Frankel:HIV/Virus

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'''<font color=#045FB4 font size=3>HIV covers its protein capsid with a viral envelop where GP160 is located. This glycoprotein facilitates fusion between the viral membrane and the host -cell membrane allowing liberation of the viral contents into the host cell. GP160 forms a trimer, where each monomer consists in two non-covalently associated subunits: a surface subunit GP120 that recognize and bind to specific receptor on the host cell and a transmembrane subunit GP41 that promotes membrane fusion.</font>'''
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'''<font color=#000000 font size=3>HIV covers its protein capsid with a viral envelop where GP160 is located. This glycoprotein facilitates fusion between the viral membrane and the host -cell membrane allowing liberation of the viral contents into the host cell. GP160 forms a trimer, where each monomer consists in two non-covalently associated subunits: a surface subunit GP120 that recognize and bind to specific receptor on the host cell and a transmembrane subunit GP41 that promotes membrane fusion.</font>'''
[[Image:GIF-VIRUS-INFECTION1.gif|500px]]
[[Image:GIF-VIRUS-INFECTION1.gif|500px]]

Revision as of 04:28, 9 January 2013

Danbanner-bio-machines.jpg



_________ HIV gp160






HIV covers its protein capsid with a viral envelop where GP160 is located. This glycoprotein facilitates fusion between the viral membrane and the host -cell membrane allowing liberation of the viral contents into the host cell. GP160 forms a trimer, where each monomer consists in two non-covalently associated subunits: a surface subunit GP120 that recognize and bind to specific receptor on the host cell and a transmembrane subunit GP41 that promotes membrane fusion.




The images to the right show the self assembly of the HIV gp160 protein reconstituted into DOPC bilayer and adsorbed onto mica. Each pore is made up of 6 features with dimensions consistent with single molecules.

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