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Bradley Monk (talk | contribs) (Adding image note: These bar graphs represent the number of AMPAR (red) particles in a defined region: EC (extracellular), PSD1, PSD2, and PSDT (the total c) |
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== | ==ReDiClus in Matlab== | ||
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PSD1: post synaptic density area "1". This PSD area is 6x6 units (1 unit equals 1 nm). The AMPAR 'red' particle diffusion rate in the PSD areas are scaled as a function of the total SAP expressed at their surface (D.psd = D.ec/SAP). So if the extracellular diffusion rate is 0.3 µm²/s and there are 10 SAP molecules in PSD1, then PSD1 diffusion rate would be D.psd = .3/10 = 0.03 µm²/s which are empirically relevant values. | PSD1: post synaptic density area "1". This PSD area is 6x6 units (1 unit equals 1 nm). The AMPAR 'red' particle diffusion rate in the PSD areas are scaled as a function of the total SAP expressed at their surface (D.psd = D.ec/SAP). So if the extracellular diffusion rate is 0.3 µm²/s and there are 10 SAP molecules in PSD1, then PSD1 diffusion rate would be D.psd = .3/10 = 0.03 µm²/s which are empirically relevant values. | ||
{{ImageNoteEnd|id=4}} | {{ImageNoteEnd|id=4}} | ||
{{ImageNote|id=6|x=100|y=437|w=142|h=115|dimx=850|dimy=679|style=2}} | {{ImageNote|id=6|x=100|y=437|w=142|h=115|dimx=850|dimy=679|style=2}} | ||
This is the diffusion rate meter (aka D-Ometer) for PSD1. It provides information on the moment-to-moment diffusion rate inside PSD1. Note the meter is log scaled from .001 µm²/s to 1.0 µm²/s. | This is the diffusion rate meter (aka D-Ometer) for PSD1. It provides information on the moment-to-moment diffusion rate inside PSD1. Note the meter is log scaled from .001 µm²/s to 1.0 µm²/s. | ||
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These bar graphs represent the number of AMPAR (red) particles in a defined region: EC (extracellular), PSD1, PSD2, and PSDT (the total combined number of receptors in both PSD areas). In most simulations, if PSDT > 50, PSD clusters tend to shrink, and if PSDT < 30 SAP clusters tend to grow. This is due to the repulsion lattice changes, globally, based on the total number of receptors in synapses. | These bar graphs represent the number of AMPAR (red) particles in a defined region: EC (extracellular), PSD1, PSD2, and PSDT (the total combined number of receptors in both PSD areas). In most simulations, if PSDT > 50, PSD clusters tend to shrink, and if PSDT < 30 SAP clusters tend to grow. This is due to the repulsion lattice changes, globally, based on the total number of receptors in synapses. | ||
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{{ImageNote|id=9|x=557|y=513|w=17|h=107|dimx=850|dimy=679|style=2}} | |||
This the the boundary for the periPSD area, aka the perisynaptic pad for PSD2 that represents a non-PSD portion of a dendritic spine. This area has its own diffusion rate, and separate D-rates for GluR1 and GluR2 particles | |||
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{{ImageNote|id=10|x=595|y=539|w=14|h=58|dimx=850|dimy=679|style=2}} | |||
This is the boundary for the PSD area of PSD-2. This area has a lower diffusion rate (D) compared to the surrounding periPSD area box. It also has a lower diffusion rate for GluR2 than GluR1 during baseline conditions. | |||
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[[File:RediclusGUI.png|thumb|left|500px|Screen Shot of the ReDiClus Matlab GUI interface]][[File:Rediclusoutput.png|thumb|500px|Screen Shot of a final [[ReDiClusData|data output]] from a simulated-30 min of receptor diffusion (took approximately 15 seconds to generate)]] | |||
[[File:RediclusGUI.png|thumb|500px]] | |||
[[File:Rediclusoutput.png|thumb|500px | |||
[[ReDiClusData]] | |||
Latest revision as of 01:21, 4 September 2013
ReDiClus - Receptor Diffusion & Cluster Model
Simulation Space
ReDiClus Model Space
Particle Types
Visual Representations
Particle Diffusion
Simulating Molecular Diffusion
Diffusion Equations
Homeostatic Scaling
PSD-95 SAP Cluster Scaling
Physical Properties
ReDiClus Physics
two independent processes
MEAN SQUARED DISPLACEMENT