π²πΉ π¬π§ Exploring the weird and wonderful world of #redalgae www.borglab.org
Michael Borg
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Call for Papers
Submit your latest plant and multicellular algae #DevBio research to our upcoming special issue β Plant and Algae Development #DevSIPlantAlgae
Editors: @stanfordstomata.bsky.social & Susana Coelho
Deadline: 2 November 2026
journals.biologists.com/dev/pages/pl...
We are very happy and proud to present a study led by @jorgehg.bsky.social (now PI in Madrid β keep an eye on him!) in our team @bic-wur.bsky.social. In this work, we discover how auxin-regulated ARF transcription factors learned to activate transcription. A π§΅β¦(1/17)
www.biorxiv.org/content/10.6...
A short review from us on the easiest way to make an allopolyploid. It was a lot of fun writing with these two. We hope you will enjoy the Pac-Man inspired allopolyploidy maze!
Many pathogens that infect wild plants are close relatives of crop pathogens. Important model systems for studying plant diseases. Check out the special issue on wild plant pathosystems published in the Philosophical Transactions B: royalsocietypublishing.org/rstb/issue/3...
Behind the scenes!
go.nature.com/4bYY8BM
Now online at @natplants.nature.com βΌοΈ Led by Jierui Zhao, a former PhD student @gmivienna.bsky.social & together w/ @moritznowack.bsky.social lab, we uncover how #autophagy shapes salt stress tolerance and lifespan. www.nature.com/articles/s41... www.nature.com/articles/s41... A short π§΅π
Capolavoro π¨ alert π¨! What is the role of gene body methylation in invertebrates? Despite extensive speculation linking it to plasticity and environmental responses, its mechanistic effects and heritability remain unclear. Our take out in @natecoevo.nature.com: www.nature.com/articles/s41... 1/
New #preprint πβΌοΈ led by 2 incredible postdocs @ninizhani.bsky.social & Ranj Papareddy: transforming #UFMylation from a local ribosome rescue pathway to systems level regulator of mRNA splicing www.biorxiv.org/content/10.6... A short π§΅
www.biorxiv.org
Our work on chromatin evolution in brown algae is finally out!
This is also my first "co-first author" paper!! Iβm excited to share what we found π
Development
Dolf Weijers
π¨ Why canβt mammals regenerate limbs like frog tadpoles or salamanders?
In our new paper in @science.org , we show that species-specific oxygen sensing acts as a gatekeeper for initiating limb regeneration ππΈ
π www.science.org/doi/10.1126/... #EvoDevo
This study reveals that enhanced autophagy in root-hair-forming cells helps Arabidopsis store excess sodium, control oxidative stress and tolerate salt stress.
Experiments in the cnidarian Nematostella vectensis show a role of gene body methylation in transposable element suppression and that epigenetic inheritance is constrained by chromatin context and tra...
Somatic genome-doubling is the most parsimonious route to allopolyploidy
#TansleyInsight by Burns et al. @robinburns.bsky.social @alisondawnscott.bsky.social @pnovik.bsky.social
nph.onlinelibrary.wiley.com/doi/10.1111/...
#plantscience
Why mammals cannot regenerate limbs like amphibians do presents a long-standing puzzle in biology. To uncover the underlying differences, we compared amputation responses of embryonic mouse (Mus musculus) and Xenopus laevis tadpole limbs. Lowering ...
Chromatin plays a central role in gene regulation, but chromatin systems are only known for a few model species. This study analyses chromatin regulatory landscapes in brown algal lineages to elucidate their structural organization and evolution π§ͺ www.nature.com/articles/s41...
New Phytologist
Chromatin plays a central role in gene regulation, but chromatin systems are only known for a few model species. This study analyses chromatin regulatory landscapes in brown algal lineages to elucidat...
