You may have wondered “What do we know about the molecular-genetic control of phloem development?”. If so, don’t ask #ChatGPT, read this #TansleyReview instead: nph.onlinelibrary.wiley.com/doi/full/10.11…

Cells can pass proteins and RNA to each other through tubes that act as a channel between their membranes. elifesciences.org/articles/84391…

Plant roots can rapidly change the acidity of their cell walls and the root-soil interface to efficiently navigate in the soil environment. elifesciences.org/articles/85193…

🪫"root pH meter" growth🔋

Happy to present the first part of my postdoc with Dominique Bergmann: the stomatal lineage uses oppositely oriented polarity domains to regulate cell division and fate. In collaboration with @DolanLab (including some exciting Marchantia data). sciencedirect.com/science/articl…

❗️Please RT: Our post-doc Lenka Caisova Lab is soon starting her Lab Biology Centre CAS and she has 4 positions open.

Mature if you can! 🚦

2023 #NikonSmallWorldInMotion competition ! In 1st Place🥇Alexandre Dumoulin @axonsalex.bsky.social University of Zurich A 48-hour time-lapse video of developing #neurons connecting the opposite side of the #CNS in a chick embryo. Featured courtesy of Nikon Small World on bpod.org.uk/archive/2023/9…

Dalai Lama Peace, Love and Hapiness to all beings. Ooohm✨

Our latest now typeset Ana Cecilia Aliaga Fandino/ Chechu/ 3시 Adavilla Petra Marhava Petrášek Lab: • PAX stimulates PIN-mediated auxin efflux but also PIN endocytosis > PIN activation and turnover may be linked • auxin efflux manipulation shifts timing of cellular differentiation track.smtpsendmail.com/9032119/c?p=3u…

Cells are fast and crowded places. Numbers help us make sense of them. Here are five of my favorite "bionumbers." 1. ATP synthase spins 134 times/second. That is much faster than the propeller on most piston airplanes, and about half the r.p.m. of a Boeing 737 jet engine.

IN BRIEF: Retain in the membrane: Tinkering with the BRX-PAX-PIP5K auxin efflux machinery affects vascular tissue differentiation (Sonhita Chakraborty) buff.ly/3Ib1ByB @hardtke_lab@biochechu @qwertess ASPB #PlantSci

indeed....😹

📈 Trending Article in PNAS One of the most-viewed PNAS articles in the last week is “Bodily maps of emotions.” Explore the findings here: ow.ly/q9wZ50QIfCQ For more trending articles, visit the PNAS homepage at ow.ly/egAH50QIfCW.

Chemical "world"...chemical "mind": Volatile communication in plants relies on a KAI2-mediated signaling pathway | Science science.org/doi/10.1126/sc…

Some compounds we know as plant hormones are widespread in green algae. Check out our comprehensive phytohormone profiling of #streptophyte #algae and more, now published in Nature Communications 🧵⬇️ #phytohormones #evolution Petrášek Lab doi.org/10.1038/s41467…

We’re thrilled to announce our phytohormone profiling study spanning the plant kingdom is now published in Nature Communications! Dive into an accessible summary in this thread by lead author vojtech_schmidt. ⬇️

BREAKING NEWS The Royal Swedish Academy of Sciences has decided to award the 2024 #NobelPrize in Chemistry with one half to David Baker “for computational protein design” and the other half jointly to Demis Hassabis and John M. Jumper “for protein structure prediction.”

One-step nanoscale expansion microscopy reveals individual protein shapes nature.com/articles/s4158…