Ecology and Evolution (Apr 2021)

Lineage‐specific plastid degradation in subtribe Gentianinae (Gentianaceae)

  • Peng‐Cheng Fu,
  • Shan‐Shan Sun,
  • Alex D. Twyford,
  • Bei‐Bei Li,
  • Rui‐Qi Zhou,
  • Shi‐Long Chen,
  • Qing‐Bo Gao,
  • Adrien Favre

DOI
https://doi.org/10.1002/ece3.7281
Journal volume & issue
Vol. 11, no. 7
pp. 3286 – 3299

Abstract

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Abstract The structure and sequence of plastid genomes is highly conserved across most land plants, except for a minority of lineages that show gene loss and genome degradation. Understanding the early stages of plastome degradation may provide crucial insights into the repeatability and predictability of genomic evolutionary trends. We investigated these trends in subtribe Gentianinae of the Gentianaceae, which encompasses ca. 450 species distributed around the world, particularly in alpine and subalpine environments. We sequenced, assembled, and annotated the plastomes of 41 species, representing all six genera in subtribe Gentianinae and all main sections of the species‐rich genus Gentiana L. We reconstructed the phylogeny, estimated divergence times, investigated the phylogenetic distribution of putative gene losses, and related these to substitution rate shifts and species’ habitats. We obtained a strongly supported topology consistent with earlier studies, with all six genera in Gentianinae recovered as monophyletic and all main sections of Gentiana having full support. While closely related species have very similar plastomes in terms of size and structure, independent gene losses, particularly of the ndh complex, have occurred in multiple clades across the phylogeny. Gene loss was usually associated with a shift in the boundaries of the small single‐copy and inverted repeat regions. Substitution rates were variable between clades, with evidence for both elevated and decelerated rate shifts. Independent lineage‐specific loss of ndh genes occurred at a wide range of times, from Eocene to Pliocene. Our study illustrates that diverse degradation patterns shape the evolution of the plastid in this species‐rich plant group.

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