There have been many important advances in our understanding of biological membrane structure and function over the last decade. Much of this progress has been driven by the development of new techniques for studying membrane components and their interactions. Tradition ally, the investigation of membranes has largely occurred within the domains of biochemistry, physical chemistry, and cell biology; but many of the most significant advances have resulted from an expansion into other disciplines, such as molecular biology, immunology, and the clinical sciences. In these two volumes we have…mehr
There have been many important advances in our understanding of biological membrane structure and function over the last decade. Much of this progress has been driven by the development of new techniques for studying membrane components and their interactions. Tradition ally, the investigation of membranes has largely occurred within the domains of biochemistry, physical chemistry, and cell biology; but many of the most significant advances have resulted from an expansion into other disciplines, such as molecular biology, immunology, and the clinical sciences. In these two volumes we have attempted to bring together some of these techniques-to combine the old and the new. Biomembrane Protocols: II. Architecture and Function is concerned exclusively with the architecture and activities of membranes, whereas the companion volume, Biomembrane Protocols: I. Isolation and Analysis, deals with their isolation and compositional analysis. The aim of each chapter is to provide detailed technical and meth odological information that will allow the reader to perform the tech nique successfully, without the need to consult other texts. Detailed reviews of membrane structure and function are not included, except where they are relevant to the choice or efficacy of a particular proce dure. In addition to Materials and Methods sections, each chapter has a Notes section that explains the reasons for taking certain steps and pro vides practical tips for applying the techniques to other systems.
Crystallization of Membrane Proteins for X-Ray Analysis. Determination of Cell Surface Polarity by Solid-Phase Lactoperoxidase Iodination. Biochemical Methods to Determine Cell Surface Topography: Part A: Labeling of Oxidized Glycoproteins with 3H-Borohydride; Part B: Identification and Separation of Integral Membrane Proteins Using Triton X-114; Part C: Surface-Selective Labeling of Polarized Proteins on Tight Epithelia Using Sulfo-N-Hydroxysuccinimido-Biotin (S-NHS-B). Use of Antipeptide Antibodies for the Isolation and Study of Membrane Proteins: Part A: Preparation of Antibodies; Part B: Affinity-Purification of Antipeptide Antibodies; Part C: Purification of Membrane Proteins by Immunoaffinity Chromatography; Part D: Competitive ELISA for Determining Membrane Protein Topology. The Production of Monoclonal Antibodies to Membrane Proteins: Part A: Production of Hybridoma Cell Lines; Part B: Screening for Monoclonal Antibody Production. Purification of a Membrane Protein (Ca2+/Mg2+-ATPase) and Its Reconstitution into Lipid Vesicles. Measurement of Protein-Protein Interactions in Reconstituted Membrane Vesicles Using Fluorescence Spectroscopy. Measurement of Lipid-Protein Interactions in Reconstituted Membrane Vesicles Using Fluorescence Spectroscopy. Determination of the Transverse Topography of Membrane Lipids Using Enzymes and Covalent Labels as Probes. Determination of the Transverse Topography of Membrane Phospholipids Using Phospholipid Transfer Proteins as Tools. Prothrombinase Complex as a Tool to Assess Changes in Membrane Phospholipid Asymmetry. Fluorescent Glycerolipid Probes: Synthesis and Use for Examining Intracellular Lipid Trafficking: Part A: Synthesis of Fluorescent Glycerolipid Probes; Part B: Delivery of Fluorescent Glycerophospholipid Probes to Cultured Cells. Synthesis and Use of Spin-Labeled Lipids for Studies of the Transmembrane Movement of Phospholipids. Measurement of Membrane Fluidity and Membrane Fusion with Fluorescent Probes Extraction and Assay of Cyclic Nucleotides. Analysis of G-Proteins Regulating Signal Transduction Pathways: Part A: Identification of G-Proteins; Part B: GTPase Studies; Part C: Reconstitution of Second Messenger Pathways in Permeabilized Cell Preparations Using GTP Analogs and Receptor Ligands. Assay of Protein Kinases and Protein Phosphorylation: Part A: Protein Kinase-Mediated Phosphorylation Events; Part B: Measurement of Protein Kinase Expression; Part C: Measurement of Protein Kinase Activity and Translocation. Analysis of Cellular Phosphoinositides and Phosphoinositols: Extraction and Simple Analytical Procedures: Part A: Biosynthesis and Extraction of Phosphoinositides and Phosphoinositols; Part B: Separation of Phosphoinositols by Anion-Exchange Chromatography; Part C: Separation of Phosphoinositides by Thin-Layer Chromatography; Part D: Deacylation of Phospholipids and Separation of Products by Anion-Exchange Chromatography. Analysis of Cellular Phosphoinositides and Phosphoinositols by High Performance Liquid Chromatography: Part A: Sample and Standards Preparation; Part B: HPLC Analytical Methods. Cytosolic Free Calcium Measurements in Single Cells Using Calcium-Sensitive Fluorochromes. Membrane Permeabilization with Bacterial Toxins. Measurement of Ion Fluxes and pH Gradients Across Cell Membranes. Ligand Binding and Processing: The Perfused Liver as a Model System. The Binding of Protein-Ligands to Cell-Surface Receptors. Appendix: 1. Density Gradient Media. Appendix: 2. Balanced Salt Solutions. Index.
