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Convergent consequences of parthenogenesis on stick insect genomes.

Kamil S JaronDarren James ParkerYoann AnselmettiPatrick Tran VanJens BastZoé DumasEmeric FiguetClémentine M FrançoisKeith HaywardVictor RossierPaul SimionMarc Robinson-RechaviNicolas GaltierTanja Schwander
Published in: Science advances (2022)
The shift from sexual reproduction to parthenogenesis has occurred repeatedly in animals, but how the loss of sex affects genome evolution remains poorly understood. We generated reference genomes for five independently evolved parthenogenetic species in the stick insect genus Timema and their closest sexual relatives. Using these references and population genomic data, we show that parthenogenesis results in an extreme reduction of heterozygosity and often leads to genetically uniform populations. We also find evidence for less effective positive selection in parthenogenetic species, suggesting that sex is ubiquitous in natural populations because it facilitates fast rates of adaptation. Parthenogenetic species did not show increased transposable element (TE) accumulation, likely because there is little TE activity in the genus. By using replicated sexual-parthenogenetic comparisons, our study reveals how the absence of sex affects genome evolution in natural populations, providing empirical support for the negative consequences of parthenogenesis as predicted by theory.
Keyphrases
  • genetic diversity
  • mental health
  • genome wide
  • aedes aegypti
  • climate change
  • gene expression
  • deep learning
  • data analysis