Paulina Balbas – författare
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3 produkter
3 produkter
Inbunden, Engelska, 2004
1 619 kr
Skickas inom 10-15 vardagar
In this second updated edition, the editors have added critical reviews to a collection of cutting-edge protocols for gene expression in bacteria, fungi, plants, plant cells, animals, and animal cells. The review articles survey new directions in recombinant gene expression research, technique, and application, and point the way to using recombinant gene expression for metabolic engineering and the production of non-protein molecules. The readily reproducible protocols offer new host vector systems, such as Anarctic bacteria and moderately halophytic bacteria, vectors for chromosomal editing and metabolic engineering, and information to aid in problem solving, strategy planning, and the promotion of protein folding. Recombinant Gene Expression: Reviews and Protocols, Second Edition offers investigators seeking an overview of this critically important field the understanding and the tools needed to begin producing nonprotein products and altering the central metabolic pathways of cells to enhance heterologous gene expression.
2 416 kr
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Leading investigators, all of them experts on particular gene expression systems, provide a stellar set of original protocols for gene expression supported by overviews and troubleshooting guides for the biological systmes addressed. This book provides a global view of gene expression in prokaryotes, fungi, plants and animals and will be an invaluable reference in the collection of all biological science laboratories.
Häftad, Engelska, 2010
1 619 kr
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Since newly created beings are often perceived as either wholly good or bad, the genetic alteration of living cells impacts directly on a symbolic meaning deeply imbedded in every culture. During the earlier years of gene expression research, te- nological applications were confined mainly to academic and industrial laboratories, and were perceived as highly beneficial since molecules that were previously unable to be separated or synthesized became accessible as therapeutic agents. Such were the success stories of hormones, antibodies, and vaccines produced in the bacterium Escherichia coli. Originally this bacterium gained fame among humans for being an unwanted host in the intestine, or worse yet, for being occasionally dangerous and pathogenic. H- ever, it was easily identified in contaminated waters during the 19th century, thus becoming a clear indicator of water pollution by human feces. Tamed, cultivated, and easily maintained in laboratories, its fast growth rate and metabolic capacity to adjust to changing environments fascinated the minds of scientists who studied and modeled such complex phenomena as growth, evolution, genetic exchange, infection, survival, adaptation, and further on—gene expression. Although at the lower end of the complexity scale, this microbe became a very successful model system and a key player in the fantastic revolution kindled by the birth of recombinant DNA technology.