Difference between revisions of "Draft:Two Forms of Electrical Transmission Between Neurons"

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| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | Title
 
| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | '''Two Forms of Electrical Transmission Between Neurons'''
 
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| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | Authors
 
| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | '''Donald S. Faber · Alberto E. Pereda '''
 
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| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | Source
 
| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6276723/pdf/fnmol-11-00427.pdf Document]
 
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| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | 2018
 
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| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | Front Mol Neurosci
 
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| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | <small>'''[https://dx.doi.org/10.3389/fnmol.2018.00427 10.3389/fnmol.2018.00427]'''
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<span style="font-size: 200%; color: #006666; text-shadow: 2px 2px 4px #90CAA2; padding: 10px">Two Forms of Electrical Transmission Between Neurons</span>
 
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<br>Donald S. Faber<sup>1,2</sup> and Alberto E. Pereda<sup>1,2*</sup>
<br>Donald S. Faber<sup>1,2</sup> and Alberto E. Pereda<sup>1,2*</sup>


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Electrical signaling is a cardinal feature of the nervous system and endows it with the capability of quickly reacting to changes in the environment. Although synaptic communication between nerve cells is perceived to be mainly chemically mediated, electrical synaptic interactions also occur. Two different strategies are responsible for electrical communication between neurons.  
Electrical <span style="font-size: 24pt;" >signaling</span> is a cardinal feature of the nervous system and endows it with the capability of quickly reacting to changes in the environment. Although synaptic communication between nerve cells is perceived to be mainly chemically mediated, electrical synaptic interactions also occur. Two different strategies are responsible for electrical communication between neurons.  


One is the consequence of low resistance intercellular pathways, called “gap junctions”, for the spread of electrical currents between the interior of two cells.  
One is the consequence of low resistance intercellular pathways, called “gap junctions”, for the spread of electrical currents between the interior of two cells.  
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