Perfusion of Patch Pipets
The patch-clamp technique allows the measurement of current through a wide variety of channels under reasonably realistic conditions, while controlling (“voltage clamping”) one component of the driving force for current, the electrical potential. The other component of the driving force is set by the concentrations of permeant ions on both sides of the membrane, and those need to be controlled as well if the function and mechanism of channels are to be studied. In natural biological settings, current through channels is determined as much by chemical messengers, metabolites, modulators, and drugs as by driving force, and these must be applied to one side of the membrane or another if their action is be understood.
- Whole-Cell and Microelectrode Voltage Clamp
- Characterizing Molecular Mobility and Membrane Interactions of G Protein-Coupled Receptors
- Olfactory-Evoked Activity Assay for Larval Zebrafish
- Functional Analysis of Human D1 and D5 Dopaminergic G Protein-Coupled Receptors: Lessons from Mutagenesis of a Conserved Serine
- Cellular and Molecular Biological Assessments of Inflammation and Autoimmunity After Spinal Cord Injury
- Expression of Neurotrophic Factors such as GDNF in the E. coli System
- Growth Regulation of Nervous System Tumours: Models for Assessment of Angiogenesis in Brain Tumours
- Purification of Synthetic Peptides by High Performance Liquid Chromatography
- Biochemical and Molecular Biological Assessments of Focal Cerebral Ischemia: Protein
- 小动物行为学仪器的种类和简介