V
Vivek Verma
Researcher at Central University of Rajasthan
Publications - 20
Citations - 1469
Vivek Verma is an academic researcher from Central University of Rajasthan. The author has contributed to research in topics: SUMO protein & Arabidopsis thaliana. The author has an hindex of 9, co-authored 18 publications receiving 893 citations. Previous affiliations of Vivek Verma include Durham University & National University of Singapore.
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Plant hormone-mediated regulation of stress responses.
TL;DR: The intricate web of crosstalk among the often redundant multitudes of signaling intermediates is just beginning to be understood and future research employing genome-scale systems biology approaches to solve problems of such magnitude will undoubtedly lead to better understanding of plant development.
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A Novel RGL2–DOF6 Complex Contributes to Primary Seed Dormancy in Arabidopsis thaliana by Regulating a GATA Transcription Factor
TL;DR: The data show that freshly harvested (unstratified) seeds of GATA12 antisense suppression lines have reduced dormancy compared with the wild-type, while ectopic expression lines show enhanced seed dormancy.
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SUMO conjugation to the pattern recognition receptor FLS2 triggers intracellular signalling in plant innate immunity
Beatriz Orosa,Gary Yates,Vivek Verma,Anjil Kumar Srivastava,Moumita Srivastava,Alberto Campanaro,Daniel De Vega,Alanna Fernandes,Cunjin Zhang,Jack Lee,Malcolm J. Bennett,Ari Sadanandom +11 more
TL;DR: The authors show that SUMO conjugates to FLS2 in response to flagellin promoting downstream signalling events while Desi3A, an FLS 2 deSUMOylating enzyme, is degraded to enhance immune responses.
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Fifty shades of SUMO: its role in immunity and at the fulcrum of the growth–defence balance
TL;DR: The intricate molecular mechanisms utilized by SUMO to regulate plant defence and to stabilize the growth-defence equilibrium are highlighted and it is hypothesized that SUMO proteases provide the all-important substrate specificity within the SUMO system.
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Chronic high-dose haloperidol has qualitatively similar effects to risperidone and clozapine on immediate-early gene and tyrosine hydroxylase expression in the rat locus coeruleus but not medial prefrontal cortex.
TL;DR: Despite qualitatively similar effects in the LC, chronic treatment with haloperidol had different effects to clozapine and risperidone in the mPFC, which may relate to the reported advantage of clozapspine and ris peridone over haloperIDol against prefrontal cortical-dependent cognitive and negative symptoms.