Description
Book SynopsisThe first volume of the Handbook of Polyhydroxyalkanoates (PHA): Microbial Biosynthesis and Feedstocks focusses on feedstock aspects, enzymology, metabolism and genetic engineering of PHA biosynthesis. It addresses better understanding the mechanisms of PHA biosynthesis in scientific terms and profiting from this understanding in order to enhance PHA biosynthesis in bio-technological terms and in terms of PHA microstructure. It further discusses making PHA competitive for outperforming established petrol-based plastics on industrial scale and obstacles for market penetration of PHA. Aimed at professionals and graduate students in Polymer (plastic) industry, wastewater treatment plants, food industry, biodiesel industry, this book
Covers the intracellular on-goings in PHA-accumulating bacteria
Assesses diverse feedstocks to be used as carbon source for PHA production including current knowledge on PHA biosynthesis starting from inexpensive waste feedstocks
Summarize
Table of Contents
1. Monomer-Supplying Enzymes for Polyhydroxyalkanoate Biosynthesis. 2. PHA Granule-Associated Proteins and their Diverse Functions. 3. Genomics of PHA Synthesizing Bacteria. 4. Molecular Basis of Medium-Chain Length-PHA Metabolism of Pseudomonas putida. 5. Production of Polyhydroxyalkanoates by Paraburkholderia and Burkholderia species: A Journey from the Genes through Metabolic Routes to their Biotechnological Applications. 6. Genetic Engineering as a Tool for Enhanced PHA Biosynthesis from Inexpensive Substrates. 7. Biosynthesis and Sequence Control of scl-PHA and mcl-PHA. 8. Inexpensive and Waste Raw Materials for PHA Production. 9. Sustainable Production of Polyhydroxyalkanoates from Crude Glycerol. 10. Biosynthesis of Polyhydroxyalkanoates (PHA) from Vegetable Oils and its By-products by Wild-Type and Recombinant Microbes. 11. Production and Modification of PHA Polymers Produced from Long-Chain Fatty Acid. 12. Converting Petrochemical Plastic to Biodegradable Plastic. 13. Comparing Heterotrophic with Phototrophic PHA Production - Concurring or Complementing Strategies?. 14. Coupling Biogas (CH4) with PHA Biosynthesis. 15. Syngas as a Sustainable Carbon Source for PHA Production.
