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W604694306 abstract "1 Halorhodopsin: A Prokaryotic Light-Driven Active Chloride Transport System.- 1 Introduction.- 2 Anion Binding and the Retinal Chromophore as Reporter Group.- 3 The Photocycle.- 4 Light-Dependent Retinal Isomerizations and Schiff Base Deprotonation.- 5 Hypotheses of the Transport Mechanism.- References.- 2 Chloride ATPase in Marine Algae.- 1 Introduction.- 2 Objects.- 3 Some Conditions.- 4 Basic Observations: The Pump and Its Transportee.- 5 Fueling Substrate.- 6 Electrical Properties.- 7 Biochemical Approaches.- 8 Conclusions and Speculations.- References.- 3 Existence of a Chloride Pump in Molluscs.- 1 Introduction.- 2 Electrical Characteristics of Aplysia Gut.- 3 Biochemistry of the Cl? Pump.- 4 Sulfhydryl Ligands of the Cl? Pump.- 5 Reconstitution of the Cl? Pump.- 6 Molecular Weight and Reaction Sequence of the Cl? Pump.- 7 Conclusions.- References.- 4 Transporting Cl?-ATPase in Rat Brain.- 1 Introduction.- 2 Cl?-Stimulated ATPase in Mammalian Brain.- 3 Functional Significance of Cl? Pump in the Brain.- 4 Conclusions.- References.- 5 Proton-Coupled Chloride Transport in Plant Cells.- 1 Introduction.- 2 Evidence for Gradient-Coupled Cl? Transport.- 3 Kinetic Properties of Gradient-Coupled Cl? Transport at the Plasma Membrane.- 4 Conclusions and Future Prospects.- References.- 6 Electrogenic Coupling of Sulfate Secretion to Chloride Transport in Lobster Hepatopancreas.- 1 Introduction.- 2 Vertebrate Sulfate Transport Mechanisms.- 3 Transmembrane SO4/C1 Exchange in Vertebrate Epithelia.- 4 Transmembrane Sulfate Antiport in Hepatopancreatic Epithelium.- 5 Transcellular Sulfate Transport in Lobster Hepatopancreas.- References.- 7 Chloride Currents in Lower Organisms.- 1 Introduction.- 2 Protists.- 3 Porifera.- 4 Cnidaria.- 5 Platyhelminths.- 6 Nematodes.- 7 Discussion.- References.- 8 Chloride Channels in Molluscs.- 1. Introduction.- 2. Excitable Cell Cl? Channels.- 3. Aplysia Gut Absorptive Cells.- References.- 9 Chloride Channels in Insects: A Search for Common Grounds.- 1 Introduction.- 2 Defining Characteristics of Vertebrate Epithelial Cl? Channels.- 3 Cl? Channels in Insect Epithelial Secretion and Absorption.- 4 GABA-Activated Cl? Channel in Nervous System and Muscle.- 5 Conclusions.- References.- 10 The Voltage-Gated Cl? Channel of Torpedo Electroplax: an Emerging View of its Structure and Function.- 1 Introduction.- 2 Electrocyte Physiology.- 3 Biophysics of the Cl? Channel.- 4 Biochemical Studies.- 5 Molecular Genetics of the Cl? Channel.- 6 Conclusion.- References.- 11 A Secretory Cl Channel from Epithelial Cells Studied in Heterologous Expression Systems.- 1 Introduction.- 2 Channels Implicated in Transepithelial Chloride Secretion.- 3 CFTR Expression and Reconstitution Generate the Low-Conductance Cl Channel.- 4 Properties of the CFTR Pore.- 5 Regulation of the CFTR Channel by Phosphorylation.- 6 Regulation of CFTR Channel by Nucleotides.- 7 Homologs from Other Species: Shark CFTR is also a Cl Channel.- 8 Conclusions.- References.- 12 Chloride Channels in Epithelial Cells of Intestine.- 1 Introduction.- 2 Small Intestine.- 3 Colon.- 4 Summary.- References.- 13 Chloride Transport by Gastric Mucosa.- 1 Introduction.- 2 Acidic and Nonacidic Cl? Secretion.- 3 Identification and Localization of Ion Transport Pathways.- 4 Localization of Passive Ion Transporters.- References." @default.
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W604694306 date "1994-01-01" @default.
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W604694306 title "Electrogenic Cl− Transporters in Biological Membranes" @default.
W604694306 doi "https://doi.org/10.1007/978-3-642-78261-9" @default.
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