Subrata Mondal
Affiliations: | University of Cambridge, Cambridge, England, United Kingdom |
Area:
amyloid. tau, liquid liquid phase separationGoogle:
"Subrata Mondal"Mean distance: (not calculated yet)
Parents
Sign in to add mentorParameswar Krishnan Iyer | grad student | ||
Michele Vendruscolo | post-doc | (Computational Biology Tree) |
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Publications
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Ghosh P, Shokeen K, Mondal S, et al. (2024) Amyloid Targeting Red Emitting AIE Dots for Diagnostic and Therapeutic Application against Alzheimer's Disease. Acs Chemical Neuroscience |
Mondal S, Vashi Y, Ghosh P, et al. (2023) Self-Assembly Driven Formation of Functional Ultralong "Artificial Fibers" to Mitigate the Neuronal Damage Associated with Alzheimer's Disease. Acs Applied Bio Materials. 6: 4383-4391 |
Mondal S, Zehra N, Choudhury A, et al. (2021) Wearable Sensing Devices for Point of Care Diagnostics. Acs Applied Bio Materials. 4: 47-70 |
Mondal S, Vashi Y, Ghosh P, et al. (2020) Amyloid Targeting 'Artificial Chaperone' Impairs Oligomer Mediated Neuronal Damage and Mitochondrial Dysfunction Associated with Alzheimer Disease. Acs Chemical Neuroscience |
Mondal S, Roy Chowdhury S, Shah M, et al. (2019) Nanoparticle Assisted Regulation of Nucleation Pathway of Amyloid Tetramer and Inhibition of Their Fibrillation Kinetics. Acs Applied Bio Materials. 2: 2137-2142 |
Mondal S, Kumar V, Roy Chowdhury S, et al. (2019) Template-Mediated Detoxification of Low-Molecular-Weight Amyloid Oligomers and Regulation of Their Nucleation Pathway. Acs Applied Bio Materials. 2: 5306-5312 |
Chowdhury SR, Balaji SN, Mondal S, et al. (2018) Modulating Early Stage Amyloid Aggregates by Dipeptide-Linked Perylenebisimides: Structure-Activity Relationship, Inhibition of Fibril Formation in Human CSF and Aβ1-40. Acs Applied Bio Materials. 1: 403-413 |
Chowdhury SR, Mondal S, Iyer PK. (2018) Blocking Oligomeric Insulin Amyloid Fibrillation via Perylenebisimides Containing Dipeptide Tentacles Acs Biomaterials Science & Engineering. 4: 4076-4083 |
Roy Chowdhury S, Mondal S, Muthuraj B, et al. (2018) Remarkably Efficient Blood-Brain Barrier Crossing Polyfluorene-Chitosan Nanoparticle Selectively Tweaks Amyloid Oligomer in Cerebrospinal Fluid and Aβ1-40. Acs Omega. 3: 8059-8066 |