A thread of our new preprint about molecular basis of distyly in Linum 👇 Thank you @panazerv.bsky.social, @tanjaslotte.bsky.social , Aleksandra Lovsik, @mfracaa.bsky.social and @nbis.se for all the work!!
Go check out our new preprint on distyly supergene evolution in some Linum species 👇
In @plantcellphysiol.bsky.social for the upcoming special issue 'Ecology and Evolution' : the last paper of my PhD 🥳 Evo-demographic scenarios for evolution of reproductive isolation between lineages of S. nutans 🌱 Thank you to all co-authors and reviewers! 👇 academic.oup.com/pcp/article/...
🥳 Stay tuned!
Abstract. Speciation is the process leading to the emergence of new species. While being usually progressive, it can sometimes be fast with rapid emergence
New preprint on distyly supergene evolution and the molecular basis of convergent floral evolution. Some new Linum genomes too :) Led by @zopos.bsky.social & @panazerv.bsky.social
New preprint! We investigated the evolution of supergenes and mechanisms underlying distyly in Linum species that diverged ca 33 Mya. 1/8
bsky.app/profile/bior...
Now accepted for publication in the New Phytologist! Stay tuned for the final, and in our opinion improved version, on the journal homepage! Big congrats to co-first authors @panazerv.bsky.social & @zopos.bsky.social and all coauthors! #Linum #supergene #distyly #heterostyly
Hybridization and introgression are major evolutionary processes. Since the 1940s, the prevailing view has been that they shape plants far more than animals. In our new study (www.science.org/doi/10.1126/...
), we find the opposite: animals exchange genes more, and for longer, than plants
Go check out our new preprint about the loss of distyly in multiple Linum species 👇🌸 Many thanks to all co-authors!!
New insights on the evolution of distyly supergenes in Linum 👇👇
Led bymyself and @panazerv.bsky.social, we investigated the evolutionary consequences of the loss of distyly in Linum species along two different scales
