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  • Immagine del venditore per Forstgesetz 1975 venduto da avelibro OHG

    Brawenz, Christian, Martin Kind und Stefanie Wieser:

    Lingua: Tedesco

    Editore: MANZ Verlag Wien, 2015

    ISBN 10: 3214034464 ISBN 13: 9783214034467

    Da: avelibro OHG, Dinkelscherben, Germania

    Membro dell'associazione: BOEV

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    EUR 125,00

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    19 x 12 cm. Condizione: Sehr gut. 4., umfassend überarbeitete Auflage. XXV, 898 Seiten Kommentierte Ausgabe mit Judikatur in Leitsätzen. - Innen sehr sauberer, guter Zustand. Hardcover, Pappeinband, mit den üblichen Bibliotheks-Markierungen, Stempeln und Einträgen, innen wie außen, siehe Bilder. Sehr leichte Lagerspuren. Sehr gutes Bibliotheksexemplar. DK-30-01B Sprache: Deutsch Gewicht in Gramm: 800.

  • Stefanie Kind

    Lingua: Inglese

    Editore: Cuvillier Nov 2012, 2012

    ISBN 10: 3954042649 ISBN 13: 9783954042647

    Da: BuchWeltWeit Ludwig Meier e.K., Bergisch Gladbach, Germania

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    Taschenbuch. Condizione: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Polyamides, due to their extreme durability and strength, are important industrial polymers used e.g. in the automotive industry or in high-value consumer products. Their production from petrochemically derived monomers suffers from the shortage of fossil fuels, rising oil prices, escalating CO2 production as well as low eco-efficiency. Most valuable alternatives are biotechnological processes from renewable resources for the production. Thereby, 1,5 diaminopentane is a promising monomer building block for completely bio-based polyamides like PA 5.4 or PA 5.10. In a first proof of concept, the product spectrum of Corynebacterium glutamicum was broadened towards the novel non-natural product diaminopentane by heterologous expression of an Escherichia coli lysine decarboxylase. An important criterion for the successful implementation of such bio-processes is their economic competitiveness with conventional techniques, demanding for efficient microbial production strains. In this work, synthetic metabolic engineering was applied to create an industrial C. glutamicum diaminopentane-producing strain with excellent production properties in a well-defined genomic context. Computational genome-scale modeling was used to investigate the metabolic properties of the bacterium in silico and to predict concepts for global strain design. By introduction of the identified beneficial genetic targets, the metabolism of the C. glutamicum wild type was systematically modified following the key-characteristics required for optimal production: (i) enhancement of the biosynthetic capacity of diaminopentane from its building blocks, (ii) improved supply of the carbon building blocks, (iii) reduced withdrawal of carbon for competing reactions, (iv) engineering of cellular transport, and (v) improved co-factor supply. For strain characterization, state-of-the-art omics technologies were applied. Thereby, metabolomics led to the discovery and subsequent identification of the so far unknown by-product N-acetyl-diaminopentane, transcriptomics enabled the identification of novel targets for enhancing the production properties, and fluxomics was applied to gain a detailed insight into the physiology of the constructed mutants. The final engineered C. glutamicum strain, carrying a set of 16 stable genomic modifications, achieved a remarkable diaminopentane yield of 41 % in shake flasks on glucose minimal medium. The production performance of the rational designed strain was also investigated under industrial conditions in a fed-batch fermentation on glucose based complex medium. In this process, the hyper-producer exhibited a final diaminopentane¿2 HCl titer of 150 g L 1 after 50 h, a constant diaminopentane yield of 50 %, and a maximum productivity of 3.8 g L h-1 in the feed-phase, a benchmark in the bio-based production of novel polymers. Concluding, this work marks a milestone towards biotechnological processes for the production of building blocks for bio-based and high-value added polyamides, one of the most important industrial polymers used worldwide. 168 pp. Englisch.

  • Brawenz, Christian, Martin Kind und Stefanie Wieser

    Editore: MANZ Verlag Wien, 2015

    ISBN 10: 3214034464 ISBN 13: 9783214034467

    Da: BUCHSERVICE / ANTIQUARIAT Lars Lutzer, Wahlstedt, Germania

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    EUR 369,90

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    Condizione: gut. 2015. Forstgesetz 1975 In deutscher Sprache. pages.

  • Kind, Stefanie

    Lingua: Inglese

    Editore: Cuvillier Verlag, 2012

    ISBN 10: 3954042649 ISBN 13: 9783954042647

    Da: moluna, Greven, Germania

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    Condizione: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. KlappentextrnrnPolyamides, due to their extreme durability and strength, are important industrial polymers used e.g. in the automotive industry or in high-value consumer products. Their production from petrochemically derived monomers suffers fr.

