4.7 Article

Genome Insights into Autopolyploid Evolution: A Case Study in Senecio doronicum (Asteraceae) from the Southern Alps

Journal

PLANTS-BASEL
Volume 11, Issue 9, Pages -

Publisher

MDPI
DOI: 10.3390/plants11091235

Keywords

Asteraceae; cytotype; genome size; repetitive DNA; polyploidy; transposable elements

Categories

Funding

  1. Winton (Harding) Alpine Plant Conservation & Research Programme
  2. Spanish Research Council by MCIN/AEI [PID2019108173GA-I00, PID2020-116480GB-I00]
  3. Ramon y Cajal grant by MCIN/AEI [RYC-2017-2274]
  4. ESF Investing in your future

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Polyploidy is a common phenomenon in angiosperms and plays a significant role in plant diversification. This study focused on the population-level cytotype screening of Senecio doronicum and found the coexistence of tetraploid, hexaploid, and octoploid individuals. The analysis of genomic data supports the autopolyploid origin of these polyploid individuals and suggests the contribution of tetraploids in the formation of hexaploids. The coexistence of different cytotypes may indicate the initiation of speciation.
Polyploidy is a widespread phenomenon across angiosperms, and one of the main drivers of diversification. Whilst it frequently involves hybridisation, autopolyploidy is also an important feature of plant evolution. Minority cytotypes are frequently overlooked due to their lower frequency in populations, but the development of techniques such as flow cytometry, which enable the rapid screening of cytotype diversity across large numbers of individuals, is now providing a more comprehensive understanding of cytotype diversity within species. Senecio doronicum is a relatively common daisy found throughout European mountain grasslands from subalpine to almost nival elevations. We have carried out a population-level cytotype screening of 500 individuals from Tete Grosse (Alpes-de-Haute-Provence, France), confirming the coexistence of tetraploid (28.2%) and octoploid cytotypes (71.2%), but also uncovering a small number of hexaploid individuals (0.6%). The analysis of repetitive elements from short-read genome-skimming data combined with nuclear (ITS) and whole plastid DNA sequences support an autopolyploid origin of the polyploid S. doronicum individuals and provide molecular evidence regarding the sole contribution of tetraploids in the formation of hexaploid individuals. The evolutionary impact and resilience of the new cytotype have yet to be determined, although the coexistence of different cytotypes may indicate nascent speciation.

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