Divya Singh
Affiliations: | Chemistry | IISER Pune, Pune, Maharashtra, India |
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| Singh D, Punia B, Chaudhury S. (2022) Theoretical Tools to Quantify Stochastic Fluctuations in Single-Molecule Catalysis by Enzymes and Nanoparticles. Acs Omega. 7: 47587-47600 |
| Singh D, Chaudhury S. (2022) A single-molecule stochastic theory of protein-ligand binding in the presence of multiple unfolding/folding and ligand binding pathways. Biophysical Chemistry. 285: 106803 |
| Singh D, Mondal K, Chaudhury S. (2021) Effect of Memory and Inertial Contribution on Transition-Time Distributions: Theory and Simulations. The Journal of Physical Chemistry. B |
| Chaudhury S, Singh D, Kolomeisky AB. (2020) Theoretical Investigations of the Dynamics of Chemical Reactions on Nanocatalysts with Multiple Active Sites. The Journal of Physical Chemistry Letters |
| Singh D, Chaudhury S. (2019) Stochastic simulations data for figure 1 and the phase diagram construction for defining monotonic and non-monotonic regimes of the velocity as a function of . Data in Brief. 25: 104211 |
| Singh D, Chaudhury S. (2019) Theoretical study of the conditional non-monotonic off rate dependence of catalytic reaction rates in single enzymes in the presence of conformational fluctuations Chemical Physics. 523: 150-159 |
| Singh D, Chaudhury S. (2018) Correction to Effect of Substrate Number Fluctuations in Stochastic Enzyme Kinetics. Acs Omega. 3: 8483 |
| Singh D, Chaudhury S. (2018) Effect of Substrate Number Fluctuations in Stochastic Enzyme Kinetics. Acs Omega. 3: 5574-5583 |
| Singh D, Chaudhury S. (2018) Single-molecule kinetics of an enzyme in the presence of multiple substrates. Chembiochem : a European Journal of Chemical Biology |
| Singh D, Chaudhury S. (2017) Statistical properties of fluctuating enzymes with dynamic cooperativity using a first passage time distribution formalism. The Journal of Chemical Physics. 146: 145103 |