Vishmita Sethi
@VishmitaSethi
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We @Plant_EnSiGnLab at @iiserkol are delighted to share our latest research in @ThePlantJournal
https://t.co/q9o7DGNNPq Congratulations to @bidhancmalakar, who led from the front, and to co-authors Rajanesh @rajaneshchandra and Vishmita @VishmitaSethi for key contributions.
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PIF3 promotes thermosensory growth in Arabidopsis by enhancing PIF4 function Das et al. @Plant_EnSiGnLab @iiserkol 📖 https://t.co/zSLKLjlIY8
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We @Plant_EnSiGnLab @iiserkol, and Prof. Mukes Jain's lab @JNU_official_50 are delighted to share our new research article on "PIF3 role in thermomorphogensis", by @SreyaDas1994, @AnnayasaModak, Dr. Mohan Singh, @1201vinny, @VishmitaSethi , in @NewPhyt
https://t.co/CCK6RaO9w4
nph.onlinelibrary.wiley.com
The role of PHYTOCHROME INTERACTING FACTOR 3 (PIF3) in thermomorphogenesis, despite being a crucial regulator of photosensory hypocotyl growth in Arabidopsis, remains unknown. Here, we demonstrate...
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BBX24/BBX25 antagonizes the function of thermosensor ELF3 to promote PIF4-mediated thermomorphogenesis in Arabidopsis #research #PlantCommunications
https://t.co/Hm4V4ZGUp0
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Congratulations to all the authors, especially to @bidhancmalakar, who led from the front. All the co-authors Shivani Singh, @1201vinny, Rajanesh Chandramohan, @DrUpadhyayaGour and Dr @VishmitaSethi, who have contributed significantly at different stages of the study.
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We @Plant_EnSiGnLab are delighted to share our new research publication in @MPlantPCom "BBX24/BBX25 antagonizes the function of thermosensor ELF3 to promote PIF4-mediated thermomorphogenesis in Arabidopsis" Plant Communications
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We @Plant_EnSiGnLab are delighted to share our new research article in @NewPhyt. The E3 ubiquitin ligases RING DOMAIN OF UNKNOWN FUNCTION 1117 1 (RDUF1) and RDUF2 control seedling photomorphogenesis in Arabidopsis - Modak et al., New Phytologist - https://t.co/VKZJmVGbo6
nph.onlinelibrary.wiley.com
The CONSTITUTIVE PHOTOMORPHOGENIC1 (COP1)-ELONGATED HYPOCOTYL5 (HY5) circuit controls plant seedling photomorphogenesis. Regulation of HY5 protein levels is key for optimal photomorphogenic growth....
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It's a collaborative effort from our lab @Plant_EnSiGnLab and Prof. Javier Botto's lab in Argentina. Congratulations to all the authors, Bidhan @bidhancmalakar, a graduate student; and Postdocs, Dr. Vishmita Sethi @VishmitaSethi and Dr. Gouranga Upadhyaya @DrUpadhyayaGour
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We, @Plant_EnSiGnLab, are delighted to share our review article "ALOG/LSHs, a novel class of transcription factors: Evolutionarily conserved regulators of plant growth and development" in the Journal of Experimental Botany. https://t.co/kkmZtbA4Fj
academic.oup.com
ALOG/LSH proteins are evolutionarily conserved plant-specific transcription factors that regulate meristem maintenance and lateral organ development in pla
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Delighted to share our new research article. The COP1W467 tryptophan residue in the WD40 domain is essential for light‐ and temperature‐mediated hypocotyl growth and flowering in Arabidopsis - Malakar - 2025 - The Plant Journal - Wiley Online Library
onlinelibrary.wiley.com
The W467 amino acid residue in the WD40 repeat domain of COP1 is essential and sufficient to promote warm ambient temperature- and shade-avoidance hypocotyl growth by interacting and degrading HY5....
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