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| {{Style|size=250%|align=center|border=1px dotted red|font=Century Gothic|background=white|color=blue|pad=10px 100px 10px 100px|margin=10px 0px 10px 100px|ReDiClus - '''Re'''ceptor '''Di'''ffusion & '''Clus'''ter Model}} | | {{Style|size=150%|align=center|border=1px dotted red|font=Century Gothic|background=white|color=blue|pad=10px 100px 10px 100px|margin=10px 0px 10px 100px|[http://bradleymonk.com/ReDiClus Go to ReDiClus Model Website]}} |
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| ==Physical Properties== | | ==Physical Properties== |
| {{ExpandBox|ReDiClus Physics|
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| {{Box|font=120%|width=95%|float=left|text=12px|two independent processes| | | {{Box|font=120%|width=95%|float=left|text=12px|two independent processes| |
| ; In this model, there are two independently occurring processes. | | ; In this model, there are two independently occurring processes. |
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| *** where R<sub>step</sub> is the baseline Red dot step size | | *** where R<sub>step</sub> is the baseline Red dot step size |
| *** where B<sub>n</sub> is number of Blue dots currently expressed at the PSD surface | | *** where B<sub>n</sub> is number of Blue dots currently expressed at the PSD surface |
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| ; Several screen shots of the dynamic graphs in the model
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| : {{Fig|[[File:Matlab Sim3.png]]}}
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| : {{Fig|[[File:Matlab Sim2.png]]}}
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| }} | | }} |
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| {{Box|font=120%|width=95%|float=left|text=12px|MEAN SQUARED DISPLACEMENT| | |
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| {{Pop3|<HTML><embed src="http://bradleymonk.com/media/MSD.mp4" height="500" width="640" autoplay="false"></HTML>|REDICLUS|ANIMATION|SEE ANIMATION}}
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| ;Brownian Motion Mean Squared Displacement
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| * The goal of this calculation is to relate the simulated particle diffusion to real world values, namely velocity.
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| *Particle velocity will be a function of MSD {{Button|''x'' units ²⁄s}} which scales on space (units) and time (s) parameters.
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| * Space and time in the model are defined arbitrarily as '''Step_Size''' and '''Step''' where each Step a particle moves a distance randomly chosen from a normal distribution (µ{{=}}1,σ{{=}}.2)
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| *a step size of {{Button|1 unit/step}} will produce a brownian motion MSD of {{Button|~0.52 ±0.2 units ²/s}}
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| *empirical observations show that reasonable values for MSD are:
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| ** PSD 0.01 µm ²/s
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| ** synaptic 0.05 µm ²/s
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| ** extrasynaptic 0.1 µm ²/s
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| *given an MSD of {{Button|0.52 ±0.2 units ²/s}} at the current parameters: 1 step {{=}} 1 unit (at µ{{=}}1,σ{{=}}.2), the model will need to be scaled such that particles move at an extrasynaptic rate of 0.1 µm ²/s.
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| *spines are on average 1 to 10 µm apart, if the model is comparing two spines 1 µm apart, they should be separated by 5 units of model space. This is because the current particle diffusion rate of the model is .5 µm ²/s and the empirical MSD is .1 µm ²/s
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| }}
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| }}<!-- END BOX --> | |
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| ==ReDiClus in Matlab== | | ==ReDiClus in Matlab== |
| | | [[File:Redicluslive.png]] |
| <div class="wpImageAnnotatorEnable">
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| <span class="wpImageAnnotatorPageName" style="display:none;">[[ReDiClus]]</span>
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| <span class="wpImageAnnotatorFullName" style="display:none;">[[ReDiClus]]</span>
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| <div class="wpImageAnnotatorFile">[[File:Redicluslive.png]]</div>
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| <div style="display:none;"><div><div><!--IMAGE NOTES BELOW -->{{ImageNoteEnd|id=-1}}
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| {{ImageNote|id=1|x=146|y=131|w=173|h=128|dimx=850|dimy=679|style=2}}
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| Live 3D simulation space
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| {{ImageNoteEnd|id=1}}
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| {{ImageNote|id=2|x=397|y=83|w=75|h=192|dimx=850|dimy=679|style=2}}
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| 2D surface plot with PSD areas marked with boxes
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| {{ImageNoteEnd|id=2}}
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| {{ImageNote|id=3|x=131|y=346|w=83|h=61|dimx=850|dimy=679|style=2}}
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| SAP cluster for PSD1. For most simulations the starting SAP cluster size for this PSD is 7x7 or 49 SAP molecules. The diffusion rate 'D' of the extrasynaptic area (D.es) is scaled in the PSD (D.psd) by the current total number of SAPs present (SAP.t), such that [D.psd = D.ec/SAP.t]. So if D.es = .3 µm²/s and there are 10 SAPs in PSD1, then D.psd1 = .03 µm²/s.
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| {{ImageNoteEnd|id=3}}
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| {{ImageNote|id=4|x=592|y=158|w=79|h=55|dimx=850|dimy=679|style=2}}
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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.
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| {{ImageNoteEnd|id=4}}
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| {{ImageNote|id=6|x=100|y=437|w=142|h=115|dimx=850|dimy=679|style=2}}
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| 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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| {{ImageNoteEnd|id=6}}
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| {{ImageNote|id=7|x=254|y=439|w=134|h=113|dimx=850|dimy=679|style=2}}
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| This is the diffusion rate meter (aka D-Ometer) for PSD2. It provides information on the moment-to-moment diffusion rate inside PSD2. Note the meter is log scaled from .001 µm²/s to 1.0 µm²/s.
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| {{ImageNoteEnd|id=7}}
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| {{ImageNote|id=8|x=124|y=579|w=246|h=72|dimx=850|dimy=679|style=2}}
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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.
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| {{ImageNoteEnd|id=8}}
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| {{ImageNote|id=9|x=557|y=513|w=17|h=107|dimx=850|dimy=679|style=2}}
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| 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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| {{ImageNoteEnd|id=9}}
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| {{ImageNote|id=10|x=595|y=539|w=14|h=58|dimx=850|dimy=679|style=2}}
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| 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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| {{ImageNoteEnd|id=10}}
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| </div>
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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|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)]] |
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| {{PageHead|[[Malinow]]|[[Molecular Methods]]|[[Quantum Dots]]|[[Choquet]]|[[AMPAR]]}} | | {{PageHead|[[Malinow]]|[[ReDiClus]]|[[Quantum Dots]]|[[Choquet]]|[[AMPAR]]}} |
| [[Category:Malinow]] [[Category:ReDiClus]] | | [[Category:Malinow]] [[Category:ReDiClus]] |
| __NOTOC__ | | __NOTOC__ |
