<p>1. Cyanobacteria in diverse habitats<br>2. Evolution of cyanobacteria with emphasis on genome evolution associated with symbiosis<br>3. Cyanobacterial Taxonomy: Morphometry to Molecular Studies<br>4. Dormant cells (akinetes) of filamentous cyanobacteria demonstrate a great variability in morphology, physiology and ecological function<br>5. Chlorophyll a Fluorescence in Cyanobacteria<br>6. Morphogenesis in Cyanobacterium Fremyella diplosiphon to improve photosynthetic efficiency<br>7. Photoprotection and survival strategies in cyanobacteria<br>8. Recent advances in dinitrogen fixation and hydrogen metabolism by cyanobacteria<br>9. Influence of circadian clock on optimal regime of central C-N metabolism of cyanobacteria<br>10. Phycobiliproteins and their commercial significance<br>11. Environmental and technological stresses and their management in Cyanobacteria<br>12. Iron homeostasis in cyanobacteria: TonB and Fur dependent iron acquisition and its regulation<br>13. Metals in Cyanobacteria: Physiological and Molecular regulation<br>14. Ecophysiology of cyanobacteria in the polar regions<br>15. Pesticides and rice agriculture<br>16. Cyanobacteria: Applications in biotechnology<br>17. Cyanobacterial exopolysaccharides; Composition, biosynthesis and biotechnological applications<br>18. Cyanobacterial secretion systems: understanding fundamental mechanisms towards technological applications<br>19. Cyanobacterial siderophore: Ecological and biotechnological significance<br>20. Assessment of emerging pollutants in freshwater using cyanobacteria<br>21. Cyanobacterial bioenergy and biofuels science and technology: A scientometric overview<br>22. Cyanobacterial Toxins<br>23. Plant growth promoting abilities in cyanoobacteria<br>24. Importance of bioinformatics in genome mining of cyanobacteria for production of bioactive compounds</p>
