Bipin Pandey
@pandeybipink
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#Groupleader, Associate Professor, Former BBSRC Discovery Fellow, #Root #soil interactions from #molecular scale to #Field.
Nottingham, UK
Joined December 2012
Delighted to receive the @sebiology.bsky.social president Medal 2025 in Plant Section. @UniofNottingham @UoNBiosciences .
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RT @NaturePlants: New OA Article: "Single-cell transcriptomics reveal how root tissues adapt to soil stress" With….
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RT @adeelzafarpbg: I’m excited to share our latest article in @NaturePlants, where we delve into the groundbreaking study by Mingyuan, @pan….
nature.com
Nature Plants - Plants have evolved complex regulatory mechanisms to cope with environmental challenges. Recent work reveals how distinct root cell types coordinate their specialized genetic...
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Plants exhibit remarkable intelligence in sensing and responding to microscale soil complexity @UKRI_News @ERC_Research .
Dr Bipin Pandey explains how root cells respond & adapt to soil environments, revealing how roots actively sense the microenvironment triggering precise, cell-specific molecular responses. These findings boost knowledge for climate resistant crops 🌱more➡️
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Our latest study reveals-for the first time-how the different cell layers of plant roots respond at the molecular level to heterogeneous and compacted soil conditions. A major leap in understanding root–soil interactions under real-world conditions @Nature.
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This publication is real tribute to late Prof. Philip Benfey who envisioned this in summer 2022 when we started this collaboration.
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New in @Nature .@UniofNottingham @UoNScience @UoNBiosciences @Mingyuan2328 @TNPlantBio @lokeshverma203.
nature.com
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...
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RT @Sajjad_Razza: Our paper in Nature Plants is finally online. We have highlighted that modern crop breeding and….
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RT @vinayshukla_1: Preprint alert, please share!! With our new study, we engineered a hypoxia-responsive system in plants inspired by mamma….
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Delighted to write together the Darwin Review "Root Radar" with @PlantEcoHutton @ThisSunOfYork @UoNHounsfield @HannahVCooper @UoNresearch @UoNBiosciences How rhizocrine signals regulate root responses in soils.
See our latest paper in collaboration with the team at Nottingham and Leeds:.Root RADAR: how ‘rhizocrine’ signals allow roots to detect and respond to their soil environment and stresses.@JamesHuttonInst.
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We are offering a fully funded PhD Studentship: Revealing how plant roots adapt to compacted soil environments
jobs.nottingham.ac.uk
Supervisor: Dr Bipin PandeySecondary Supervisor: Dr Poonam Mehra, Prof Malcolm BennettSubject Area: Plant biology and climate changeResearch TitleRevealing how plant roots adapt to compacted soil...
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Congratulations poonam for receiving @ERC_Research #ERCStG @UoNresearch @UoNBiosciences @PlantSciNottm @UoNHounsfield .
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Public outreach at @SBFair showing the importance of rooting in soil @ColombiTino @UniofNottingham @UoNBiosciences @UoNHounsfield
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RT @Dinnenylab: Ok, this is a big one! Proud to present our latest story on hydropatterning-a process that allows plants to sense moisture….
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RT @PlantTeaching: There is still time to submit abstracts and get early-bird registration for the International Conference of the German S….
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RT @TonniGrube: Finally online! First paper from lab! I’m so happy this work found a great home @embojournal read all about how a root barr….
embopress.org
imageimageThe Arabidopsis leucine-rich repeat (LRR) receptor kinase SCHENGEN3 is necessary for development of the Casparian strip, a watertight lining that surrounds the vascular cells in plant...
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Root hairs facilitate rice root penetration into compacted layers: @CurrentBiology.@UoNresearch.@PlantSciNottm..This is work with wonderful collaboration with Guoqiang's team @sjtu1896.
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RT @ThePlantCell: IN BRIEF: A compact topic: How ethylene controls crown root development in compacted soil (Gwendolyn K Kirschner) https:….
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Delighted to work with the @Hua qin team and found that ethylene (EIL1) regulates crown root development in compaction.@UoNresearch @PlantSciNottm.
The OsEIL1–OsWOX11 transcription factor module controls rice crown root development in response to soil compaction (Yuxiang Li, Juan Wang, Yadi Gao, Bipin K Pandey, Lucas León Peralta Ogorek, Yu Zhao, Ruidang Quan, et. al.) @pandeybipink @ASPB #PlantSci
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