Cyanobacteria, the ancient photoautotrophs on the Earth have always been regarded as the most important organism to sustain life in the planet. They are among the first pioneering communities on various harsh habitat, hydrarch or xerarch, which finally facilitate the emergence of vast communities including higher plants. Being the progenitor of chloroplast, the cyanobacterial metabolisms has always fascinated microbiologist. Additionally, the ability of these prokaryotes to produce valuable and prolific sources of natural products signified their role in array of industrial sectors. Further, the attempts to engineer the cyanobacterial metabolisms in way to enhance production of these metabolites are gradually increasing. Therefore, in this book, we proposed to accumulate the knowledge of cyanobacterial metabolisms and molecules as an asset for students, researchers, and biotechnologists. Cyanobacteria: Metabolisms to Molecules will cover diversity, fundamental metabolisms, crucial metabolities and their synthesis, and bioinformatics.
- Casts light on cyanobacterial assistance and their potential role in sustainable developments
- Provides significant insights into the fundamentals of cyanobacterial metabolism as well as lesser known topics
- Determines the role of cyanobacteria in public health
1. Cyanobacteria: The pioneering photoautotrophs
2. Circadian cycle of Cyanobacteria: Mechanistic Prospect and Evolution
3. Carbon concentrating mechanism in Cyanobacteria: Necessity and evolution
4. Cyanobacterial respiration
5. Lipid metabolism: Biosynthesis and Utilisation
6. Sulfur metabolism: Mechanism and Evolution
7. Phosphate metabolism: Fundamental prospective and Applications
9. Redox cycle: Signalling and metabolic cross-talks
10. Glutathione metabolism and regulation
11. NOS mediated cyanobacterial homeostasis
12. Cyanophages: Interacting mechanism and evolutionary significance
13. Secondary metabolites of cyanobacteria
14. Regulated cell death of cyanobacteria
15. Cyanobacteria: A tool for Bioremediation
16. Stress biology and signal perceptions in cyanobacteria
17. Cyanobacterial interactions and symbiosis
18. Bioinformatics in delineating Cyanobacterial metabolisms
19. Metabolic engineering of cyanobacteria for biotechnological applications
20. Cyanobacteria: Human health and Disease
21. Cyanobacteria: A key player in nutrient cycling
Dr. Arun Kumar Mishra, PhD is currently as a Senior Professor at Banaras Hindu University in Varanasi, India. He has 28 years of teaching and research experience. He has specialization in cyanobacterial systematics, microbial physiology, stress signalling, genetics, and proteomics. His research area comprised of deciphering the fundamental metabolisms of cyanobacteria and the physiological and biochemical basis of stress tolerance among microbes. Additionally, he has also successfully deciphered the mechanism of organophosphate bioremediation by Fischerella sp. LMGA1. Furthermore, he has successfully accomplished research projects sponsored by eminent research agencies like Department of Biotechnology, Department of Science and Technology, Council of Scientific and Industrial Research, University Grant Commission and Indian Council of Agricultural Research, Government of India. He has also edited a book on cyanobacteria entitled, Cyanobacteria: From Basic Sciences to Applications, published by Elsevier in the year 2019 Dr. Satya Shila Singh (Ph.D.) is serving as a professor in the Department of Botany, Banaras Hindu University, Varanasi, India. She is actively engaged in UG and PG teaching and possesses 11 and 26 years of teaching and research experiences, respectively. Her area of expertise mainly includes the isolation and characterization of different diazotrophic cyanobacterial strains from various unexplored regions of Chhattisgarh, by using polyphasic approach. Dr. Singh has also studied the responses of diazotrophic cyanobacterial strains to toxic pollutants like heavy metals, pesticide and surfactants. At present, her research are focused on the study of thermophilic cyanobacterial diversity from Indian hot springs and understanding their metabolic behavior, bioremediation prospects, ability to synthesize industrially and pharmaceutically valuable compounds. She has already discovered many novel cyanobacterial species. In addition, she has edited number of books published by national and international publishing house
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