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{{FR
<div style="display: inline-block; font-size: 78%; float:right; width:420px; border: 1px solid orange; margin: 0.6em; padding: 1em; border-radius: 10px; background-color: #f1f1dd; -webkit-box-shadow: 6px 6px 75px -8px rgba(0,0,0,0.75); -moz-box-shadow: 6px 6px 75px -8px rgba(0,0,0,0.75); box-shadow: 6px 6px 75px -8px rgba(0,0,0,0.75)">
| Title = Two Forms of Electrical Transmission Between Neurons
<div style="display:block; text-align:center; background-color:green; color: white; border-radius: 6px; font-size:150%; padding:5px">'''Free resource'''</div>
| author1 = Donald S. Faber<ref><Dominick P. Purpura Department of Neuroscience, Albert Einstein College of Medicine, New York, NY, United States/ref>
{| style="vertical-align: top;" width="388"
| author2 = Alberto E. Pereda<ref>Marine Biological Laboratory, Woods Hole, MA, United States</ref>
 
| Source = https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6276723/pdf/fnmol-11-00427.pdf<!-- where this work comes from or where was it was retrieved (URL) -->
|-
| Original = https://www.brainstimjrnl.com/action/showPdf?pii=S1935-861X%2820%2930041-3<!-- link to the original screenshot or PDF print from the retrieval -->
| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | Title
| Date = 2018<!-- date of the original work, when the author/s published it (dd/mm/yyyy) -->
 
| Journal = Front Mol Neurosci
| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | '''Two Forms of Electrical Transmission Between Neurons'''
| DOI = 10.3389/fnmol.2018.00427
 
| ISBN =  
|-
| PUBMED = https://pubmed.ncbi.nlm.nih.gov/32289703/
| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | Authors
| Pdfcopy = <!-- eventual polished PDF document -->
 
| License = CC BY
| 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]
 
|-
| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | Date
 
| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | 2018
 
|-
| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | Journal
 
| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | Front Mol Neurosci
 
|-
| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | DOI
 
| 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]'''
<br>
 
</small>
|-
| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | License
 
| style="border-bottom: 1px dotted grey; padding-bottom: 4px" valign="top" | '''[https://creativecommons.org/licenses/by/4.0/ CC BY]'''
 
|-
| colspan="2" | <small>''This resource has been identified as a Free Scientific Resource, this is why Masticationpedia presents it here as a mean of gratitude toward the Authors, with appreciation for their choice of releasing it open to anyone's access''</small>
|}
</div><div style="display: block; text-align:center; padding: 0.8em; font-size:87%; border-radius: 10px; -webkit-box-shadow: 6px 6px 75px -8px rgba(0,0,0,0.75); -moz-box-shadow: 6px 6px 75px -8px rgba(0,0,0,0.75); box-shadow: 6px 6px 75px -8px rgba(0,0,0,0.75)">
This is '''<span style="color: green">free scientific content</span>'''. It has been released with a '''<span style="color: green">free license</span>''', this is why we can present it here now, for your convenience. Free knowledge, free access to scientific knowledge is a right of yours; it helps Science to grow, it helps you to have '''<span style="color: green">access to Science</span>'''
 
<hr>
This content was relased with a ''''''[https://creativecommons.org/licenses/by/4.0/ CC BY]'''''' license.<br>
<small>You might perhaps wish to thank the Author/s</small>
 
</div><div style="display: block;margin-top:6em;">
<span style="font-size: 200%; color: #006666; text-shadow: 2px 2px 4px #90CAA2; padding: 10px">Two Forms of Electrical Transmission Between Neurons</span>
 
<div style="margin-top:2em; margin-bottom:0.8em;">
{|
 
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| valign="center" | <div class="floatleft"></div>
 
| width="99%" | <div style="border-radius: 8px; border: 1px solid #73AD21; padding: 8px; background-color: #ECFCEC; font-size: 86%; font-weight:200;">Free resource by '''Donald S. Faber &nbsp;·&nbsp;Alberto E. Pereda '''</div>
|}
<br></div></div>
<br>Donald S. Faber<sup>1,2</sup> and Alberto E. Pereda<sup>1,2*</sup>
 
<sup>1</sup>Dominick P. Purpura Department of Neuroscience, Albert Einstein College of Medicine, New York, NY, United St ates,
 
<sup>2</sup>Marine Biological Laboratory, Woods Hole, MA, United States
 
 


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 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.  
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The second occurs in the absence of cell-to-cell contacts and is a consequence of the extracellular electrical fields generated by the electrical activity of neurons. Here, we place present notions about electrical transmission in a historical perspective and contrast the contributions of the two different forms of electrical communication to brain function.
The second occurs in the absence of cell-to-cell contacts and is a consequence of the extracellular electrical fields generated by the electrical activity of neurons. Here, we place present notions about electrical transmission in a historical perspective and contrast the contributions of the two different forms of electrical communication to brain function.


=== Introduction ===
=== Introduction ===
Gianfranco
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