Modeling Ca2+ signals [electronic resource] : understanding Ca2+ regulatory networks in cells. Part 3, Models of spatially non-uniform Ca2+ signals, applications to analysis of experimental results / David D. Friel.

By: Friel, David Daniel, 1955- [spk]Material type: FilmFilmSeries: Henry Stewart talksBiomedical & life sciences collection. Calcium signaling I: Publisher: London : Henry Stewart Talks, 2021Description: 1 online resource (1 streaming video file (49 min.) : color, sound)Other title: Modeling Ca2+ signals : understanding Ca2+ regulatory networks in cells. Part 3, Models of spatially non-uniform Ca2+ signals, applications to analysis of experimental results | Modeling calcium signals : understanding calcium regulatory networks in cells 3. Models of spatially non-uniform calcium signals, applications to analysis of experimental resultsSubject(s): Biological systems | Calcium in the body | Cellular signal transduction | Calcium Signaling -- physiology | Calcium -- metabolism | Carbonyl Cyanide p-Trifluoromethoxyphenylhydrazone | Mitochondria -- physiology | Models, Biological | Neurons -- physiologyOnline resources: Click here to access online | Series
Contents:
Contents: FCCP-sensitive Ca2+ stores -- The mitochondrial uniporter (MCU) -- Mitochondrial Ca2+ flux -- Spatially nonuniform Ca2+ signals -- Spatial hierarchy of Ca2+ signals -- The diffusion equation -- Ca2+ responses in spherically symmetrical cells -- Methods for analyzing Ca2+ handling properties in intact cells -- Developing an experimentally based model of Ca2+ dynamics in sympathetic neurons.
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Animated audio-visual presentation with synchronized narration.

Title from title frames.

Contents: FCCP-sensitive Ca2+ stores -- The mitochondrial uniporter (MCU) -- Mitochondrial Ca2+ flux -- Spatially nonuniform Ca2+ signals -- Spatial hierarchy of Ca2+ signals -- The diffusion equation -- Ca2+ responses in spherically symmetrical cells -- Methods for analyzing Ca2+ handling properties in intact cells -- Developing an experimentally based model of Ca2+ dynamics in sympathetic neurons.

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