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Aqueous Two-Phase Systems for Bioprocess Development for the Recovery of Biological Products
Title statement Aqueous Two-Phase Systems for Bioprocess Development for the Recovery of Biological Products [electronic resource] / edited by Marco Rito-Palomares, Jorge Benavides. Publication Cham : Springer International Publishing : Imprint: Springer, 2017. Phys.des. IX, 191 p. 27 illus., 20 illus. in color. online resource. ISBN 9783319593098 Edition Food Engineering Series, ISSN 1571-0297 Contents General concepts and definitions of Aqueous Two-Phase Systems -- Characterization of Aqueous Two-Phase Systems and their potential new applications -- Practical aspects for the development of ATPS-based processes for protein recovery -- Aqueous Two-Phase Systems for the recovery of bioparticles -- Aqueous Two-Phase Systems strategies for the recovery and partial purification of bioactive low molecular weight compounds -- Affinity ATPS strategies for the selective fractionation of biomolecules -- Aqueous Two-Phase Systems for the recovery and purification of bioproducts from plants and vegetable tissues -- Continuous Aqueous Two-Phase System processes -- Process economics: evaluation of the potential of ATPS as a feasible alternative to traditional fractionation techniques -- Perspectives and future trends in Aqueous Two-Phase Systems based technology. Notes to Availability Přístup pouze pro oprávněné uživatele Another responsib. Rito-Palomares, Marco. Benavides, Jorge. Another responsib. SpringerLink (Online service) Subj. Headings Chemistry. * Food - Biotechnology. * Organic chemistry. Form, Genre elektronické knihy electronic books Country Německo Language angličtina Document kind Electronic books URL Plný text pro studenty a zaměstnance UPOL book
This comprehensive and unique text presents a full overview of downstream processing useful for those new to the concept as well as professionals with experience in the area. The history and theoretical principles of Aqueous Two-Phase Systems (ATPS) are covered in depth. Information on ATPS characterization and application is included, and ATPS equilibria and system parameters that have significant effect on partition behavior are studied. Aqueous Two-Phase Systems for Bioprocess Development for the Recovery of Biological Products addresses specific applications of ATPS for the recovery and partial purification of high molecular weight compounds such as proteins, nucleic acids and polysaccharides, particulate bioproducts such as cells and organelles and low molecular weight compounds. Non-conventional strategies involving ATPS such as affinity systems, continuous liquid-liquid fractionation stages and the recovery from plant extracts are presented. Economic analysis of the application of ATPS in comparison to other fractionation techniques, particularly liquid chromatography, is considered, as are opportunity and current trends in the ATPS research area. Each chapter utilizes the contributors' experimental expertise in traditional and non-conventional ATPS strategies, as well as analysis of areas of opportunity and perspectives on the development and future applications of ATPS in both the lab and larger scale operations. The result is a thorough and singular overview of ATPS which has not been matched by any other text on the market. .
General concepts and definitions of Aqueous Two-Phase Systems -- Characterization of Aqueous Two-Phase Systems and their potential new applications -- Practical aspects for the development of ATPS-based processes for protein recovery -- Aqueous Two-Phase Systems for the recovery of bioparticles -- Aqueous Two-Phase Systems strategies for the recovery and partial purification of bioactive low molecular weight compounds -- Affinity ATPS strategies for the selective fractionation of biomolecules -- Aqueous Two-Phase Systems for the recovery and purification of bioproducts from plants and vegetable tissues -- Continuous Aqueous Two-Phase System processes -- Process economics: evaluation of the potential of ATPS as a feasible alternative to traditional fractionation techniques -- Perspectives and future trends in Aqueous Two-Phase Systems based technology.
Number of the records: 1