Biosurfactants: Research and Development provides a thorough overview of biosurfactant research and development across a range of settings and industries, highlighting the novel use of enzymes, metabolic and genetic engineering in biosurfactant production and showcasing diverse experimental models and approaches. Sections discuss fundamental characteristics of biosurfactants, their physio-chemical properties, and their differences from chemically synthesize surfactants, different research approaches for the study of known biosurfactants, and the genetic manipulation of microorganisms to increase biosurfactant productivity, or to produce molecules with improved characteristics.
Throughout the book, methods and approaches are discussed in easy-to-digest formats, with methods discussed, ranging from in silico approaches to classical biocatalysis omics analysis and metabolic engineering.
Please Note: This is an On Demand product, delivery may take up to 11 working days after payment has been received.
Table of Contents
Section I Introduction 1. Microbial bio-based amphiphiles (biosurfactants): General aspects on critical micelle concentration, surface tension, and phase behavior 2. New insights in biosurfactants Research
Section II Novel approaches for the production and use of biosurfactants 3. Bioinspired glycolipids: Metals interactions and aqueous-source metal recovery technologies 4. Rhamnolipids-Has the promise come true? 5. Biosurfactants as food additives: New trends and applications 6. Novel approaches in the use of biosurfactants in the oil industry and environmental remediation 7. Biosurfactants produced from corn steep liquor and other nonconventional sources: Their application in different industries
Section III Genetic manipulation and the production of novel biosurfactants 8. Metabolic and process engineering on the edge-Rhamnolipids are a true challenge: A review 9. Improved production of novel (bola) glycolipid biosurfactants with the yeast Starmerella bombicola through an integrative approach combining genetic engineering and multiomics analyses 10. Increasing the natural biodiversity of microbial lipopeptides using a synthetic biology approach
Section IV Use of alternative strategies for biosurfactants production 11. Synthetic approaches to production of rhamnolipid and related glycolipids 12. The use of biocatalysis for biosurfactant production
Section V Concluding remarks 13. Challenges and prospects for microbial biosurfactant research