Crystallization of Membrane Proteins for X-Ray Analysis. Determination of Cell Surface Polarity by Solid-Phase Lactoperoxidase Iodination. Biochemical Methods to Determine Cell Surface Topography: Part A: Labeling of Oxidized Glycoproteins with 3H-Borohydride; Part B: Identification and Separation of Integral Membrane Proteins Using Triton X-114; Part C: Surface-Selective Labeling of Polarized Proteins on Tight Epithelia Using Sulfo-N-Hydroxysuccinimido-Biotin (S-NHS-B). Use of Antipeptide Antibodies for the Isolation and Study of Membrane Proteins: Part A: Preparation of Antibodies; Part B: Affinity-Purification of Antipeptide Antibodies; Part C: Purification of Membrane Proteins by Immunoaffinity Chromatography; Part D: Competitive ELISA for Determining Membrane Protein Topology. The Production of Monoclonal Antibodies to Membrane Proteins: Part A: Production of Hybridoma Cell Lines; Part B: Screening for Monoclonal Antibody Production. Purification of a Membrane Protein (Ca2+/Mg2+-ATPase) and Its Reconstitution into Lipid Vesicles. Measurement of Protein-Protein Interactions in Reconstituted Membrane Vesicles Using Fluorescence Spectroscopy. Measurement of Lipid-Protein Interactions in Reconstituted Membrane Vesicles Using Fluorescence Spectroscopy. Determination of the Transverse Topography of Membrane Lipids Using Enzymes and Covalent Labels as Probes. Determination of the Transverse Topography of Membrane Phospholipids Using Phospholipid Transfer Proteins as Tools. Prothrombinase Complex as a Tool to Assess Changes in Membrane Phospholipid Asymmetry. Fluorescent Glycerolipid Probes: Synthesis and Use for Examining Intracellular Lipid Trafficking: Part A: Synthesis of Fluorescent Glycerolipid Probes; Part B: Delivery of Fluorescent Glycerophospholipid Probes to Cultured Cells. Synthesis and Use of Spin-Labeled Lipids for Studies of the Transmembrane Movement of Phospholipids. Measurement of Membrane Fluidity and Membrane Fusion with Fluorescent Probes Extraction and Assay of Cyclic Nucleotides. Analysis of G-Proteins Regulating Signal Transduction Pathways: Part A: Identification of G-Proteins; Part B: GTPase Studies; Part C: Reconstitution of Second Messenger Pathways in Permeabilized Cell Preparations Using GTP Analogs and Receptor Ligands. Assay of Protein Kinases and Protein Phosphorylation: Part A: Protein Kinase-Mediated Phosphorylation Events; Part B: Measurement of Protein Kinase Expression; Part C: Measurement of Protein Kinase Activity and Translocation. Analysis of Cellular Phosphoinositides and Phosphoinositols: Extraction and Simple Analytical Procedures: Part A: Biosynthesis and Extraction of Phosphoinositides and Phosphoinositols; Part B: Separation of Phosphoinositols by Anion-Exchange Chromatography; Part C: Separation of Phosphoinositides by Thin-Layer Chromatography; Part D: Deacylation of Phospholipids and Separation of Products by Anion-Exchange Chromatography. Analysis of Cellular Phosphoinositides and Phosphoinositols by High Performance Liquid Chromatography: Part A: Sample and Standards Preparation; Part B: HPLC Analytical Methods. Cytosolic Free Calcium Measurements in Single Cells Using Calcium-Sensitive Fluorochromes. Membrane Permeabilization with Bacterial Toxins. Measurement of Ion Fluxes and pH Gradients Across Cell Membranes. Ligand Binding and Processing: The Perfused Liver as a Model System. The Binding of Protein-Ligands to Cell-Surface Receptors. Appendix: 1. Density Gradient Media. Appendix: 2. Balanced Salt Solutions. Index.
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