Somdatta Sinha
Centre for Cellular and Molecular Biology
45 Papers
344 Citations
Somdatta Sinha is an academic researcher from Centre for Cellular and Molecular Biology. The author has contributed to research in topics: Operon & Population. The author has an hindex of 18, co-authored 43 publications. Previous affiliations of Somdatta Sinha include Indian Institute of Science & Indian Institute of Science Education and Research, Mohali.
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Papers
Mathematical models of malaria - a review
TL;DR: The aim of this article is to develop a hierarchical structure of a range of deterministic models of different levels of complexity, and elaborate the evolution of modelling strategies to describe malaria incidence by including the critical features of host-vector-parasite interactions.
Theoretical study of tryptophan operon: Application in microbial technology.
TL;DR: A model for the tryptophan operon is formulated based on the genetic and biophysical data available on the structure of the operon and the nature of interactions between the represser and its ligands to identify conditions at which the stability of the system changes.
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Using genomic signatures for HIV-1 sub-typing
Aridaman Pandit,Somdatta Sinha +1 more
TL;DR: It is demonstrated that CGR is a simple and computationally less intensive method that not only accurately segregates the HIV-1 subtype and sub-subtypes, but also aid in the classification of the unclassified sequences.
The role of heterogeneity on the spatiotemporal dynamics of host–parasite metapopulation ☆
TL;DR: Modelled a homogeneous metapopulation of the interacting host and parasite system, with closed boundary and dispersal limited to nearest neighbours, using the spatially explicit coupled map lattice approach, which shows spatiotemporally synchronous dynamics in the long-term.
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Minimal model for complex dynamics in cellular processes.
TL;DR: The common nonlinearities and control structures present in biomolecular interactions are capable of eliciting a variety of functional dynamics, such as homeostasis, periodic, complex, and chaotic oscillations, including transients, that are observed in various cellular processes.
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