by
Schrieber, Reinhard.
Call Number
664.26
Publication Date
2007
Summary
Reinhard Schrieber was born 1944 in Klosterheide, Germany, and graduated as engineer for chemical technology at the University of Applied Sciences in Mannheim, Germany in 1967. He started his career at Chemische Werke Stoess in Eberbach, Germany, one of the original companies of the GELITA Group, where he held several positions, becoming member of the Management Board of the GELITA Group in 1987. From 1985 to 2001, he was President of the German Gelatine Manufacturers' Association and from 1988 to 1997 President of the European Gelatine Manufacturers' Association (GME). From 1997 to 2003, he was Chairman of the Regulatory and BSE Safety Committee of GME. Reinhard Schrieber has published over 20 papers on the use of gelatine in food and pharmaceutical applications. Dr. Herbert Gareis was born 1955 in Höchstadt, Germany, and completed his chemistry studies at the University of Erlangen-Nuremberg with a Ph.D. In 1986 he started his professional career in the Photographic Department of DGF Stoess. In 1994, he became department head with technical and commercial responsibility, 1996 he was appointed head of the global Photographic Gelatine Division of the GELITA Group. Since 2004, he has been member of the Management Board of GELITA AG, responsible for Production and R&D.
Format:
Electronic Resources
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0.0235
by
Wang, Jing.
Call Number
641.331
Publication Date
2019
Format:
Electronic Resources
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0.0227
by
Takagi, Hiroshi.
Call Number
664.024
Publication Date
2015
Summary
This book describes cutting-edge science and technology of the characterization, breeding, and development of yeasts and fungi used worldwide in fermentation industries such as alcohol beverage brewing, bread making, and bioethanol production. The book also covers numerous topics and important areas the previous literature has missed, ranging widely from molecular mechanisms to biotechnological applications related to stress response/tolerance of yeasts and fungi. During fermentation processes, cells of yeast and fungus, mostly Saccharomyces and Aspergillus oryzae spp., respectively, are exposed to a variety of fermentation "stresses". Such stresses lead to growth inhibition or cell death. Under severe stress conditions, their fermentation ability and enzyme productivity are rather limited. Therefore, in terms of industrial application, stress tolerance is the key characteristic for yeast and fungal cells. The first part of this book provides stress response/tolerance mechanisms of yeast used for the production of sake, beer, wine, bread, and bioethanol. The second part covers stress response/tolerance mechanisms of fungi during environmental changes and biological processes of industrial fermentation. Readers benefit nicely from the novel understandings and methodologies of these industrial microbes. The book is suitable for both academic scientists and graduate-level students specialized in applied microbiology and biochemistry and biotechnology and for industrial researchers and engineers who are involved in fermentation-based technologies. The fundamental studies described in this book can be applied to the breeding of useful microbes (yeasts, fungi), the production of valuable compounds (ethanol, CO2, amino acids, organic acids, and enzymes) and the development of promising processes to solve environmental issues (bioethanol, biorefinery).
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Electronic Resources
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0.0227
by
Kristbergsson, Kristberg.
Call Number
664
Publication Date
2016
Format:
Electronic Resources
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0.0220
by
Manley, D. J. R. (Duncan J. R.), 1938-
Call Number
664.752 MAN
Publication Date
2011
Format:
Books
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0.0220
by
International Conference on Environmental, Industrial and Applied Microbiology (2nd : 2007 : Seville, Spain)
Call Number
616.9041 22
Publication Date
2009
Summary
This book contains a compilation of papers presented at the II International Conference on Environmental, Industrial and Applied Microbiology (BioMicroWorld2007) held in Seville, Spain on 28 November - 1 December 2007, where over 550 researchers from about 60 countries attended and presented their cutting-edge research. The main goals of this book are to: (1) identify new approaches and research opportunities in applied microbiology, presenting works that link microbiology with research areas usually related to other scientific and engineering disciplines; and (2) communicate current research priorities and progress in the field. The contents of this book mirror this focus. Microbiologists interested in environmental, industrial and applied microbiology and, in general, scientists whose research fields are related to applied microbiology can find an overview of the current state of the art in the topic. In addition to the more general topic, some chapters are devoted to specific branches of microbiology research, such as bioremediation; biosurfactants; microbial factories; biotechnologically relevant enzymes and proteins; microbial physiology, metabolism and gene expression; and future bioindustries.
Format:
Electronic Resources
Relevance:
0.0207
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