Proteopedia:Featured SEL/5

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default [[SARS-CoV-2 protein S priming by furin]]
default [[SARS-CoV-2 protein S priming by furin]]
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<tr><td><div class='scrolling '>'''SARS-CoV-2 Spike Protein Priming'''<br>
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<tr><td><div class='scrolling '>'''Coronavirus Spike Protein Priming'''<br>
''by Eric Martz''<br>
''by Eric Martz''<br>
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Coronavirus SARS-CoV-2 (responsible for COVID-19) has a spike protein on its surface enabling it to infect host cells. Initially, proteases in the lungs clip the spike protein at a <font color="red">'''unique sequence'''</font>. This primes it, causing it to extend its <font color="magenta">'''receptor binding surface'''</font>, optimizing binding to the ACE2 receptor on the host cell. In a subsequent step (not shown) the virus RNA enters the cell to initiate production of new virions. Knowledge of spike protein's protein molecular structure and function is crucial to developing effective therapies and vaccines.
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Coronavirus SARS-CoV-2 (responsible for COVID-19) has a spike protein on its surface, which enables it to infect host cells. Initially, proteases in the lungs clip the homo-trimeric spike protein at a <font color="#e00000">'''unique sequence'''</font>. This primes it, causing it to extend its <font color="#e000e0">'''receptor binding surface'''</font> (shown in the above animation), optimizing binding to the host cell's ACE2 receptor (not shown). Next, spike protein initiates fusion of the virus and host cell membranes (not shown), enabling the virus RNA to enter the cell and initiate production of new virions. Knowledge of spike protein's molecular structure and function is crucial to developing effective therapies and vaccines.
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>>> [[SARS-CoV-2_protein_S_priming_by_furin|Visit this page]] >>>
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<br>>>> [[SARS-CoV-2_protein_S_priming_by_furin|Visit this page]] >>>
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Current revision

About this image
Coronavirus Spike Protein Priming

by Eric Martz
Coronavirus SARS-CoV-2 (responsible for COVID-19) has a spike protein on its surface, which enables it to infect host cells. Initially, proteases in the lungs clip the homo-trimeric spike protein at a unique sequence. This primes it, causing it to extend its receptor binding surface (shown in the above animation), optimizing binding to the host cell's ACE2 receptor (not shown). Next, spike protein initiates fusion of the virus and host cell membranes (not shown), enabling the virus RNA to enter the cell and initiate production of new virions. Knowledge of spike protein's molecular structure and function is crucial to developing effective therapies and vaccines.
>>> Visit this page >>>

Proteopedia Page Contributors and Editors (what is this?)

Eric Martz, Jaime Prilusky

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