Biotechnology, Special Microbial Processes
The 25 chapters in this volume describe various fermentations and biotechnological processes which did not fit readily into preceding volumes. Among the topics are many that document the opening of new fields: coal in biotechnology, poly-?-hydroxy- butyric acid, biotechnological photosynthesis, accumulation and leaching of metals, microbial processing of tobacco, flax and leather, and future perspectives of biotechnology in space.
Written by specialists from leading industrial countries who make their knowledge and expertise available to the reader, the contributions are highly applications oriented, thus following the basic principle of this series. They form at the same time a handy reference for everyone already working in the field. Together with the other volumes in the series they help to get a clearer understanding of the entire field of biotechnology.
29 pages matching photosynthesis in this book
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Industrial Fermentation Process
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acetate acetobutylicum acetone acid activity algae anaerobic antibody Appl Bacillus bacteria Bacteriol batch Biochem Bioeng Biol biological biomass bioreactor Biosensors Biotechnol Biotechnology butanediol butanol carbon cell culture cell lines cell wall Chem chemical chlorophyll coal compounds concentration containing cyanobacteria degradation dehydrogenase denitrification duced electron energy Environ enzyme ethanol extraction fermentation ferrooxidans formation fungi gene genetic gliding bacteria glucose glycerol Glycerol production growth hybridoma hydrocarbons hydrogen hydrogenase immobilized increase interferon isolated leaching Lett lignin medium membrane metabolism metal methanogens micro microbial Microbiol microgravity microorganisms molecular weight molecules nitrogen organic oxidation oxygen particles pathway phosphate photosynthesis phototrophic plant cell Poly-HB potential protein pyrite reaction reactor reduced S-layer sensor sludge solvent species spores strains structure substrate sulfate sulfide sulfur surface synthesis Table Technol temperature thermophilic Thiobacillus tion tissue Torma ture uptake yeast yield