Top Tweets for #leafdevelopment
#VegetableRes
CsWOX1 directly regulates CsRVE6 & CsPin1At genes, linking circadian rhythm & auxin transport to leaf shape in cucumber. Key for morphogenesis.
@MaximumAcademic @PlantPhys #Cucumber #LeafDevelopment
Details: https://t.co/Sfy3dfgPek
名古屋大学の時からやって若干お蔵入りしかけていた研究が、奈良先端大と京都府立大で進んで、この度論文として公開されました。良かったです。葉っぱのギザギザの周期を決める仕組みを数理モデル化したというものです。https://t.co/sX6tassdnS
#turingpatterns #leafdevelopment #auxin
Discovered BrRCO gene key to leaf lobe formation in B. rapa via BrRCO-BrACP5 pathway. #LeafDevelopment #BrassicaGenetics @OxfordJournals
Details: https://t.co/iXU0eiwAfV
I'm excited to share our new paper in @NewPhyt, in which we unravel the mechanism of twisted leaves in rice.
We discovered that the twisting is a result of physical conflicts between organs.
https://t.co/4Bg5oxZQX7
#Twisting #LeafDevelopment #Rice #Biomechanics
#VegetableRes
CsWOX1 promotes leaf expansion in cucumbers by targeting key genes in circadian and auxin pathways. Study reveals new regulatory links for leaf morphogenesis. 🌿
@HortiPlant @NewPhyt @sci_plant #PlantGenetics #LeafDevelopment
Details: https://t.co/Vu4ktc3RJg
#VegetableRes
CsWOX1 promotes leaf expansion in cucumbers by targeting key genes in circadian and auxin pathways. Study reveals new regulatory links for leaf morphogenesis. 🌿
@HortiPlant #PlantGenetics #LeafDevelopment
Details: https://t.co/Vu4ktc4pyO
#VegetableRes
CsWOX1 promotes leaf expansion in cucumbers by targeting key genes in circadian and auxin pathways. Study reveals new regulatory links for leaf morphogenesis. 🌿 #PlantGenetics #LeafDevelopment
@MaximumAcademic @NewPhyt @sci_plant
Details: https://t.co/Sfy3dfgPek
This review is the first on leaf thickness, offering a fresh perspective. Onwards to more discoveries! 🔬 Hope this sparks future research and collaborations across fields!
@thePhotoDevoLab @NIPGRsocial
#PlantScience #PhDlife #leafdevelopment
Study uses laser dissection to reveal gene expression in Chinese cabbage leaf development #LeafDevelopment @OxfordJournals
Details:https://t.co/zaKQ66fnBI
The findings underscore the differences in temperature responses among green-up stages, which alters the temporal alignment between plants and environmental resources.
#ClimateChange #LeafDevelopment
Details: https://t.co/QNj3fyi79k
High-resolution spatiotemporal transcriptional networks reveal core regulators like GRF5 and MYB5 in poplar leaf development and senescence. #Poplar #LeafDevelopment #TranscriptionalRegulation @OxfordJournals
Details:https://t.co/pnnCnzXxeE
Study unveils intricate transcriptional regulation in poplar leaf development, identifying key regulators like GRF5 and MYB5. Insights for breeding resilient trees. #PlantScience #LeafDevelopment @OxfordJournals
Details:https://t.co/roM8JctGQX
#BPR Unlocking Tea's Genetic Secrets: YABBY Transcription Factors Determine Leaf Growth & Shape, Crucial for Plant Physiology & Stress Response. #TeaScience #LeafDevelopment
@MaximumAcademic
Details: https://t.co/L11PpLJHJD
Unlocking Poplar's secrets: From leaf maturation to senescence, a detailed exploration of transcriptional regulation reveals core regulators like GRF5 and MYB5. #LeafDevelopment #PoplarResearch
https://t.co/Rv1A8D988L
Discover the power of MicroRNA319 (miR319) in regulating leaf development, lignin biosynthesis, and photosynthesis in poplars. Exciting findings on its gene regulatory network unveiled!" #miR319 #leafdevelopment #ligninbiosynthesis Details:https://t.co/SsVYouGWm6
Exploring leaf development in tea plants! YABBY transcription factors, CsFILa and CsFILb, are key players in regulating leaf growth and development. Exciting insights into Camellia sinensis leaf morphology. #TeaPlants #LeafDevelopment
https://t.co/L11PpLJHJD
🍃 New insights into leaf development and morphogenesis in poplar! Explore the fascinating world of microRNA319-mediated gene regulatory networks and their profound impact on poplar leaves. 🌿
Details: https://t.co/m0r0lkHbT0
#LeafDevelopment #GeneRegulation
Great work by Kendrick, Chotewutmontri et al. (2022) on how three #plastid signals are implicated as coordinators of normal #photosynthetic differentiation 🌱🌽, especially the #TOR-#chloroplast crosstalk 3⃣.
#Transcriptomes #Leafdevelopment #RetrogradeSignaling #Maize #plantTOR
#ICAR2022 is about to start! I will be presenting our digital poster 12_P45. If you are interested in how #phyB and #PIF7 control #LeafDevelopment, don't miss it!
Looking forward to hearing great #plantscience!
@RunsOnAir @EHussain101
@UU_Plants
@HallidayLab
@GARNetweets
Love to see the colourful variety of the digital poster submissions for #ICAR2022
Online registration is available until 13/6/22, which of course includes access to all posters.
Register here ->
https://t.co/FjdqQuO7JE
Role of SlSRM1-like in Leaf Development using CRISPR-Cas9
Source: https://t.co/0zcOBb73Yo
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