📚𝐅𝐨𝐜𝐮𝐬𝐞𝐝 𝐫𝐞𝐯𝐢𝐞𝐰
How do plants move hormones? 🌱
This review synthesizes hormone transporters across five protein superfamilies, linking structure to mechanism, specificity, and regulation
✍️Amsinck, Benhammouche et al @BjornPPedersen
👉 https://t.co/bVIHZTrqVA
🤖AI, structural biology & chemical🧪 optimization are accelerating highly specific ligands for crop 🌱resilience under climate stress. Excited to share the review on recent advances in chemical control of plant hormone responses by @thdpaepe
Full text: https://t.co/7cn2ol17pI
If you’re a biologist curious about AI but not sure where to start, this might help.
I put together Smarter Science, a visual cheat sheet covering key AI ideas and common pitfalls in biological research.
https://t.co/wplhc02AB3
#AI#PlantBiology
🥳 Excited to announce the publication of our newest opinion article on Trends in Plant Science on emerging signals for the communication between chloroplasts and the ER in abiotic stress signalling
https://t.co/OvsPsClpp3
🥳 Career update
Thrilled to share that starting December, I will be joining @UniBarcelona as Assistant Professor.
🍀 Looking forward to researching plant abiotic stress, hormones and organelles, an to many new collaborations in this exciting next chapter!!
We attempted to "clean up" the model of the auxin biosynthesis pathway in Arabidopsis using genetic, pharmacological, and metabolomic approaches. We show that the CYP71A, NIT, AMI, and IAMH gene families are all dispensable for auxin production via IAOx.
https://t.co/VhvImSHMPk
We’re thrilled to announce that Plant Hormones journal has been officially indexed by CAS (Chemical Abstracts Service)! 📚
Since its launch, Plant Hormones has become a trusted platform for high-impact studies, with articles cited by prestigious journals like Nature. 🌍💡
From growth to stress responses, plant hormones are key players.
We discuss how #AI can:
🔍 Reveal hidden patterns
🌾 Predict biotic & abiotic stresses
🚜 Drive innovations in sustainable agriculture 2/2
🌱 Our Perspective just published in Plant Hormones!
We explore the opportunities & challenges of applying AI to plant hormone research, highlighting its potential for agriculture and the next phase of the Green Revolution.
#AI#MachineLearning#PlantHormones 1/2
🌱 Unlocking the secrets of salt-tolerant crops! 💡
Our new review explores how plants fight soil salinity through ABA hormone signaling & biotech innovations. #ABA#ROS
https://t.co/puAJ2fxtvs
🌱ERFs are crucial regulators of plant development and stress responses
🧬Despite decades of research, much remains to be discovered about their roles and regulatory networks
📰This review at @PlantHormones25 revisits ERFs in tomato, highlighting key findings and open questions
Development of this new genetic tool was sparked by a spontaneous discussion at a scientific conference. One two-year NSF EAGER grant to jump-start the work and 5 more years of "side projects" by 18 talented scientists made EBSn possible. https://t.co/yjkfhCepDF
Super excited to share our paper is out in @NatureComms! We identify a gene core regulating plant responses to multiple stresses using transcriptomics + machine learning, and provide validated datasets to guide future stress research.
https://t.co/kDokt7ZGDK
🌱 Check out our latest article in the phenomics field. We developed a phenotyping platform for monitoring plant health through multispectral imaging.
MADI: A multispectral automated dynamic imager to monitor plant health https://t.co/paaaLJio3w
🎉It took me some days to process the news.. Super grateful to announce that I have been selected for a MSCA postdoc. This summer I start working on plant stress and the roles of organelles in UB in Barcelona with Sergi Munné-Bosch! Super excited! @UniBarcelona @MSCActions
IN BRIEF: The older the wiser, unless you are a banana: The NAP1-MADS1 network in the regulation of banana ripening (Raul Sanchez-Muñoz) https://t.co/gWj1Th6jxj @ASPB#PlantSci