Reposted by Sylvia. R. Silveira
Big thanks to Daniel Cosgrove & Enrico Coen
@innerworldsjic.bsky.social for spotlighting our paper.
doi.org/10.1016/j.cu...
Let’s call for more in vivo data on growth, elasticity & stress. Time to fuel the field with experiments! 🔬🖥️📏🧪🌿
@currentbiology.bsky.social
@innerworldsjic.bsky.social for spotlighting our paper.
doi.org/10.1016/j.cu...
Let’s call for more in vivo data on growth, elasticity & stress. Time to fuel the field with experiments! 🔬🖥️📏🧪🌿
@currentbiology.bsky.social
doi.org
April 21, 2025 at 3:58 PM
Big thanks to Daniel Cosgrove & Enrico Coen
@innerworldsjic.bsky.social for spotlighting our paper.
doi.org/10.1016/j.cu...
Let’s call for more in vivo data on growth, elasticity & stress. Time to fuel the field with experiments! 🔬🖥️📏🧪🌿
@currentbiology.bsky.social
@innerworldsjic.bsky.social for spotlighting our paper.
doi.org/10.1016/j.cu...
Let’s call for more in vivo data on growth, elasticity & stress. Time to fuel the field with experiments! 🔬🖥️📏🧪🌿
@currentbiology.bsky.social
Reposted by Sylvia. R. Silveira
So happy to share our most recently published work.
Do you want to know how mechanical interaction between tissue layers controls the formation of complex organ shapes in plants? 🔬🌼
🚨Our latest collaborative work with @routierlab.bsky.social is now published @natureplants.bsky.social
Find out more👉 rdcu.be/efad3
🚨Our latest collaborative work with @routierlab.bsky.social is now published @natureplants.bsky.social
Find out more👉 rdcu.be/efad3
Mechanical interactions between tissue layers underlie plant morphogenesis
Nature Plants - Anthers, the male reproductive organs in plants, are a model to explore the establishment of complex three-dimensional shapes. Live imaging, genetics and modelling reveal an active...
rdcu.be
March 27, 2025 at 4:35 PM
So happy to share our most recently published work.