Overview
Research into plant‑based antifungals offers a viable alternative to discover potent, eco‑friendly, and sustainable treatments. Natural antifungal compounds offer a promising solution, as they tend to have fewer side effects and reduced risk of resistance development compared to synthetic alternatives. This book delves into the application of metagenomics in identifying and harnessing the microbial communities associated with medicinal plants. By integrating bioprospecting techniques with cutting‑edge genomic technologies, this work opens up promising new avenues to provide insights into the potential of natural products for developing novel antifungal therapies. Key Features: • Combines bioprospecting, microbiology, plant science, and genomic technologies to unlock the therapeutic potential of medicinal plants for antifungal applications. • Contains comprehensive coverage of metagenomics tools and advanced bioprocessing methods. • Covers the practical applications for drug development and sustainable solutions for emerging fungal threats. • Addresses the urgent global health challenge posed by emerging and resistant fungal pathogens, providing new strategies and potential solutions through the bioprospecting of plant-associated microbes. • Provides an innovative approach to antifungal discovery and focuses on emerging fungal infections.
Full Product Details
Author: Eti Sharma ,
Rekha Puria ,
Karan Kumar
Publisher: Taylor & Francis Ltd
Imprint: CRC Press
ISBN: 9781041061380
ISBN 10: 1041061382
Pages: 264
Publication Date: 20 May 2026
Audience:
College/higher education
,
Professional and scholarly
,
Tertiary & Higher Education
,
Professional & Vocational
Format: Hardback
Publisher's Status: Forthcoming
Availability: Not yet available
This item is yet to be released. You can pre-order this item and we will dispatch it to you upon its release.
Author Information
Eti Sharma is currently working as an Assistant Professor at the School of Biotechnology, Gautam Buddha University, Greater Noida, India. She earned her Ph.D. in Molecular Biology and Biotechnology from G.B. Pant University of Agriculture and Technology, Pantnagar, India. She has been awarded several prestigious fellowships from reputed organizations in India. She has established herself in the field of bioprospecting and metabolomics of medicinal plants. She has expertise in medicinal plant research, biofabrication, and plant–microbe interactions. Her current research focuses on exploring the role of plant‑associated microbiomes in the production of pharmaceutically significant bioactive compounds. She has completed two edited book proposals, with more currently in progress. Additionally, she has authored numerous research papers in nationally and internationally reputed journals, along with many book chapters. Rekha Puria is working as an Assistant Professor and the Head of the Department, School of Biotechnology, Gautam Buddha University, Greater Noida, India. She finished her post‑doctorate from Duke University Medical Centre, USA, and her doctorate from the Institute of Microbial Technology (IMTECH), India. She has 15 plus years of experience in yeast genetics and genomics. She is proficient in genetic manipulation techniques and genome‑scale expression profiling through microarrays and transcriptomics. She extensively uses Saccharomyces as a model to understand the concepts of cellular growth and proliferation regulated through both coding and noncoding transcripts. Her research work has added in current understanding of the role of TOR signaling pathway in cell growth under stress conditions. Currently, her interest is in understanding growth, pathogenesis, and drug tolerance of Candida auris and the identification of novel antifungals against Candida. Her research is sponsored by several grants from the Government of India. Her work has been published in a number of international journals with high impact factor. In addition, she has authored several book chapters. Karan Kumar is a Postdoctoral Research Associate in The Blank Lab (Industrial Systems Biotechnology, iAMB) at RWTH Aachen University, working on the EIC Pathfinder project HYDROCOW. His current research integrates pangenome‑guided genome‑scale metabolic models, DBTL experimentation, and machine‑learning‑assisted design to engineer Xanthobacter sp. SoF1 for “food‑from‑air” protein production from CO₂/H₂, in collaboration with Solar Foods, FGen/Ginkgo Bioworks, and the University of Groningen. He earned his Ph.D. in Energy Science and Engineering from the Indian Institute of Technology (IIT) Guwahati as a Prime Minister’s Research Fellow (2018–2023), where he combined clostridial ABE fermentation on lignocellulosic hydrolysates with comparative/pangenomics, GEMs (FBA/ FVA), omics integration, DoE‑driven bioprocess optimization, and sono‑enzymatic upgrading to n‑butyl levulinate. His dissertation was recognized with the institute’s Best PhD Thesis Award (2024). He has authored over 13 peer‑reviewed journal articles and 10 book chapters in leading international publications. His publication record spans leading venues, including two first‑author articles in Process Safety and Environmental Protection, and additional publications in Biotechnology & Bioengineering, Biomass Conversion & Biorefinery, and Process Biochemistry. He also co‑authored papers in Algal Research and Energy Conversion and Management and contributed invited chapters to multiple volumes published in 2024. Collectively, his contributions cover the domains of biofuel process intensification, metabolic modeling, and computational bioprocess engineering. Since joining RWTH, he has co‑authored an invited review in press in Trends in Biotechnology on gas precision fermentation with hydrogen‑oxidizing bacteria, as well as a 2025 review in Renewable and Sustainable Energy Reviews on fourth‑generation biodiesel, reflecting his broadened systems biotechnology agenda in Aachen. He led Winter/ Virtual Internships in bioinformatics and mathematical biology that trained 30+ students and yielded a preprint, journal papers, book chapters, and student awards. He has been proactive in disseminating his research. He delivered oral presentations at Clostridia XVI (INSA Toulouse, 2022), VII‑SEEC (2022), VI‑SEEC (2021), and AOSS‑4 (2019); presented an e‑poster at ISMB 2022; and gave a 3‑Minute Thesis talk at RIC 2022. His talks received multiple accolades, including the Best Paper Award (VII‑SEEC 2022), Springer Best Paper Award (NERC‑2022), and Best Oral Presentation (BREEECH‑2021). He also secured competitive travel grants from PMRF, DBT‑CTEP, and SERB‑ITS (Young Scientist).
