Tag: Rahul Shrivastava

Prof. Dr. Rahul Shrivastava: Teaching and Research, Professor and Head at Department of Biological Science and Engg., Maulana Azad National Institute of Technology, Bhopal (MP), India

Dr. Rahul M Shrivastava is a seasoned Professor in the Department of Biological Science and Engineering at Maulana Azad National Institute of Technology (MANIT), Bhopal. With a robust background in biochemistry and molecular biology, he has made substantial contributions in the fields of biotechnology, nanotechnology, and drug design. His research is recognized for integrating computational and experimental approaches to address challenges in human health, environmental science, and bioinformatics. Dr. Shrivastava has also played a pivotal role in mentoring graduate and doctoral students, fostering research excellence and innovation.

Online Profiles

Scopus Profile

Dr. Rahul M. Shrivastava is a distinguished researcher at Maulana Azad National Institute of Technology (MANIT), Bhopal, India. His scholarly work is indexed on major academic platforms, including Scopus, where he holds the author ID 57190421516. He has authored 43 documents that have collectively received 348 citations from 304 different sources. His research impact is further reflected by an h-index of 10. Dr. Shrivastava also maintains an ORCID profile (0000-0002-8544-5046), facilitating global accessibility and transparency of his academic contributions.

Education

He completed his MSc and PhD in Biochemistry from Devi Ahilya University, Indore, Madhya Pradesh. During his doctoral studies, he was awarded a Junior Research Fellowship by the Department of Science & Technology (DST), Government of India, which supported his research on molecular mechanisms in biological systems. His educational journey laid the foundation for a research-intensive career blending biochemistry, bioinformatics, and biotechnology.

Research Focus

Dr. Shrivastava’s research interests are diverse yet interlinked, focusing on the green synthesis of bi-metallic nanoparticles using plant extracts and their applications in antimicrobial therapies. He has extensively studied the anti-venom potential of medicinal plants, stress-induced proteomic changes in pathogenic bacteria like E. coli and Staphylococcus aureus, and computational drug design techniques. His work in biosensor development targets early detection of diseases such as oral carcinoma. Furthermore, he integrates bioinformatics tools for disease diagnostics and therapeutic advancements, making significant strides in translational research.

Experience

With over 20 years of teaching and research experience, Dr. Shrivastava has served in multiple academic institutions, including APS University Rewa, VIT University Vellore, and Bhopal Memorial Hospital & Research Centre. Since 2010, he has been affiliated with MANIT Bhopal, initially as Associate Professor and subsequently as a full Professor. His roles have encompassed postgraduate teaching, research supervision, curriculum development, and laboratory strengthening. He has also been a visiting faculty member at the Asian Institute of Technology, Bangkok, reflecting his commitment to academic exchange and capacity building.

Research Timeline & Activities

Dr. Shrivastava has successfully executed numerous funded research projects from esteemed agencies like UGC, CSIR, MPCST, and MANIT. His projects range from bi-metallic nanoparticle synthesis and their biomedical applications to phytochemical investigations of ethnomedicinal plants and proteomic analysis of bacterial stress responses. He has developed novel devices aimed at rural healthcare improvements, particularly for disinfecting air and surfaces in agricultural settings. His foreign collaboration includes a molecular dynamics study on tuberculosis immunity funded by King Abdul Aziz University, demonstrating a multidisciplinary and international research footprint.

Awards & Honors

His scientific excellence has been recognized through several prestigious awards such as the Established Scientist Award (2016) by the Scientific Planet Society, the Biotechnology Chair at Addis Ababa University (2016) awarded by ICCR, and the Distinguished Scientist Award (2018) by Venus Foundation, Chennai. Additionally, he has received competitive government fellowships and has been invited as a keynote speaker and session chair at various national and international scientific forums, reflecting his leadership and impact in the scientific community.

Top Noted Publication

Among his extensive publication record, a standout paper is “Isolation and partial characterization of Synechococcus sp. PCC 7942 mutant resistant to natural herbicide,” published in Plant Science (2003, Impact Factor 5.2). This work provided critical insights into cyanobacterial resistance mechanisms and algicide production, contributing to the understanding of microbial interactions and environmental biotechnology. Dr. Shrivastava has authored multiple high-impact research articles and book chapters, advancing knowledge in biochemistry, bioinformatics, and nanotechnology.

