Omics Technologies and Bio-engineering

<p>MICROBIAL, PLANT AND AGRI BT1. Microbial Omics: Applications in Biotechnology</p> <p>2. Omics Approaches in Viral Biotechnology: Toward Understanding the Viral Diseases, Prevention,Therapy, and Other Applications in Human Betterment</p> <p>3. Algal Biotechnology: An Update From Industrial and Medical Point of View</p> <p>4. Omics Approaches in Fungal Biotechnology: Industrial and Medical Point of View</p> <p>5. Genetic Engineering for Plant Transgenesis: Focus to Pharmaceuticals</p> <p>6. Agricultural Biotechnology: Engineering Plants for Improved Productivity and Quality</p> <p>7. Functional Food Biotechnology: The Use of Native and Genetically Engineered Lactic Acid Bacteria</p> <p>8. Omics and Edible Vaccines</p> <p>9. Plant Metabolic Engineering</p> <p>10. Biocontrol Technology: Eco-Friendly Approaches for Sustainable Agriculture</p> <p>11. Bioengineering Towards Fighting Against Superbugs</p> <p>12. Nanotechnology in Bioengineering: Transmogrifying Plant Biotechnology</p> <p>INDUSTRY AND ENV BIOTECH13. Techniques in Biotechnology: Essential for Industry</p> <p>14. Omics Approaches in Industrial Biotechnology and Bioprocess Engineering</p> <p>15. Omics Approaches and Applications in Dairy and Food Processing Technology</p> <p>16. Omics Approaches in Enzyme Discovery and Engineering</p> <p>17. Biomedical Engineering: The Recent Trends</p> <p>18. Omics Approaches in Biofuel Technologies: Toward Cost Effective, Eco-Friendly, and Renewable Energy</p> <p>19. Omics-Based Bioengineering in Environmental Biotechnology</p> <p>20. Biochar for Carbon Sequestration: Bioengineering for Sustainable Environment</p>