Molecular Interactions in Bioseparations

Molecular Interactions in Bioseparations edited by That T. Ngo.

Rapid advances in molecular biology have accelerated the production of a great number of protein-based therapeutic agents. The major cost in producing these proteins appears to be associated with their purification from the complex mixture of the crude extract. A major challenge to the protein bioch...

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Bibliographic Details
Corporate Author: SpringerLink (Online service)
Other Authors: Ngo, That T. (Editor)
Format: eBook
Language:English
Published: New York, NY : Springer US : Imprint: Springer, 1993.
Edition:1st ed. 1993.
Series:Springer eBook Collection.
Subjects:
Biochemistry.
Biotechnology.
Analytical chemistry.
Electronic resources (E-books)
Online Access:Click to view e-book
Holy Cross Note:Loaded electronically.
Electronic access restricted to members of the Holy Cross Community.
Table of Contents:
  • I: General Introduction
  • 1. Affinity Chromatography: An Overview
  • 2. Weak-Affinity Chromatography
  • 3. Affinity Chromatography on Inorganic Support Materials
  • 4. 2-Fluoro-1-methylpyridinium (FMP) Salt-Activated Gels: Properties and Uses in Affinity Chromatography and Enzyme Immobilization for Analytical Applications
  • 5. Slalom Chromatography: A Size-Dependent Separation Method for DNA Molecules Based on a Hydrodynamic Principle
  • II: Affinity Chromatography with Biological Ligands
  • 6. Applications of Bacterial Immunoglobulin-Binding Proteins to the Purification of Immunoglobulins
  • 7. Affinity Chromatography of Oligosaccharides and Glycopeptides with Immobilized Lectins
  • 8. Selective Isolation of C-Terminal Peptides by Affinity Chromatography
  • 9. Receptor-Affinity Chromatography (RAC)
  • 10. Immobilized Artificial Membrane Chromatography: Prediction of Drug Transport across Biological Barriers
  • 11. Affinity Chromatography Using Immobilized Antisense-Family Peptides
  • 12. Chromatographic Resolution of Chiral Compounds by Means of Immobilized Proteins
  • 13. Chromatography with Cyclodextrin-Based Stationary Phases
  • III: Immunoaffinity Separation
  • 14. Suitable Antibodies as Ligands in Affinity Chromatography of Biomolecules
  • 15. Immunoaffinity Purification of Organelles
  • 16. Immunoaffinity Separation of Cells Using Monosized Magnetic Polymer Beads
  • IV: Affinity Chromatography with Biomimetic Ligands
  • 17. Affinity Chromatography with Immobilized Dyes
  • 18. Pseudo-Biospecific Affinity Ligand Chromatography: The Case of Immobilized Histidine as a Universal Ligand
  • 19. Synthetic Protein Surface Domains as Bioactive Stationary Phases: Metal Ion-Dependent Macromolecular Recognition and Biospecific Metal Ion Transfer
  • 20. Affinity Chromatography with Immobilized Benzeneboronates
  • 21. Affinity Chromatographic Removal of Pyrogens
  • 22. Molecular Interactions in Hydrophobic Chromatography
  • V: Novel Concepts and Applications
  • 23. Biorecognition in Molecularly Imprinted Polymers: Concept, Chemistry, and Application
  • 24. Bioseparation and Catalysis in Molecularly Imprinted Polymers
  • 25. Use of Heterobifunctional Ligands in Affinity Chromatographic Processes
  • 26. Covalent Chromatography
  • 27. Aza-Arenophilic Interaction: Novel Mode of Protein Adsorption and Applications in Immunoglobulin Purification
  • VI: Affinity-Related Techniques
  • 28. Model Systems Employing Affinity Chromatography for Extraction of Toxic Substances Directly from Whole Blood
  • 29. Applications of Affinity Binding to the Development of Heparin Removing and Sensing Devices
  • 30. Affinity Precipitation
  • 31. Affinity Separation of Nucleic Acids on Monosized Magnetic Beads
  • 32. Affinity Ultrafiltration for Protein Purification
  • 33. Affinity Partitioning of Biomolecules in Aqueous TVvo-Phase Systems
  • 34. Affinity Electrophoresis of Macromolecules: General Principles and Their Application to Nucleic Acids
  • 35. Reversed Micelles for Protein Purification.

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