Padmini Bisoyi, PhD, MSc
Postdoctoral Scholar
Radiation Oncology
School of Medicine
As a Postdoctoral Scholar in the Radiation oncology department at UCSF, my research has been dedicated to understanding metabolic reprogramming by metastatic tumors in Lung cancer. Currently, my research focuses on preclinical models to address how genetic and biochemical alterations promote cancer growth and the therapeutic implications of this underlying biology.
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During my research journey, my research work has explored how different signalosomes regulate intracellular physiology and its mechanistic understanding can unfold the therapeutic approach particularly in context to cancer and neurodegenerative disease. I have co-authored research publications mainly based on translational research that govern cellular homeostasis and its dysregulation leading to pathological outcomes.
Publications (5)
Top publication keywords:
ElectronsReactive Oxygen SpeciesAcetophenonesCalmodulin-Binding ProteinsBreast NeoplasmsNeoplasmsOxidative StressAutoantigensParkinson DiseaseTandem Mass SpectrometryProtein IsoformsChromatography, LiquidMesencephalonMyoblasts, CardiacMitochondria, Heart
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Correction: In the Rat Midbrain, SG2NA and DJ-1 have Common Interactome, Including Mitochondrial Electron Transporters that are Comodulated Under Oxidative Stress.
Cellular and molecular neurobiology 2023 Bisoyi P, Ratna D, Kumar G, Mallick BN, Goswami SK -
In the Rat Midbrain, SG2NA and DJ-1 have Common Interactome, Including Mitochondrial Electron Transporters that are Comodulated Under Oxidative Stress.
Cellular and molecular neurobiology 2023 Bisoyi P, Ratna D, Kumar G, Mallick BN, Goswami SK -
The profile of expression of the scaffold protein SG2NA(s) differs between cancer types and its interactome in normal vis-a-vis breast tumor tissues suggests its wide roles in regulating multiple cellular pathways.
Molecular and cellular biochemistry 2022 Bisoyi P, Devi P, Besra K, Prasad A, Jain BP, Goswami SK -
In cardiac muscle cells, both adrenergic agonists and antagonists induce reactive oxygen species from NOX2 but mutually attenuate each other's effects.
European journal of pharmacology 2021 Prasad A, Mahmood A, Gupta R, Bisoyi P, Saleem N, Naga Prasad SV, Goswami SK -
Mitoapocynin, a mitochondria targeted derivative of apocynin induces mitochondrial ROS generation and apoptosis in multiple cell types including cardiac myoblasts: a potential constraint to its therapeutic use.
Molecular and cellular biochemistry 2021 Mahmood A, Bisoyi P, Banerjee R, Yousuf M, Goswami SK