Advancement in Crop Improvement Techniques

<p>1. Combination of DNA markers and eQTL information for introgression of multiple salt tolerance traits in rice <br>2. The scope of transformation and genome editing for quantitative trait improvements in rice<br>3. Tweaking MicroRNA mediated gene regulation for crop improvement<br>4. Modern tools used in improving rice production<br>5. Genome Editing in the context of Seed research: How these novel biotechnology tools can change the future face of agricultural crop development<br>6. Molecular aspects of seed priming as means of progress in crop improvement<br>7. Plant Histidine kinases: targets for crop improvement<br>8. Recent developments on improving rice yield under drought using genomic technologies<br>9. Advances in genomics and molecular breeding for legume improvement<br>10. Advancement in plant disease control strategies<br>11. How Crisp is CRISPR? CRISPR-Cas mediated crop improvement with special focus on nutritional traits<br>12. Targeted genome editing using Crisp-Cas9: applications in fruit quality and stress resilience<br>13. Systems biology of crop improvement: drought tolerance as a model to integrate molecular biology, physiology, and breeding<br>14. The microbial symbionts: Potential for the crop improvement in changing environments<br>15. Reactive oxygen species (ROS) management in engineered plants for abiotic stress tolerance<br>16. Metabolomics assisted crop improvement<br>17. Improving medicinal crops through phytochemical perspective<br>18. Approaches for Conservation and Improvement of Himalayan Plant Genetic Resources<br>19. Molecular Markers as tools in Date-palm Improvement<br>20. Transgenic approach in crops improvement<br>21. In-plant transformation: a smart way of crops improvement<br>22. Fibre crop, Jute improvemnet by using genomics and genetic engineering<br>23. Harnessing protein post-translational modifications for plant improvement</p>