Sudipta Maiti
Affiliations: | Chemical Sciences | Tata Insitute of Fundamental Research |
Area:
Biophotonics, Neurodegenrative DisordersWebsite:
http://www.tifr.res.in/~dcs/dcs_faculty_sudipta.htmGoogle:
"Sudipta Maiti"Mean distance: 14.52 (cluster 11) | S | N | B | C | P |
Cross-listing: Chemistry Tree
Parents
Sign in to add mentor| Robin M. Hochstrasser | grad student | 1994 | Penn (Chemistry Tree) |
| Watt W. Webb | post-doc | Cornell (Chemistry Tree) |
Children
Sign in to add trainee| Parijat Sengupta | grad student | Tata Insitute of Fundamental Research (Chemistry Tree) | |
| Balaji Jayaprakash | grad student | 2005 | Tata Institute of Fundamental Research |
| Kanchan Garai | grad student | 2000-2006 | Tata Insitute of Fundamental Research (Chemistry Tree) |
| Bankanidhi Sahoo | grad student | 2002-2008 | Tata Insitute of Fundamental Research |
| Arkarup Banerjee | grad student | 2007-2010 | TIFR, Mumbai (Chemistry Tree) |
| Bidyut Sarkar | grad student | 2008-2014 | Tata Insitute of Fundamental Research (Chemistry Tree) |
| Debanjan Bhowmik | grad student | 2009-2015 | Tata Insitute of Fundamental Research (Chemistry Tree) |
| Sujit Kumar Ghosh | research scientist | 2008 | TIFR (Chemistry Tree) |
BETA: Related publications
See more...
Publications
|
You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect. |
| Dey A, Verma A, Bhaskar U, et al. (2024) A Toxicogenic Interaction between Intracellular Amyloid-β and Apolipoprotein-E. Acs Chemical Neuroscience |
| Alexandrova AN, Biteen JS, Coriani S, et al. (2023) Early-Career and Emerging Researchers in Physical Chemistry Volume 2. The Journal of Physical Chemistry. B. 127: 9211-9214 |
| Alexandrova AN, Biteen JS, Coriani S, et al. (2023) Early-Career and Emerging Researchers in Physical Chemistry Volume 2. The Journal of Physical Chemistry. A. 127: 8967-8970 |
| Rhlee JH, Maiti S, Lee JW, et al. (2022) Synthesis of α,β-unsaturated ketones through nickel-catalysed aldehyde-free hydroacylation of alkynes. Communications Chemistry. 5: 13 |
| Dey A, Maiti S. (2022) Determining the Stoichiometry of Amyloid Oligomers by Single-Molecule Photobleaching. Methods in Molecular Biology (Clifton, N.J.). 2538: 55-74 |
| Vishvakarma V, Maiti S. (2022) Measuring the Size and Spontaneous Fluctuations of Amyloid Aggregates with Fluorescence Correlation Spectroscopy. Methods in Molecular Biology (Clifton, N.J.). 2538: 35-54 |
| Gupta A, Dey S, Bhowmik D, et al. (2022) Coexisting Ordered and Disordered Membrane Phases Have Distinct Modes of Interaction with Disease-Associated Oligomers. The Journal of Physical Chemistry. B |
| Fritzsch J, Korn A, Surendran D, et al. (2021) Probing the Influence of Single-Site Mutations in the Central Cross-β Region of Amyloid β (1-40) Peptides. Biomolecules. 11 |
| Das A, Korn A, Carroll A, et al. (2021) Application of the Double-Mutant Cycle Strategy to Protein Aggregation Reveals Transient Interactions in Amyloid-β Oligomers. The Journal of Physical Chemistry. B. 125: 12426-12435 |
| Zipfel W, Xu C, Elson E, et al. (2021) Memorial Viewpoint for Watt W. Webb: An Experimentalist's Experimentalist. The Journal of Physical Chemistry. B |