| 1. |
- Cerca, Jose, et al.
(författare)
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The genomic basis of the plant island syndrome in Darwin's giant daisies
- 2022
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Ingår i: Nature Communications. - : Springer Nature. - 2041-1723. ; 13:1
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Tidskriftsartikel (refereegranskat)abstract
- Many island plant species share a syndrome of characteristic phenotype and life history. Cerca et al. find the genomic basis of the plant island syndrome in one of Darwin's giant daisies, while separating ancestral genomes in a chromosome-resolved polyploid assembly. The repeated, rapid and often pronounced patterns of evolutionary divergence observed in insular plants, or the 'plant island syndrome', include changes in leaf phenotypes, growth, as well as the acquisition of a perennial lifestyle. Here, we sequence and describe the genome of the critically endangered, Galapagos-endemic species Scalesia atractyloides Arnot., obtaining a chromosome-resolved, 3.2-Gbp assembly containing 43,093 candidate gene models. Using a combination of fossil transposable elements, k-mer spectra analyses and orthologue assignment, we identify the two ancestral genomes, and date their divergence and the polyploidization event, concluding that the ancestor of all extant Scalesia species was an allotetraploid. There are a comparable number of genes and transposable elements across the two subgenomes, and while their synteny has been mostly conserved, we find multiple inversions that may have facilitated adaptation. We identify clear signatures of selection across genes associated with vascular development, growth, adaptation to salinity and flowering time, thus finding compelling evidence for a genomic basis of the island syndrome in one of Darwin's giant daisies.
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| 2. |
- Escudero, Marcial, et al.
(författare)
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Karyotypic Changes through Dysploidy Persist Longer over Evolutionary Time than Polyploid Changes
- 2014
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Ingår i: PLOS ONE. - : Public Library of Science (PLoS). - 1932-6203. ; 9:1, s. e85266-
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Tidskriftsartikel (refereegranskat)abstract
- Chromosome evolution has been demonstrated to have profound effects on diversification rates and speciation in angiosperms. While polyploidy has predated some major radiations in plants, it has also been related to decreased diversification rates. There has been comparatively little attention to the evolutionary role of gains and losses of single chromosomes, which may or not entail changes in the DNA content (then called aneuploidy or dysploidy, respectively). In this study we investigate the role of chromosome number transitions and of possible associated genome size changes in angiosperm evolution. We model the tempo and mode of chromosome number evolution and its possible correlation with patterns of cladogenesis in 15 angiosperm clades. Inferred polyploid transitions are distributed more frequently towards recent times than single chromosome gains and losses. This is likely because the latter events do not entail changes in DNA content and are probably due to fission or fusion events (dysploidy), as revealed by an analysis of the relationship between genome size and chromosome number. Our results support the general pattern that recently originated polyploids fail to persist, and suggest that dysploidy may have comparatively longer-term persistence than polyploidy. Changes in chromosome number associated with dysploidy were typically observed across the phylogenies based on a chi-square analysis, consistent with these changes being neutral with respect to diversification.
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| 3. |
- Villa-Machio, Irene, et al.
(författare)
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Insect pollination in temperate sedges? : A case study in Rhynchospora alba (Cyperaceae)
- 2022
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Ingår i: Plant Biosystems. - : Taylor & Francis Group. - 1126-3504 .- 1724-5575. ; 156:1, s. 196-202
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Tidskriftsartikel (refereegranskat)abstract
- Sedges (Cyperaceae) are commonly pollinated by wind, but some transitions from wind to insect pollination have been reported in tropical sedges. Despite being a temperate sedge, the pollination strategy of Rhynchospora alba may partly depend on insects, as suggested by its white-colored inflorescences. Here we quantify the contribution of insects to the reproductive fitness of R. alba as an exploration of the success of entomophily in temperate sedges. Honeybees and hoverflies seem to be the primary visitors of R. alba in the study site, and pollen of R. alba was recovered from the mouthparts and legs of the insects. Treatments excluding insects led to a lower reproductive fitness (regarding fruit weight and fruit viability) than those not excluding them. Therefore, insects seem to contribute significantly to the pollination of R. alba despite moderate morphological adaptation. We highlight the role of entomophily as an overlooked reproductive mechanism in cold-temperate sedges.
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