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Over fifty years of scientific and industrial developments focused on the amino acid producer bacterium Corynebacterium glutamicum has successfully yielded up to 2.93 and 1.95 million tons/year of L glutamic acid and L-lysine, respectively. As a result of this biotechnological effort, a massive amount of knowledge decidedly applicable to the development of new products has been gained. Nowadays, this knowledge is used to enlarge the portfolio of C. glutamicum industrial products, since they are highly relevant as chemicals, biodegradable polymers, ingredients, or additives in food, feed, cosmetics and pharmaceuticals. This book addresses production of these new metabolites (C. glutamicum applications) and their potential under the expert point of view of those groups directly involved in their developments. Thus, amino acids out of the traditional glutamic acid or lysine, as L valine; food colorants such as carotenoids; dicarboxylic acids used as building blocks (e.g: succinate); alpha hydroxy acids as L lactate, D lactate or glycolate; biodegradable polyester (eg.: polyhydroxybutyrate); alcohols for biofuel as isobutanol as well as bioremediation applications of the new developments around C. glutamicum described in this book. Those industrial relevant compounds come to the market parallel with the developing application of new technologies. Hence, cell activity as a whole by means of the Proteomics or Transcriptomics approaches, as well as the methodologies that mimic the large fermetor conditions in a scale-down format are also reviewed in the book. Additionally, a historical description and an updated review of the taxonomical environment of Corynebacterium genus open an essential manual for enterprises, researchers and academia involved in Actinobacteria, secondary metabolite production and industrial applications. This book reviews the evolution of almost sixty years of development, initially focused on amino acid production, which unleashes the idea of C. glutamicum as a biorefinery due to its ability to generate hundreds of products demanded by the market.
Corynebacterium glutamicum was discovered in Japan in 1956 as a natural glutamate producer. Its “microbial factory” qualities, such as its physiological plasticity and robust catalytic functionalities, have since facilitated the development of efficient production processes for amino acids, nucleotides and vitamins. This monograph illustrates how the information gleaned from complete genome sequencing allows the rational engineering of the entire cellular metabolism and how systems biology permits the further optimization of C. glutamicum as a biocatalyst. Aspects of gene regulation, metabolic pathways, sugar uptake, protein secretion, cell division and biorefinery applications highlight the enormous biotechnological and biorefinery potential.
The latest volume in the Advanced Biotechnology series provides an overview of the main production hosts and platform organisms used today as well as promising future cell factories in a two volume book. Alongside describing tools for genetic and metabolic engineering for strain improvement, the authors also impart topical information on computational tools, safety aspects and industrial-scale production. Following an introduction to general concepts, historical developments and future technologies, the text goes on to cover multi-purpose bacterial cell factories, including those organisms that exploit anaerobic biosynthetic power. Further chapters deal with microbes used for the production of high-value natural compounds and those obtained from alternative raw material sources, concluding with eukaryotic workhorses.
Learn more about foundational and advanced topics in metabolic engineering in this comprehensive resource edited by leaders in the field Metabolic Engineering: Concepts and Applications delivers a one-stop resource for readers seeking a complete description of the concepts, models, and applications of metabolic engineering. This guide offers practical insights into the metabolic engineering of major cell lines, including E. Coli, Bacillus and Yarrowia Lipolytica, and organisms, including human, animal, and plant). The distinguished editors also offer readers resources on microbiome engineering and the use of metabolic engineering in bioremediation. Written in two parts, Metabolic Engineering begins with the essential models and strategies of the field, like Flux Balance Analysis, Quantitative Flux Analysis, and Proteome Constrained Models. It also provides an overview of topics like Pathway Design, Metabolomics, and Genome Editing of Bacteria and Eukarya. The second part contains insightful descriptions of the practical applications of metabolic engineering, including specific examples that shed light on the topics within. In addition to subjects like the metabolic engineering of animals, humans, and plants, you’ll learn more about: Metabolic engineering concepts and a historical perspective on their development The different modes of analysis, including flux balance analysis and quantitative flux analysis An illuminating and complete discussion of the thermodynamics of metabolic pathways The Genome architecture of E. coli, as well as genome editing of both bacteria and eukarya An in-depth treatment of the application of metabolic engineering techniques to organisms including corynebacterial, bacillus, and pseudomonas, and more Perfect for students of biotechnology, bioengineers, and biotechnologists, Metabolic Engineering: Concepts and Applications also has a place on the bookshelves of research institutes, biotechnological institutes and industry labs, and university libraries. It's comprehensive treatment of all relevant metabolic engineering concepts, models, and applications will be of use to practicing biotechnologists and bioengineers who wish to solidify their understanding of the field.
