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Delaux, Pierre-Marc ; Radhakrishnan, Guru V. ; Jayaraman, Dhileepkumar ; Cheema, Jitender ; Malbreil, Mathilde ; Volkening, Jeremy D. ; Sekimoto, Hiroyuki ; Nishiyama, Tomoaki ; Melkonian, Michael ; Pokorny, Lisa ; et al ( , Proceedings of the National Academy of Sciences)
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Wang, Jun ; Zhang, Jianguo ; Li, Ruiqiang ; Zheng, Hongkun ; Li, Jun ; Zhang, Yong ; Li, Heng ; Ni, Peixiang ; Li, Songgang ; Li, Shengting ; et al ( , Genomics, Proteomics & Bioinformatics)
Abstract In the canonical version of evolution by gene duplication, one copy is kept unaltered while the other is free to evolve. This process of evolutionary experimentation can persist for millions of years. Since it is so short lived in comparison to the lifetime of the core genes that make up the majority of most genomes, a substantial fraction of the genome and the transcriptome may—in principle—be attributable to what we will refer to as “evolutionary transients”, referring here to both the process and the genes that have gone or are undergoing this process. Using the rice gene set as a test case, we argue that this phenomenon goes a long way towards explaining why there are so many more rice genes than Arabidopsis genes, and why most excess rice genes show low similarity to eudicots.
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Leebens-Mack, James H ; Barker, Michael S ; Carpenter, Eric J ; Deyholos, Michael K ; Gitzendanner, Matthew A ; Graham, Sean W ; Grosse, Ivo ; Li, Zheng ; Melkonian, Michael ; Mirarab, Siavash ; et al ( , Nature)Green plants (Viridiplantae) include around 450,000–500,000 species of great diversity and have important roles in terrestrial and aquatic ecosystems. Here, as part of the One Thousand Plant Transcriptomes Initiative, we sequenced the vegetative transcriptomes of 1,124 species that span the diversity of plants in a broad sense (Archaeplastida), including green plants (Viridiplantae), glaucophytes (Glaucophyta) and red algae (Rhodophyta). Our analysis provides a robust phylogenomic framework for examining the evolution of green plants. Most inferred species relationships are well supported across multiple species tree and supermatrix analyses, but discordance among plastid and nuclear gene trees at a few important nodes highlights the complexity of plant genome evolution, including polyploidy, periods of rapid speciation, and extinction. Incomplete sorting of ancestral variation, polyploidization and massive expansions of gene families punctuate the evolutionary history of green plants. Notably, we find that large expansions of gene families preceded the origins of green plants, land plants and vascular plants, whereas whole-genome duplications are inferred to have occurred repeatedly throughout the evolution of flowering plants and ferns. The increasing availability of high-quality plant genome sequences and advances in functional genomics are enabling research on genome evolution across the green tree of life.more » « less