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Follow on Google News |  AnaSpec Introduces Line of Membrane Potential Fluorescent ProbesAnaSpec has introduced a wide selection of membrane potential fluorescent probes.
By: Ping Yang The plasma membrane of a cell typically has a transmembrane potential of approximately -70 mV (negative inside) as a consequence of K+, Na+ and Cl– concentration gradients that are maintained by active transport processes. Increases and decreases in membrane potential (referred to as membrane hyperpolarization and depolarization, respectively) Potentiometric optical probes enable researchers to perform membrane potential measurements in organelles and in cells that are too small to allow the use of microelectrodes such as the patch clamp technique. Moreover, in conjunction with imaging techniques, these probes can be employed to map variations in membrane potential across excitable cells and perfused organs with spatial resolution and sampling frequency that are difficult to achieve using microelectrodes. Potentiometric probes are important tools for studying these processes, as well as for visualizing mitochondria (which exhibit transmembrane potentials of approximately -150 mV, negative inside matrix), cell-viability assessment, and high-throughput screening for new drug candidates. Potentiometric probes include: the cationic or zwitterionic styryl dyes, the cationic carbocyanines and rhodamines, the anionic oxonols and hybrid oxonols, and merocyanine 540. Fluorescent indicators of membrane potential have been broadly classified as either slow (redistribution, or nernstian) or fast (electrochromic) Fast-response probes (usually styrylpyridinium dyes) operate by means of a change in their electronic structure, and consequently their fluorescence properties, in response to a change in the surrounding electric field. Their optical response is sufficiently fast to detect transient (millisecond) Slow-response probes exhibit potential-dependent changes in their transmembrane distribution that are accompanied by a fluorescence change. The magnitude of their optical responses is much larger than that of fast-response probes (typically a 1% fluorescence change per mV). Slow-response probes, which include cationic carbocyanines and rhodamines and anionic oxonols, are suitable for detecting changes in average membrane potentials of nonexcitable cells caused by respiratory activity, ion-channel permeability, drug binding, and other factors. A widely used fluorescent dye for measuring transmembrane potential, DiSBAC2(3), has a limitation of poor dynamic range in an assay environment in the absence of serum. AnaSpec has developed a novel membrane potential-sensitive fluorescent dye, HLB021-152, and successfully used it for homogeneous live-cell cAMP assay in both serum-containing and serum-free environment. Upon stimulating the endogenous or heterogenous GPCRs on CNG-channel- About AnaSpec AnaSpec is a leading provider of integrated proteomics solutions to the world’s largest biotech, pharmaceutical, and academic research institutions. With a vision for innovation through synergy, AnaSpec focuses on three core technologies: For more information visit www.anaspec.com # # # AnaSpec, Inc. is a leading provider of integrated proteomics solutions™ for worldwide life science research. AnaSpec offers expertise in three primary technologies: End
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