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{{Box|width= | {{Box|width=45%|font-size=14px|[[Brownian Motion]]| | ||
Over the last year my escapades and capers have been primarily directed at the study of synaptic potentiation from a neurodynamics perspective. Currently, I'm examining the membrane [[:Category:Diffusion|diffusion]] of neurotransmitter receptors and modeling how these particles swarm and potentiate synapses. It has been an interesting transition into these topics - prior to these projects I worked primarily with brain tissue and mice, but now I find myself spending most of my day programming, running simulations, and working with equations. I'm not sure why, but I find [[:Category:Diffusion|diffusion]] quite interesting. [[:Category:Diffusion|Stochastic diffusion]], like that in [[:Category:Diffusion|Brownian motion]], is a pure actuation of the basic properties of [[:Category:Statistics|statistics]]. Given that synaptic potentiation is directly mediated by stochastic diffusion and synaptic capture of receptors, it seem that neurons have evolved into innate statistical computers. The result of 100 billion of these statistical computers making 100 trillion connections is the human brain. | Over the last year my escapades and capers have been primarily directed at the study of synaptic potentiation from a neurodynamics perspective. Currently, I'm examining the membrane [[:Category:Diffusion|diffusion]] of neurotransmitter receptors and modeling how these particles swarm and potentiate synapses. It has been an interesting transition into these topics - prior to these projects I worked primarily with brain tissue and mice, but now I find myself spending most of my day programming, running simulations, and working with equations. I'm not sure why, but I find [[:Category:Diffusion|diffusion]] quite interesting. [[:Category:Diffusion|Stochastic diffusion]], like that in [[:Category:Diffusion|Brownian motion]], is a pure actuation of the basic properties of [[:Category:Statistics|statistics]]. Given that synaptic potentiation is directly mediated by stochastic diffusion and synaptic capture of receptors, it seem that neurons have evolved into innate statistical computers. The result of 100 billion of these statistical computers making 100 trillion connections is the human brain. | ||
* [[:Category:Diffusion|MY NOTES ON MODELING DIFFUSION]] | * [[:Category:Diffusion|MY NOTES ON MODELING DIFFUSION]] | ||
<div id{{=}}"inner" style{{=}}"position:absolute; left: 12px; top: 20px; opacity:0.2;">[[File:MolecDiff.gif|link=Brownian Motion]]</div> | <!-- <div id{{=}}"inner" style{{=}}"position:absolute; left: 12px; top: 20px; opacity:0.2;">[[File:MolecDiff.gif|link=Brownian Motion]]</div> --> | ||
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{{Box|width=45%|float=right|font-size=14px|[[:Category:Synaptic Plasticity|Synaptic Plasticity]]|[[File:Neuralinformatics.gif|right|link=Synaptic Plasticity]] | |||
It is now generally accepted that many forms of adaptive behavior, including learning and memory, engender lasting physiological changes in the brain; reciprocally, neural plasticity among the brain’s synaptic connections provides the capacity for learning and memory. Whenever I have to summarize my primary research focus using just a few words, they always include: "'''''synaptic plasticity'''''". Indeed, I feel that the key to fully understanding cognitive processes like memory formation is through studying neural dynamics at the cellular-network, synaptic, and molecular levels. | |||
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{{Box|width= | {{Box|width=45%|font-size=14px|[[Connectome|Brain Functional Connectome Project]]| | ||
A [[connectome]] is a comprehensive map of the neural networks within the [[brain]]. It details the [http://en.wikipedia.org/wiki/Efferent_nerve_fiber efferent] and afferent pathways within and between [[brain]] regions. Functional Connectivity refers to the function of a particular [[brain]] region and its information processing role within a distributed neural network. The goal of this project is to create a platform where users can jump into the [[connectome]] at any given [[brain]] region and visually navigate to upstream and downstream regions; along the way, users can learn about the functional role of each [[brain]] region. All information has been collected from empirical sources and scientific databases, in particular, the [http://atlas.brain-map.org Allan Brain Atlas]. | A [[connectome]] is a comprehensive map of the neural networks within the [[brain]]. It details the [http://en.wikipedia.org/wiki/Efferent_nerve_fiber efferent] and afferent pathways within and between [[brain]] regions. Functional Connectivity refers to the function of a particular [[brain]] region and its information processing role within a distributed neural network. The goal of this project is to create a platform where users can jump into the [[connectome]] at any given [[brain]] region and visually navigate to upstream and downstream regions; along the way, users can learn about the functional role of each [[brain]] region. All information has been collected from empirical sources and scientific databases, in particular, the [http://atlas.brain-map.org Allan Brain Atlas]. | ||
[[File:Connectome.jpg|450px|link=Connectome]] | [[File:Connectome.jpg|450px|link=Connectome]] | ||
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{{Box|width= | {{Box|width=45%|Welcome to the official wiki of Brad Monk| | ||
[[Hello]] and welcome to [[User:Monakhos|my wiki]]. This is where I stash random information and have every intention of linking it all together someday. I'm not sure why you're here.. maybe trying to find one of my other wiki projects '''[http://onesci.com OneSci Science News]''' or '''[http://ucsd.onesci.com UCSD Psych Grad wiki]'''? If you are so inclined, recent additions to this wiki can be found in the box on the right. For a non-curated glimpse of my activity you can check out the [[Special:RecentChanges|latest wiki updates]]. Older wiki [[content]] can be accessed using the <nowiki>[search box]</nowiki> or perusing [[Special:AllPages| all pages]]. If you would like to contact me, you can find this info on [http://bradleymonk.com my home page]. | [[Hello]] and welcome to [[User:Monakhos|my wiki]]. This is where I stash random information and have every intention of linking it all together someday. I'm not sure why you're here.. maybe trying to find one of my other wiki projects '''[http://onesci.com OneSci Science News]''' or '''[http://ucsd.onesci.com UCSD Psych Grad wiki]'''? If you are so inclined, recent additions to this wiki can be found in the box on the right. For a non-curated glimpse of my activity you can check out the [[Special:RecentChanges|latest wiki updates]]. Older wiki [[content]] can be accessed using the <nowiki>[search box]</nowiki> or perusing [[Special:AllPages| all pages]]. If you would like to contact me, you can find this info on [http://bradleymonk.com my home page]. | ||
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Revision as of 23:12, 30 December 2014
Welcome to the official wiki of Brad Monk