  • Stefanie Kind

    Lingua: Inglese

    Editore: Cuvillier Nov 2012, 2012

    ISBN 10: 3954042649 ISBN 13: 9783954042647

    Da: buchversandmimpf2000, Emtmannsberg, BAYE, Germania

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    EUR 27,85

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    Taschenbuch. Condizione: Neu. This item is printed on demand - Print on Demand Titel. Neuware -Polyamides, due to their extreme durability and strength, are important industrial polymers used e.g. in the automotive industry or in high-value consumer products. Their production from petrochemically derived monomers suffers from the shortage of fossil fuels, rising oil prices, escalating CO2 production as well as low eco-efficiency. Most valuable alternatives are biotechnological processes from renewable resources for the production. Thereby, 1,5 diaminopentane is a promising monomer building block for completely bio-based polyamides like PA 5.4 or PA 5.10. In a first proof of concept, the product spectrum of Corynebacterium glutamicum was broadened towards the novel non-natural product diaminopentane by heterologous expression of an Escherichia coli lysine decarboxylase. An important criterion for the successful implementation of such bio-processes is their economic competitiveness with conventional techniques, demanding for efficient microbial production strains. In this work, synthetic metabolic engineering was applied to create an industrial C. glutamicum diaminopentane-producing strain with excellent production properties in a well-defined genomic context. Computational genome-scale modeling was used to investigate the metabolic properties of the bacterium in silico and to predict concepts for global strain design. By introduction of the identified beneficial genetic targets, the metabolism of the C. glutamicum wild type was systematically modified following the key-characteristics required for optimal production: (i) enhancement of the biosynthetic capacity of diaminopentane from its building blocks, (ii) improved supply of the carbon building blocks, (iii) reduced withdrawal of carbon for competing reactions, (iv) engineering of cellular transport, and (v) improved co-factor supply. For strain characterization, state-of-the-art omics technologies were applied. Thereby, metabolomics led to the discovery and subsequent identification of the so far unknown by-product N-acetyl-diaminopentane, transcriptomics enabled the identification of novel targets for enhancing the production properties, and fluxomics was applied to gain a detailed insight into the physiology of the constructed mutants. The final engineered C. glutamicum strain, carrying a set of 16 stable genomic modifications, achieved a remarkable diaminopentane yield of 41 % in shake flasks on glucose minimal medium. The production performance of the rational designed strain was also investigated under industrial conditions in a fed-batch fermentation on glucose based complex medium. In this process, the hyper-producer exhibited a final diaminopentane¿2 HCl titer of 150 g L 1 after 50 h, a constant diaminopentane yield of 50 %, and a maximum productivity of 3.8 g L h-1 in the feed-phase, a benchmark in the bio-based production of novel polymers. Concluding, this work marks a milestone towards biotechnological processes for the production of building blocks for bio-based and high-value added polyamides, one of the most important industrial polymers used worldwide. 168 pp. Englisch.

  • Stefanie Kind

    Lingua: Inglese

    Editore: Cuvillier

    ISBN 10: 3954042649 ISBN 13: 9783954042647

    Da: AHA-BUCH GmbH, Einbeck, Germania

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    Taschenbuch. Condizione: Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - Polyamides, due to their extreme durability and strength, are important industrial polymers used e.g. in the automotive industry or in high-value consumer products. Their production from petrochemically derived monomers suffers from the shortage of fossil fuels, rising oil prices, escalating CO2 production as well as low eco-efficiency. Most valuable alternatives are biotechnological processes from renewable resources for the production. Thereby, 1,5 diaminopentane is a promising monomer building block for completely bio-based polyamides like PA 5.4 or PA 5.10. In a first proof of concept, the product spectrum of Corynebacterium glutamicum was broadened towards the novel non-natural product diaminopentane by heterologous expression of an Escherichia coli lysine decarboxylase. An important criterion for the successful implementation of such bio-processes is their economic competitiveness with conventional techniques, demanding for efficient microbial production strains. In this work, synthetic metabolic engineering was applied to create an industrial C. glutamicum diaminopentane-producing strain with excellent production properties in a well-defined genomic context. Computational genome-scale modeling was used to investigate the metabolic properties of the bacterium in silico and to predict concepts for global strain design. By introduction of the identified beneficial genetic targets, the metabolism of the C. glutamicum wild type was systematically modified following the key-characteristics required for optimal production: (i) enhancement of the biosynthetic capacity of diaminopentane from its building blocks, (ii) improved supply of the carbon building blocks, (iii) reduced withdrawal of carbon for competing reactions, (iv) engineering of cellular transport, and (v) improved co-factor supply. For strain characterization, state-of-the-art omics technologies were applied. Thereby, metabolomics led to the discovery and subsequent identification of the so far unknown by-product N-acetyl-diaminopentane, transcriptomics enabled the identification of novel targets for enhancing the production properties, and fluxomics was applied to gain a detailed insight into the physiology of the constructed mutants. The final engineered C. glutamicum strain, carrying a set of 16 stable genomic modifications, achieved a remarkable diaminopentane yield of 41 % in shake flasks on glucose minimal medium. The production performance of the rational designed strain was also investigated under industrial conditions in a fed-batch fermentation on glucose based complex medium. In this process, the hyper-producer exhibited a final diaminopentane¿2 HCl titer of 150 g L 1 after 50 h, a constant diaminopentane yield of 50 %, and a maximum productivity of 3.8 g L h-1 in the feed-phase, a benchmark in the bio-based production of novel polymers. Concluding, this work marks a milestone towards biotechnological processes for the production of building blocks for bio-based and high-value added polyamides, one of the most important industrial polymers used worldwide.

  • Stefanie Kind

    Lingua: Inglese

    Editore: Cuvillier, 2012

    ISBN 10: 3954042649 ISBN 13: 9783954042647

    Da: preigu, Osnabrück, Germania

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    EUR 25,40

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    Taschenbuch. Condizione: Neu. Synthetic Metabolic Engineering of Corynebacterium glutamicum for Bio-based Production of 1,5-Diaminopentane | Stefanie Kind | Taschenbuch | Schriftenreihe des Institutes für Bioverfahrenstechnik der Technischen Universität Braunschweig 66 | Englisch | 2012 | Cuvillier | EAN 9783954042647 | Verantwortliche Person für die EU: Cuvillier Verlag, Nonnenstieg 8, 37075 Göttingen, info[at]cuvillier[dot]de | Anbieter: preigu Print on Demand.