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Full Description
Biotechnological Advances for Microbiology, Molecular Biology, and Nanotechnology: An Interdisciplinary Approach to the Life Sciences presents cutting-edge research associated with the beneficial implications of biotechnology on human welfare.
The volume mainly focuses on the highly demanding thrust areas of biotechnology that are microbiology, molecular biology, and nanotechnology. The book provides a detailed overview of the beneficial roles of microbes and nanotechnology-based engineered particles in biological developments. Also, it highlights the role of epigenetic machinery and redox modulators during the development of diseases. In addition, it provides research on nanotechnology-based applications in tissue engineering, stem cell, and regenerative medicines.
Overall, the book provides an extended platform for acquiring the methodological knowledge needed for today's biotechnological applications, such as DNA methylation, redox homeostasis, CRISPR, nano-based drug delivery systems, proteomics, genomics, metagenomics, bioluminescence, bioreactors, bioremediation, biosensors, etc.
Divided into three sections, the book first highlights some recent trends in applied microbiology used in different areas, such as crop improvement, wastewater treatment, drug delivery, healthcare management, and more. The volume goes on to cover some advances in cellular and molecular mechanisms, such as CRISPR technology in biological systems, induced stem cells in disease prevention, integrated omics technology, and others. The volume also explores the indispensable role of nanotechnology in the precisely modulating intricate functioning of an organism in diagnostic and therapy along its application in tissue engineering and regenerative medicine and in food science as well as its role in ecological sustainability.
This multidisciplinary volume will be highly valuable for the researchers, scientists, biologists, and faculty and students striving to expand their horizon of knowledge in their respective fields.
Contents
PART I: Trends in Applied Microbiology 1. Role of Endophytes in Crop Improvement 2. Omics Approach to Understanding Microbial Diversity 3. Role of Bioremediation in Wastewater Treatment 4. Usage of Engineered Virus-Like Particles in Drug Delivery 5. Novel Microbial Compounds as a Boon in Health Management 6. Rise of the Microbial World: An Economic Point of View 7. Biosafety Principles for Microbial Culture Technologies PART II: Advances in Cellular and Molecular Mechanisms 8. Intracellular Redox Status and Disease Development: An Overview of the Dynamics of Metabolic Orchestra 9. Oxidative Stress as a Detrimental Factor in Various Clinical Pathology 10. Implications of CRISPR Technology in Biological Systems 11. Revolutionary Approaches of Induced Stem Cells in Disease Prevention 12. Stem Cell Biology: An Overview 13. Recent Advances in Imaging and Analysis of Cellular Dynamics in Real Time 14. Integrated Omics Technology for Basic and Clinical Research 15. Current State of Malaria Diagnosis: Conventional, Rapid, and Safety Diagnostic Methods PART III: Nanotechnological Intervention in Life Sciences 16. Current Perspective of Biofunctionalized Nanomaterials in Biology and Medicine 17. Nano-System as Therapeutic Means 18. Recent Developments in Nanoparticulate-Mediated Drug Delivery in Therapeutic Approaches 19. Beneficial Utility and Perspective of Nanomaterials Toward Biosensing 20. Benefits of Nanomaterials-Based Biosensors 21. Role of Nanotechnology in Tissue Engineering and Regenerative Medicine 22. Protein-Based Nanosystems as Emerging Bioavailability Enhancers for Nutraceuticals 23. Application of Nanomaterials in Environmental Pollution Abatement and Their Impact on Ecological Sustainability: Recent Status and Future Perspective
