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A Model-Independent Algorithm to Derive Ca super(2+) Fluxes Underlying Local Cytosolic Ca super(2+) Transients
Local intracellular Ca super(2+) signals result from Ca super(2+) flux into the cytosol through individual channels or clusters of channels. To gain a mechanistic understanding of these events we need to know the magnitude and spatial distribution of the underlying Ca super(2+) flux. However, this i...
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| Published in: | Biophysical journal 2005-04, Vol.88 (4), p.2403-2421 |
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| Main Authors: | , , , , |
| Format: | Article |
| Language: | English |
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| container_end_page | 2421 |
| container_issue | 4 |
| container_start_page | 2403 |
| container_title | Biophysical journal |
| container_volume | 88 |
| creator | Ventura, A C Bruno, L Demuro, A Parker, I Dawson, S P |
| description | Local intracellular Ca super(2+) signals result from Ca super(2+) flux into the cytosol through individual channels or clusters of channels. To gain a mechanistic understanding of these events we need to know the magnitude and spatial distribution of the underlying Ca super(2+) flux. However, this is difficult to infer from fluorescence Ca super(2+) images because the distribution of Ca super(2+)-bound dye is affected by poorly characterized processes including diffusion of Ca super(2+) ions, their binding to mobile and immobile buffers, and sequestration by Ca super(2+) pumps. Several methods have previously been proposed to derive Ca super(2+) flux from fluorescence images, but all require explicit knowledge or assumptions regarding these processes. We now present a novel algorithm that requires few assumptions and is largely model-independent. By testing the algorithm with both numerically generated image data and experimental images of sparklets resulting from Ca super(2+) flux through individual voltage-gated channels, we show that it satisfactorily reconstructs the magnitude and time course of the underlying Ca super(2+) currents. |
| doi_str_mv | 10.1529/biophysj.104.045260 |
| format | article |
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To gain a mechanistic understanding of these events we need to know the magnitude and spatial distribution of the underlying Ca super(2+) flux. However, this is difficult to infer from fluorescence Ca super(2+) images because the distribution of Ca super(2+)-bound dye is affected by poorly characterized processes including diffusion of Ca super(2+) ions, their binding to mobile and immobile buffers, and sequestration by Ca super(2+) pumps. Several methods have previously been proposed to derive Ca super(2+) flux from fluorescence images, but all require explicit knowledge or assumptions regarding these processes. We now present a novel algorithm that requires few assumptions and is largely model-independent. By testing the algorithm with both numerically generated image data and experimental images of sparklets resulting from Ca super(2+) flux through individual voltage-gated channels, we show that it satisfactorily reconstructs the magnitude and time course of the underlying Ca super(2+) currents.</abstract><doi>10.1529/biophysj.104.045260</doi></addata></record> |
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| ispartof | Biophysical journal, 2005-04, Vol.88 (4), p.2403-2421 |
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| language | eng |
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| source | PubMed Central |
| title | A Model-Independent Algorithm to Derive Ca super(2+) Fluxes Underlying Local Cytosolic Ca super(2+) Transients |
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