Bipin Pandey
@bipinpandey.bsky.social
Associate Professor
University of Nottingham
University of Nottingham
Reposted by Bipin Pandey
Interested in learning about the latest and greatest research in how plants respond to excess salt, too little or too much water? Come to the GRC in Salt and Water Stress in Switzerland. Lots of opportunities for all career levels. www.grc.org/salt-and-wat.... Please repost!
2026 Salt and Water Stress in Plants Conference GRC
The 2026 Gordon Research Conference on Salt and Water Stress in Plants will be held in Les Diablerets, Vaud (fr) Switzerland. Apply today to reserve your spot.
www.grc.org
November 6, 2025 at 1:06 AM
Interested in learning about the latest and greatest research in how plants respond to excess salt, too little or too much water? Come to the GRC in Salt and Water Stress in Switzerland. Lots of opportunities for all career levels. www.grc.org/salt-and-wat.... Please repost!
Happy to see this paper www.science.org/doi/10.1126/...
in @science.org showing how ROS regulate auxin signalling and control root branching @uniofnottingham.bsky.social & Durham University @hydrosensing.bsky.social @ukri.org @erc.europa.eu Many congratulations to the team!
in @science.org showing how ROS regulate auxin signalling and control root branching @uniofnottingham.bsky.social & Durham University @hydrosensing.bsky.social @ukri.org @erc.europa.eu Many congratulations to the team!
June 13, 2025 at 9:02 AM
Happy to see this paper www.science.org/doi/10.1126/...
in @science.org showing how ROS regulate auxin signalling and control root branching @uniofnottingham.bsky.social & Durham University @hydrosensing.bsky.social @ukri.org @erc.europa.eu Many congratulations to the team!
in @science.org showing how ROS regulate auxin signalling and control root branching @uniofnottingham.bsky.social & Durham University @hydrosensing.bsky.social @ukri.org @erc.europa.eu Many congratulations to the team!
Reposted by Bipin Pandey
I'm so very excited to see this out - a single cell and spatial transcriptomic analysis in the rice root reveals mechanisms by which roots can respond to different below-ground growth conditions - including compaction. Congratulations to everyone for persisting in difficult times. rdcu.be/ej8Ui
Single-cell transcriptomics reveal how root tissues adapt to soil stress
Nature - Single-cell RNA sequencing and spatial transcriptomic approaches reveal major expression changes in outer root cell types when grown in soil versus gel conditions, and also uncover how...
rdcu.be
April 30, 2025 at 8:43 PM
I'm so very excited to see this out - a single cell and spatial transcriptomic analysis in the rice root reveals mechanisms by which roots can respond to different below-ground growth conditions - including compaction. Congratulations to everyone for persisting in difficult times. rdcu.be/ej8Ui
Thrilled to see our work now online @nature.com
This study reveals how individual root cells sense and respond to real, compacted soil environments.
www.nature.com/articles/s41...
beautiful spatial transcritomics of rice root in gel & soil conditions and huge credit to Mingyuan and colleagues.
This study reveals how individual root cells sense and respond to real, compacted soil environments.
www.nature.com/articles/s41...
beautiful spatial transcritomics of rice root in gel & soil conditions and huge credit to Mingyuan and colleagues.
May 1, 2025 at 9:43 AM
Thrilled to see our work now online @nature.com
This study reveals how individual root cells sense and respond to real, compacted soil environments.
www.nature.com/articles/s41...
beautiful spatial transcritomics of rice root in gel & soil conditions and huge credit to Mingyuan and colleagues.
This study reveals how individual root cells sense and respond to real, compacted soil environments.
www.nature.com/articles/s41...
beautiful spatial transcritomics of rice root in gel & soil conditions and huge credit to Mingyuan and colleagues.