Systems Metabolic Engineering is changing the way microbial cell factories are designed and optimized for industrial production. Integrating systems biology and biotechnology with new concepts from synthetic biology enables the global analysis and engineering of microorganisms and bioprocesses at super efficiency and versatility otherwise not accessible. Without doubt, systems metabolic engineering is a major driver towards bio-based production of chemicals, materials and fuels from renewables and thus one of the core technologies of global green growth. In this book, Christoph Wittmann and Sang-Yup Lee have assembled the world leaders on systems metabolic engineering and cover the full story – from genomes and networks via discovery and design to industrial implementation practises. This book is a comprehensive resource for students and researchers from academia and industry interested in systems metabolic engineering. It provides us with the fundaments to targeted engineering of microbial cells for sustainable bio-production and stimulates those who are interested to enter this exiting research field.
Current Developments in Biotechnology and Bioengineering: Synthetic Biology, Cell Engineering and Bioprocessing Technologies covers the current perspectives and outlook of synthetic biology in the agriculture, food and health sectors. This book begins with the basics about synthetic biology and cell engineering, and then explores this in more detail, focusing on topics like applications of synthetic biology, industrial bioprocesses, and future perspectives. Information on cell engineering is also presented, and manipulation in endogenous metabolic network is studied alongside advanced topics such as fine tuning of metabolic pathways, de novo biosynthetic pathway design, enzyme engineering targeted to improved kinetics and stability, and potential applications of the novel biological systems in bioprocess technology to achieve the production of value-added compounds with specific biological activities. - Assists in developing a conceptual understanding of synthetic biology and cellular and metabolic engineering. - Includes comprehensive information on new developments and advancements. - Lists applications of synthetic biology in agriculture, food, and health
With contributions by numerous experts
A comprehensive overview of the topic, highlighting recent developments, ongoing research trends and future directions. Experts from Europe, Asia and the US cover five core areas of imminent importance to the food, feed, pharmaceutical and water treatment industries in terms of sustainable and innovative processing and production. In the field of enzyme engineering, they summarize historic developments and provide an overview of molecular enzyme engineering, while also discussing key principles of microbial process engineering, including chapters on process development and control. Further sections deal with animal and plant cell culture engineering. The final section of the book deals with environmental topics and highlights the application of bioengineering principles in waste treatment and the recovery of valuable resources. With its cutting-edge visions, extensive discussions and unique perspectives, this is a ready reference for biotechnologists, bioengineers, bioengineers, biotechnological institutes, and environmental chemists.
New and Future Developments in Microbial Biotechnology and Bioengineering: Microbial Biomolecules: Properties, Relevance and Their Translational Applications presents a concise review on microbial biotechnology, along with impacts and recent results from research centers, small companies and large enterprises. The book brings the most relevant information on how we can use resources - in this case from microorganisms - and technology to develop solutions in fields like biofuels, food, cosmetics and medicine. It covers case studies of start-ups in the field and explains how scientists have moved their ideas into profitable bio-based products that are necessary for our current living standards. In addition, the book describes strategic governmental programs designed to exploit biomass in a sustainable way, along with detailed information on research in several high-impact, worldwide laboratories. It gives concrete examples of ongoing research from molecules to methods, such as L-asparaginase, extremophiles, new diagnostics tools and the analytical methods that have raised the quality of the data obtained, thereby boosting the so-called bioeconomy. - Comprises a unique source of information on the various applications of microbial biomolecules - Provides resourceful material for new ideas and strong rational/application-oriented stories - Discusses biotech companies in various areas (biofuel, food, medicine, etc.) who are actively using microbial biomolecules - Outlines scientific discoveries and their translation into profitable products - Gives an insight perspective of institutional and governmental strategic research programs aiming to preserve, explore and generate benefits from microbial biomolecules