Protein Hydrolysates in BiotechnologyVijai K. Pasupuleti, Arnold L. Demain Springer Science & Business Media, 28 août 2010 - 229 pages Protein hydrolysates, otherwise commonly known as peptones or peptides, are used in a wide variety of products in fermentation and biotechnology industries. The term “peptone” was first introduced in 1880 by Nagelli for growing bacterial cultures. However, later it was discovered that peptones derived from the partial digestion of proteins would furnish organic nitrogen in readily available form. Ever since, p- tones, which are commonly known as protein hydrolysates, have been used not only for growth of microbial cultures, but also as nitrogen source in commercial fermen- tions using animal cells and recombinant microorganisms for the production of value added products such as therapeutic proteins, hormones, vaccines, etc. Today, the characterization, screening and manufacturing of protein hyd- lysates has become more sophisticated, with the introduction of reliable analytical instrumentation, high throughput screening techniques coupled with statistical design approaches, novel enzymes and efficient downstream processing equipment. This has enabled the introduction of custom-built products for specialized appli- tions in diverse fields of fermentation and biotechnology, such as the following. 1. Protein hydrolysates are used as much more than a simple nitrogen source. For example, the productivities of several therapeutic drugs made by animal cells and recombinant microorganisms have been markedly increased by use of p- tein hydrolysates. This is extremely important when capacities are limited. 2. Protein hydrolysates are employed in the manufacturing of vaccines by ferm- tation processes and also used as vaccine stabilizers. |
Table des matières
1 | |
11 | |
Chapter 3 Towards an Understanding of How Protein Hydrolysates Stimulate More Efficient Biosynthesis in Cultured Cells | 33 |
Chapter 4 Benefits and Limitations of Protein Hydrolysates as Components of SerumFree Media for Animal Cell Culture Applicati | 55 |
Chapter 5 Oligopeptides as External Molecular Signals Affecting Growth and Death in Animal Cell Cultures | 79 |
Chapter 6 Use of Protein Hydrolysates in Industrial Starter Culture Fermentations | 90 |
Chapter 7 Protein Hydrolysates from Nonbovine and Plant Sources Replaces Tryptone in Microbiological Media | 115 |
Chapter 8 The Use of Protein Hydrolysates for Weed Control | 127 |
Chapter 9 Physiological Importance and Mechanisms of Protein Hydrolysate Absorption | 134 |
Chapter 10 Protein HydrolysatesPeptides in Animal Nutrition | 179 |
Chapter 11 Protein Hydrolysates as Hypoallergenic Flavors and Palatants for Companion Animals | 191 |
Chapter 12 The Development of Novel Recombinant Human Gelatins as Replacements for AnimalDerived Gelatin in Pharmaceutical | 208 |
227 | |
Autres éditions - Tout afficher
Protein Hydrolysates in Biotechnology Vijai K. Pasupuleti,Arnold L. Demain Aucun aperçu disponible - 2010 |
Protein Hydrolysates in Biotechnology Vijai K. Pasupuleti,Arnold L. Demain Aucun aperçu disponible - 2014 |
Protein Hydrolysates in Biotechnology Vijai K. Pasupuleti,Arnold L. Demain Aucun aperçu disponible - 2010 |
Expressions et termes fréquents
absorption amino acids animal cell culture animal-derived applications Bifidobacterium Biochem Biol biological Biotechnol bovine Caco-2 cells casein cell culture cell growth cell line CHO cells components concentration containing corn gluten culture media dairy degree of hydrolysis dietary diets digest dipeptides effect enhanced enzymatic enzymes Escherichia coli expression feeding fermentation filtration flavor formulation Franek free amino acids gelatin growth factor hormones hybridoma hybridoma cells hydro Hydrolysates in Biotechnology HyPep increased industry insulin lactis Lactobacillus lysates mammalian cells manufacturing membrane metabolism Microbiol milk molecular weight monoclonal antibodies nitrogen nitrogen source Nutr nutrient nutritional oligopeptides optimal Pasupuleti PepT1 activity peptides peptones Pichia Pichia pastoris piglets pigs plant plasma porcine Primatone probiotic production proteases protein hydrolysates proteolytic rats receptor recombinant proteins requirements savory serum serum-free medium small intestine specific Springer Science+Business Media starter cultures stimulate strains substrates supplemented tissue uptake versus yeast extract yield