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Full Description
This book presents a collection of the latest developments in halophile research over the last decade. The multi-themed volume captures emerging insights into halophilic microbes' diversity, physiology, and unique adaptation. The book emphasizes new advances in genomics, novel biomolecules, and extremozymes functional under saline conditions. Key applications include antimicrobial halocins, plastic-degrading enzymes, drug-like compounds from marine actinomycetes, and bioprocesses for wastewater treatment and biodegradable polymer production. The volume also explores future trends, including integrating AI and ML tools for optimizing halophile-based biotechnologies. Contributed by leading experts, this multi-themed volume is a comprehensive resource for environmental microbiology and extremophile biotechnology researchers.
Contents
Preface. Halophilic Microbes and Enzymes: Diversity, Adaptation, Bioprospecting, and Biotechnological Potential. Halophilic Microbial Communities and Biodeterioration of Cultural Heritage. Metagenome-Assembled Genomes of Prokaryotic Halophiles. Update on the Regulation of Nitrogen Assimilation in Haloarchaea. Heterologous Expression Systems for the Production of Commercially Important Enzymes From Halophiles. Halozymes From Haloarchaea and Their Industrial Significance. Plant Polymer Degrading Extremozymes From Halophilic Bacteria: Their Present State and Future Prospects. Potential of Domestic Waste for the Growth and Production of Enzymes in Halophiles. Synthesis of Polyhydroxyalkanoates by Halophilic Bacteria and Archaea. Polyhydroxyalkanoate Synthesis in Halotolerant and Halophilic Members of the Halomonadaceae Family. Application of Halophiles and Halotolerant Microbes in Industrial Wastewater Treatment. Microbial Bioprocess Efficiency Improvement Through Artificial Intelligence and Machine Learning (AI-ML) Tools. Index.
