Pallavi Singh
University of Cambridge
20 Papers
51 Citations
Pallavi Singh is an academic researcher from University of Cambridge. The author has contributed to research in topics: Gene & MAPK/ERK pathway. The author has an hindex of 10, co-authored 20 publications. Previous affiliations of Pallavi Singh include Cornell University.
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Papers
A Positive Feedback Loop Governed by SUB1A1 Interaction with MITOGEN-ACTIVATED PROTEIN KINASE3 Imparts Submergence Tolerance in Rice
Pallavi Singh,Alok Krishna Sinha +1 more
TL;DR: It is reported that MPK3 is activated by submergence in a SUB1A-dependent manner and the results provide a mechanistic understanding of submergence tolerance in rice.
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CrMPK3, a mitogen activated protein kinase from Catharanthus roseus and its possible role in stress induced biosynthesis of monoterpenoid indole alkaloids.
Susheel Kumar Raina,Dhammaprakash Pandhari Wankhede,Monika Jaggi,Pallavi Singh,Siddhi Kashinath Jalmi,Badmi Raghuram,Arsheed Hussain Sheikh,Alok Krishna Sinha +7 more
TL;DR: Results from this study suggest a possible involvement of CrMPK3 in abiotic stress signal transduction towards regulation of transcripts of key MIA biosynthetic pathway genes, regulators and accumulation of major MIAs.
Unraveling the intricate nexus of molecular mechanisms governing rice root development: OsMPK3/6 and auxin-cytokinin interplay.
TL;DR: OsMPK3/6-OsMKK4/5 module is elucidated as the putative, key player in auxin-cytokinin interaction augmenting their role by differentially regulating the expression patterns of OsPIN 1b/9 in root development in rice.
Interaction between two rice mitogen activated protein kinases and its possible role in plant defense.
Arsheed Hussain Sheikh,Badmi Raghuram,Siddhi Kashinath Jalmi,Dhammaprakash Pandhari Wankhede,Pallavi Singh,Alok Krishna Sinha +5 more
TL;DR: A novel interaction between two rice MAPKs, Os MPK20-4 and OsMPK3 is reported suggesting the complex nature of the pathway rather than a linear one at individual steps, thereby opening a new dimension to the MAPK signal transduction.
TAL Effectors Drive Transcription Bidirectionally in Plants
Li Wang,Fabio C. Rinaldi,Pallavi Singh,Erin L. Doyle,Zoë E. Dubrow,Tuan Tu Tran,Alvaro L. Pérez-Quintero,Boris Szurek,Adam J. Bogdanove +8 more
TL;DR: It is demonstrated that TAL effectors can drive plant transcription from EBEs on either strand and in both directions, and that activity at the reverse-strand EBE also potentiates forward transcription driven byActivity at the forward-stranded EBE.
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