Reposted by Bipin Pandey
please share - 2 postdoc positions available - molecular physiology of stomata and plant water use of efficiency
lab.igb.illinois.edu/leakey/post-... @ripeproject.bsky.social @aspbofficial.bsky.social
lab.igb.illinois.edu/leakey/post-... @ripeproject.bsky.social @aspbofficial.bsky.social
April 24, 2025 at 2:03 PM
please share - 2 postdoc positions available - molecular physiology of stomata and plant water use of efficiency
lab.igb.illinois.edu/leakey/post-... @ripeproject.bsky.social @aspbofficial.bsky.social
lab.igb.illinois.edu/leakey/post-... @ripeproject.bsky.social @aspbofficial.bsky.social
Reposted by Bipin Pandey
📜 Genomic and genetic insights into Mendel’s pea genes
🧑🔬 Cong Feng, Baizhi Chen, Julie Hofer, Yan Shi, Mei Jiang, Noel Ellis, Noam Chayut, Shifeng Cheng, et al.
📔 @nature.com
🔗 www.nature.com/articles/s41...
#️⃣ #PlantScience #PlantGenomics #Mendel #Pea #PlantGenetics #Genetics
🧑🔬 Cong Feng, Baizhi Chen, Julie Hofer, Yan Shi, Mei Jiang, Noel Ellis, Noam Chayut, Shifeng Cheng, et al.
📔 @nature.com
🔗 www.nature.com/articles/s41...
#️⃣ #PlantScience #PlantGenomics #Mendel #Pea #PlantGenetics #Genetics
Genomic and genetic insights into Mendel’s pea genes - Nature
Characterization of the genetic architecture underlying the 7 pairs of contrasting traits studied by Mendel and the over 70 additional agronomic traits in pea (Pisum sativum) reveals their m...
www.nature.com
April 24, 2025 at 8:32 AM
📜 Genomic and genetic insights into Mendel’s pea genes
🧑🔬 Cong Feng, Baizhi Chen, Julie Hofer, Yan Shi, Mei Jiang, Noel Ellis, Noam Chayut, Shifeng Cheng, et al.
📔 @nature.com
🔗 www.nature.com/articles/s41...
#️⃣ #PlantScience #PlantGenomics #Mendel #Pea #PlantGenetics #Genetics
🧑🔬 Cong Feng, Baizhi Chen, Julie Hofer, Yan Shi, Mei Jiang, Noel Ellis, Noam Chayut, Shifeng Cheng, et al.
📔 @nature.com
🔗 www.nature.com/articles/s41...
#️⃣ #PlantScience #PlantGenomics #Mendel #Pea #PlantGenetics #Genetics
Reposted by Bipin Pandey
(1/2) Three #plantscience papers in @science.org this week:
Scharwies et al find that ethylene, auxin and an arabinogalactan protein work together to control lateral root branching in response to water availability in maize
www.science.org/doi/10.1126/...
Scharwies et al find that ethylene, auxin and an arabinogalactan protein work together to control lateral root branching in response to water availability in maize
www.science.org/doi/10.1126/...
Moisture-responsive root-branching pathways identified in diverse maize breeding germplasm
Plants grow complex root systems to extract unevenly distributed resources from soils. Spatial differences in soil moisture are perceived by root tips, leading to the patterning of new root branches t...
www.science.org
February 7, 2025 at 12:24 PM
(1/2) Three #plantscience papers in @science.org this week:
Scharwies et al find that ethylene, auxin and an arabinogalactan protein work together to control lateral root branching in response to water availability in maize
www.science.org/doi/10.1126/...
Scharwies et al find that ethylene, auxin and an arabinogalactan protein work together to control lateral root branching in response to water availability in maize
www.science.org/doi/10.1126/...
Reposted by Bipin Pandey
Proud to share our latest published work on moisture responsive root development-a process we call hydropatterning! We find that this process has been under differential selection during maize breeding and the gaseous hormone ethylene prevents branching in air.
www.science.org/doi/epdf/10....
www.science.org/doi/epdf/10....
Moisture-responsive root-branching pathways identified in diverse maize breeding germplasm
Plants grow complex root systems to extract unevenly distributed resources from soils. Spatial differences in soil moisture are perceived by root tips, leading to the patterning of new root branches t...
www.science.org
February 6, 2025 at 7:47 PM
Proud to share our latest published work on moisture responsive root development-a process we call hydropatterning! We find that this process has been under differential selection during maize breeding and the gaseous hormone ethylene prevents branching in air.
www.science.org/doi/epdf/10....
www.science.org/doi/epdf/10....