• Artemisinin’s Molecular Symphony: Illuminating Pathways for Cancer Therapy
  Published in Molecular Biology Reports (December 2025), this article explores the anticancer potential of artemisinin, detailing molecular mechanisms and therapeutic pathways. The work represents cutting-edge research on plant-derived compounds in oncology. Contributors include Sandeep Kumar Jhade, Karthik Kalidoss, Poonam Kumari Pathak, and Rahul Shrivastava. [DOI: 10.1007/s11033-024-10202-7]

• Proteogenomic Approaches for Snake Venom Protein-Based Drug Development: Current Trends and Challenges
  Featured in Transactions of The Royal Society of Tropical Medicine and Hygiene (June 2025), this publication reviews the advances in venom proteogenomics for drug discovery, emphasizing therapeutic potentials and existing hurdles. Co-authors include Jhade, Kalidoss, Pathak, and Shrivastava. [DOI: 10.1093/trstmh/trae073]

• Drug Repurposing: An Approach for Reducing Multidrug Resistance
  A 2023 book chapter in Non-Traditional Approaches to Combat Antimicrobial Drug Resistance focusing on innovative strategies to combat antibiotic resistance through drug repurposing. Collaborators include Ruchi Khare, Sandeep Jhade, M.K. Tripathi, and Rahul Shrivastava. [DOI: 10.1007/978-981-19-9167-7_7]

• Phytoconstitutents from Indian Medicinal Plants Show Therapeutic Potential to Combat COVID-19 by Binding to SARS-CoV-2 Main Protease (M^pro)
  A 2023 research preprint on Research Square investigating natural compounds for COVID-19 therapy by targeting viral proteases. The study involves multiple contributors, including Shrivastava and collaborators. [DOI: 10.21203/rs.3.rs-3498252/v1]

• Blueprint for Impedance-Based Electrochemical Biosensors as Bioengineered Tools in the Field of Nano-Diagnostics
  Published in Current Research in Biotechnology (2022), this article discusses the design and application of impedance-based biosensors in medical diagnostics, highlighting their role in nano-diagnostics and biosensing technologies. Contributors include Ruchi Khare, Verma, Singh, Pal, and Rahul Shrivastava. [DOI: 10.1016/j.crbiot.2022.11.001]

Strength for the Best Innovator Award

1. Green Synthesis of Bi-Metallic Nanoparticles for Biomedical Applications

Prof. Shrivastava has pioneered environmentally sustainable methods for synthesizing bi-metallic nanoparticles utilizing plant extracts, a breakthrough in green nanotechnology. These nanoparticles exhibit remarkable antimicrobial properties, demonstrating potential for treating infections without harmful chemical residues. This approach not only reduces environmental pollution but also creates biocompatible materials suitable for clinical applications, reflecting innovation in both material science and biomedical engineering (Shrivastava et al., 2022)^[1^]. His work provides a scalable model for eco-friendly nanomaterial production, influencing future therapeutic agent development.

2. Novel Anti-Venom and Antimicrobial Therapeutics from Medicinal Plants

By combining phytochemical analysis with proteomic profiling, Dr. Shrivastava has successfully identified potent bioactive compounds from ethnomedicinal plants that show significant anti-venom and antimicrobial effects. This research addresses critical gaps in the treatment of venomous bites and antibiotic-resistant bacterial infections, contributing to safer, cost-effective therapeutic alternatives. His innovative strategies in natural product drug discovery harness traditional knowledge and modern technology to develop novel treatment modalities (Shrivastava et al., 2023)^[2^].

3. Advanced Biosensor Technologies for Early Disease Detection

Dr. Shrivastava’s design of impedance-based electrochemical biosensors represents a significant leap forward in nano-diagnostics. These biosensors are highly sensitive, portable, and cost-effective, enabling early detection of diseases such as oral carcinoma, which drastically improves prognosis through timely intervention. His work integrates nanotechnology, bioengineering, and clinical needs, thereby offering innovative diagnostic tools that are particularly impactful for resource-limited and rural healthcare settings (Khare, Verma, Shrivastava et al., 2022)^[3^].

4. Integration of Computational and Experimental Approaches for Drug Discovery

Through the innovative integration of computational biology and experimental validation, Prof. Shrivastava has accelerated the discovery and repurposing of drugs targeting multidrug-resistant pathogens and cancer. His research on plant-derived molecules like artemisinin uncovers complex molecular pathways in cancer therapy, offering new insights into anticancer drug mechanisms. This multidisciplinary approach enhances the precision and efficiency of drug development, demonstrating innovation in translational biomedical research (Jhade, Kalidoss, Shrivastava et al., 2025)^[4^].

5. Leadership in Multidisciplinary and International Collaborative Research

Dr. Shrivastava exemplifies innovation leadership by steering diverse, multidisciplinary research projects funded by premier agencies like UGC, CSIR, and international collaborators such as King Abdul Aziz University. His work spans biotechnology, nanotechnology, bioinformatics, and molecular biology, yielding impactful outcomes in public health and environmental sustainability. Beyond his research, he has mentored numerous scholars and fostered global academic exchange, positioning himself as a catalyst for innovation and scientific excellence on an international scale