Mechanistic model of evolutionary rate variation en route to a nonphotosynthetic lifestyle in plants

Wicke S, Müller KF, dePamphilis CW, Quandt D, Bellot S, Schneeweiss GM

Forschungsartikel (Zeitschrift) | Peer reviewed

Zusammenfassung

Because novel environmental conditions alter the selection pressure on genes or entire subgenomes, adaptive and nonadaptive changes will leave a measurable signature in the genomes, shaping their molecular evolution. We present herein a model of the trajectory of plastid genome evolution under progressively relaxed functional constraints during the transition from autotrophy to a nonphotosynthetic parasitic lifestyle. We show that relaxed purifying selection in all plastid genes is linked to obligate parasitism, characterized by the parasite's dependence on a host to fulfill its life cycle, rather than the loss of photosynthesis. Evolutionary rates and selection pressure coevolve with macrostructural and microstructural changes, the extent of functional reduction, and the establishment of the obligate parasitic lifestyle. Inferred bursts of gene losses coincide with periods of relaxed selection, which are followed by phases of intensified selection and rate deceleration in the retained functional complexes. Our findings suggest that the transition to obligate parasitism relaxes functional constraints on plastid genes in a stepwise manner. During the functional reduction process, the elevation of evolutionary rates reaches several new rate equilibria, possibly relating to the modified protein turnover rates in heterotrophic plastids.

Details zur Publikation

FachzeitschriftProceedings of the National Academy of Sciences of the United States of America (Proc. Natl. Acad. Sci. U.S.A.)
Jahrgang / Bandnr. / Volume113
Ausgabe / Heftnr. / Issue32
Seitenbereich9045-9050
StatusVeröffentlicht
Veröffentlichungsjahr2016 (09.08.2016)
Sprache, in der die Publikation verfasst istEnglisch
DOI: 10.1073/pnas.1607576113
Link zum Volltexthttp://www.pnas.org/content/113/32/9045.long
Stichwörterparasitism; relaxed selection; evolutionary rates; plastid genomes; Orobanchaceae; evolution; molecular evolution

Autor*innen der Universität Münster

Müller, Kai
Arbeitsgruppe Evolution und Biodiversität der Pflanzen (Prof. Müller)
Wicke, Susann
Arbeitsgruppe Evolution und Biodiversität der Pflanzen (Prof. Müller)