Chemical BiotechnologyEditor  |
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1. | Magdalena Mock Photoautotrophic production of succinate using Synechocystis sp. PCC 6803 Volume: 32 Series: Chemical Biotechnology 978-3-8440-7123-8, January 2020 Online publication (PDF) >To date, nearly all established biotechnological processes are based on heterotrophic organisms. However, these processes depend on organic carbon-based feedstocks like corn or sugarcane and sustainability ... more ... | 45,80 € |
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2. | Anna Hoschek Whole-cell redox biocatalysis driven by photosynthesis An integrated bioprocess design for phototrophic biocatalysts Volume: 31 Series: Chemical Biotechnology 978-3-8440-6765-1, June 2019 Online publication (PDF) >Much success was already achieved for the development of efficient oxyfunctionalization bioprocesses by the application of oxygenases in heterotrophic whole-cell host systems. However, several restrictions ... more ... | 49,80 € |
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3. | Michael Hillen Stabilization of physiology and C-H hydroxylation rates of whole-cell biocatalysts by reaction engineering Volume: 30 Series: Chemical Biotechnology 978-3-8440-6575-6, March 2019 Online publication (PDF) >Whole-cell based biocatalysis provides a great potential for the sustainable production of compounds for the chemical and pharmaceutical industries. Especially in the field of redox cofactor dependent ... more ... | 48,80 € |
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4. | Verena Oehling Integrated population and single-cell analyses for improving industrial lignocellulosic ethanol production with Saccharomyces cerevisiae Volume: 29 Series: Chemical Biotechnology 978-3-8440-5918-2, May 2018 Online publication (PDF) >Cost-effective biotechnological processes based on renewable lignocellulosic biomass will be key in the transition from a fossil-based to a bio-based industry. Lignocellulosic biomass provides a mixture ... more ... | 49,80 € |
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5. | Marvin Kadisch Stabilizing whole-cell biocatalysts En route to more efficient fatty acid methyl ester bioprocessing Volume: 28 Series: Chemical Biotechnology 978-3-8440-5610-5, November 2017 Online publication (PDF) >Whole-cell biocatalysts offer great potential for the development of sustainable processes that are difficult to achieve chemically and can replace or complement traditional chemical and pharmaceutical ... more ... | 49,80 € |
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6. | Katrin Rosenthal Single cell analysis and quantitative physiology of industrially relevant microorganisms Volume: 27 Series: Chemical Biotechnology 978-3-8440-5055-4, February 2017 Online publication (PDF) >The analysis of single cell behavior is currently an important research topic in industrial biotechnology for studying functions and mechanisms of microorganisms without relying on average values of a ... more ... | 48,80 € |
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7. | Kerstin Lange THCA Synthase from Cannabis sativa L. – a biocatalyst for the production of cannabinoids Volume: 26 Series: Chemical Biotechnology 978-3-8440-5038-7, February 2017 Online publication (PDF) >Die vorliegende Arbeit befasst sich mit dem Potential und dem zellfreien Einsatz der FAD-abhängigen Oxidase Δ9-Tetrahydrocannabinolsäure Synthase (THCAS), welches ein Enzym aus dem Sekundärmetabolismus ... more ... | 48,80 € |
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8. | Karolin Schmutzler Understanding the regulatory network of biofilm formation in Pseudomonas taiwanensis VLB120 Volume: 25 Series: Chemical Biotechnology 978-3-8440-4791-2, October 2016 Online publication (PDF) >Pseudomonas taiwanensis VLB120ΔC is a biofilm forming, solvent tolerant bacterium efficiently producing a variety of industrially attractive fine chemicals in catalytic biofilms. The primary goal ... more ... | 48,80 € |
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9. | Martin Lindmeyer Pseudomonas and heterogeneity – benefits and challenges for strain and process engineering Volume: 24 Series: Chemical Biotechnology 978-3-8440-4313-6, March 2016 Online publication (PDF) >Cellular heterogeneity is a major bottleneck for the development of stable and reproducible microbial processes on industrial scale. Most studies on cellular heterogeneity investigated its role and underlying ... more ... | 49,80 € |
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10. | Jan Volmer Strain and process engineering to exploit solvent tolerance mechanisms of Pseudomonas taiwanensis VLB120 for asymmetric styrene epoxidation Volume: 23 Series: Chemical Biotechnology 978-3-8440-4302-0, March 2016 Online publication (PDF) >To reduce the environmental burden associated with chemical production processes and the dependency on limited fossil resources, whole-cell biocatalysis is considered a promising sustainable alternative ... more ... | 49,80 € |
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