Your search keyword '"Mudgal, Richa"' showing total 3 results

1. Acid deposition and critical load analysis in Agra, India

Author

Bhattacharya, Anindita, Mudgal, Richa, and Taneja, Ajay

Published

2004

2. Protein sequence design and its applications.

Author

Sandhya, Sankaran, Mudgal, Richa, Kumar, Gayatri, Sowdhamini, Ramanathan, and Srinivasan, Narayanaswamy

Subjects

*AMINO acid sequence, *PROTEIN engineering, *SCAFFOLD proteins, *BIOLOGICAL evolution, *PROTEIN synthesis

Abstract

Design of proteins has far-reaching potentials in diverse areas that span repurposing of the protein scaffold for reactions and substrates that they were not naturally meant for, to catching a glimpse of the ephemeral proteins that nature might have sampled during evolution. These non-natural proteins, either in synthesized or virtual form have opened the scope for the design of entities that not only rival their natural counterparts but also offer a chance to visualize the protein space continuum that might help to relate proteins and understand their associations. Here, we review the recent advances in protein engineering and design, in multiple areas, with a view to drawing attention to their future potential. [ABSTRACT FROM AUTHOR]

Published

2016

3. Enriching the annotation of Mycobacterium tuberculosis H37Rv proteome using remote homology detection approaches: Insights into structure and function.

Author

Ramakrishnan, Gayatri, Ochoa-Montaño, Bernardo, Raghavender, Upadhyayula S., Mudgal, Richa, Joshi, Adwait G., Chandra, Nagasuma R., Sowdhamini, Ramanathan, Blundell, Tom L., and Srinivasan, Narayanaswamy

Abstract

Summary The availability of the genome sequence of Mycobacterium tuberculosis H37Rv has encouraged determination of large numbers of protein structures and detailed definition of the biological information encoded therein; yet, the functions of many proteins in M. tuberculosis remain unknown. The emergence of multidrug resistant strains makes it a priority to exploit recent advances in homology recognition and structure prediction to re-analyse its gene products. Here we report the structural and functional characterization of gene products encoded in the M. tuberculosis genome, with the help of sensitive profile-based remote homology search and fold recognition algorithms resulting in an enhanced annotation of the proteome where 95% of the M. tuberculosis proteins were identified wholly or partly with information on structure or function. New information includes association of 244 proteins with 205 domain families and a separate set of new association of folds to 64 proteins. Extending structural information across uncharacterized protein families represented in the M. tuberculosis proteome, by determining superfamily relationships between families of known and unknown structures, has contributed to an enhancement in the knowledge of structural content. In retrospect, such superfamily relationships have facilitated recognition of probable structure and/or function for several uncharacterized protein families, eventually aiding recognition of probable functions for homologous proteins corresponding to such families. Gene products unique to mycobacteria for which no functions could be identified are 183. Of these 18 were determined to be M. tuberculosis specific. Such pathogen-specific proteins are speculated to harbour virulence factors required for pathogenesis. A re-annotated proteome of M. tuberculosis, with greater completeness of annotated proteins and domain assigned regions, provides a valuable basis for experimental endeavours designed to obtain a better understanding of pathogenesis and to accelerate the process of drug target discovery. [ABSTRACT FROM AUTHOR]

Published

2015