Renu Chaudhary | Microbiology | Best Researcher Award

Posted on by Indian Scientist

Dr. Renu Chaudhary | Microbiology | Best Researcher Award

CSIR-Institute of Genomics and Integrative Biology (IGIB), New Delhi | India

Dr. Renu Chaudhary is a dedicated microbiologist and molecular biologist with extensive expertise in genomics, genome editing (CRISPR/Cas9), and antifungal research. Her work spans transcriptomics, structural biology, phenotypic analysis, and the study of stress response mechanisms in pathogenic fungi and Mycobacterium tuberculosis. She has contributed significantly to isolating and characterizing antimicrobial bacteria from plant rhizospheres, developing novel antifungal compounds, and exploring molecular targets for antifungal and antibacterial therapeutics. Dr. Chaudhary has authored numerous peer-reviewed articles and book chapters, with a total of 156 citations, an h-index of 6, and an i10-index of 4, reflecting her research impact and scholarly recognition. She has been involved in leading and collaborating on several funded projects, including fellowships from national science agencies, focusing on fungal diagnostics, drug resistance mechanisms, and metal homeostasis in microbes. Her research interests include antifungal resistance, microbial genomics, protein therapeutics, and biotechnological applications of fungi. Recognized for excellence in presentations and publications, she has received awards for best poster and paper contributions at national and international conferences. Dr. Chaudhary combines deep scientific knowledge with analytical rigor, driving translational research aimed at innovative solutions for infectious disease management and microbial therapeutics.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Chaudhary, R., Singh, B., Kumar, M., Gakhar, S. K., Saini, A. K., Parmar, V. S., … [et al.]. (2015). Role of single nucleotide polymorphisms in pharmacogenomics and their association with human diseases. Drug Metabolism Reviews, 47(3), 281–290.

Balhara, M., Chaudhary, R., Ruhil, S., Singh, B., Dahiya, N., Parmar, V. S., … [et al.]. (2016). Siderophores; iron scavengers: The novel & promising targets for pathogen specific antifungal therapy. Expert Opinion on Therapeutic Targets, 20(12), 1477–1489.

Ahlawat, S., Chaudhary, R., Dangi, M., Bala, K., Singh, M., Chhillar, A. K. (2020). Advances in tuberculous meningitis diagnosis. Expert Review of Molecular Diagnostics, 20(12), 1229–1241.

Chaudhary, R., Balhara, M., Jangir, D. K., Dangi, M., Dangi, M., Chhillar, A. K. (2019). In silico protein interaction network analysis of virulence proteins associated with invasive aspergillosis for drug discovery. Current Topics in Medicinal Chemistry, 19(2), 146–155.

Khatri, S., Kumar, M., Phougat, N., Chaudhary, R., Chhillar, A. K. (2016). Perspectives on phytochemicals as antibacterial agents: An outstanding contribution to modern therapeutics. Mini Reviews in Medicinal Chemistry, 16(4), 290–308.

Pooja Gupta | Microbial Pathogenesis | Best Researcher Award

Posted on by Indian Scientist

Dr. Pooja Gupta | Microbial Pathogenesis | Best Researcher Award

Presidency University, Kolkata | India

Pooja Gupta is a postdoctoral researcher in critical care research at a leading cancer institute, where her work focuses on lung infection models and the role of neutrophils in infection among cancer patients. She earned her Ph.D. in Molecular Microbiology and Immunology from CSIR–Central Drug Research Institute, where she investigated novel and unconventional molecules as next-generation therapeutics, including quorum sensing inhibitors and antimicrobial peptides against drug-resistant pathogens. With a strong foundation in microbiology and immunology, she has developed expertise in bacterial communication systems, anti-virulence strategies, biofilm inhibition, protein modeling, molecular cloning, animal models of infection, and immunological assays. She has presented her work at national and international conferences, contributed to peer-reviewed publications, and co-authored patents based on her discoveries. Her research interests lie in quorum sensing, antimicrobial peptide design, host–pathogen interactions, infection in cancer, and translational microbiology. She is passionate about bridging basic science with applied therapeutics to combat antibiotic resistance and improve infection outcomes in vulnerable patient populations. Recognized for her scientific contributions, she continues to pursue innovative approaches at the interface of microbiology, immunology, and oncology with the goal of advancing next-generation anti-infective strategies for human health.

Profile: Orcid

Featured Publications

Gupta, P., Yadav, P., Lata, M., Chaudhary, S., Telang, V., Kishore, R., Kishan, J., Goswami, K., Arockiaraj, J., Singh, R., & others. (2025). Potential next generation targets for antibacterial agent’s discovery and development. European Journal of Medicinal Chemistry.

Arya, C. G., Kishore, R., Gupta, P., Gondru, R., Arockiaraj, J., Pasupuleti, M., Chandrakanth, M., Punya, V. P., & Banothu, J. (2024). Identification of coumarin–benzimidazole hybrids as potential antibacterial agents: Synthesis, in vitro and in vivo biological assessment, and ADMET prediction. Bioorganic & Medicinal Chemistry Letters.

Lata, M., Telang, V., Gupta, P., Pant, G., Kalyan, M., Arockiaraj, J., & Pasupuleti, M. (2024). Synthetic short cryptic antimicrobial peptides as templates for the development of novel biotherapeutics against WHO priority pathogen. International Journal of Peptide Research and Therapeutics.

Lata, M., Telang, V., Gupta, P., Pant, G., Kalyan, M., Arockiaraj, J., & Pasupuleti, M. (2023). Evolutionary and in silico guided development of novel peptide analogues for antibacterial activity against ESKAPE pathogens. Current Research in Microbial Sciences.

Biswas, S., Rahaman, T., Gupta, P., Mitra, R., Dutta, S., Kharlyngdoh, E., Guha, S., Ganguly, J., Pal, A., & Das, M. (2022). Cellulose and lignin profiling in seven economically important bamboo species of India by anatomical, biochemical, FTIR spectroscopy and thermogravimetric analysis. Biomass and Bioenergy.