaptation. Here we test multiple predictions about how conflict over the amount of resources an offspring receives from its parent would drive rapid molecular evolution in seed tissues of the flowering plant Arabidopsis. As predicted, there is more adaptive evolution in genes expressed in Arabidopsis seeds than in other specialized organs, more in endosperms and maternal tissues than in embryos, and more in the specific subtissues involved in nutrient transfer. In the absence of credible alternative hypotheses, these results suggest that kin selection and conflict are important in plants, that the conflict includes not just the mother and offspring but also the triploid endosperm, and that, despite the conflict-reducing role of kinship, family members can engage in slow but steady tortoise-like arms races.
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Author contributions: K.S.G., J.E.S., and D.C.Q. designed research; K.S.G. performed research; K.S.G. analyzed data; and K.S.G., J.E.S., and D.C.Q. wrote the paper.
Edited by Raghavendra Gadagkar, Indian Institute of Science, Bangalore, India, and approved March 29, 2019 (received for review October 15, 2018)
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1817733116