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<span style="top:+0.2em; font-size:1.2em; padding-left:5px;">The free, collaborative 3D-encyclopedia of proteins & other molecules<br></span> | <span style="top:+0.2em; font-size:1.2em; padding-left:5px;">The free, collaborative 3D-encyclopedia of proteins & other molecules<br></span> | ||
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<tr style="padding:5px;font-size:2em; text-align:center; font-weight: bold; "> | <tr style="padding:5px;font-size:2em; text-align:center; font-weight: bold; "> | ||
<td>Journals</td><td>Art on Science</td><td>Selected Pages</td><td>Education</td></tr> | <td>Journals</td><td>Art on Science</td><td>Selected Pages</td><td>Education</td></tr> | ||
Revision as of 21:03, 16 February 2018
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| Journals | Art on Science | Selected Pages | Education | ||||||||||||||||||||||||||||||||||||||||
by David Canner
The X-ray structure of HIV-1 protease reveals that it is composed of , each consisting of 99 amino acid residues. The subunits come together in such as way as to . This tunnel is of critical importance because the active site of the protease is located in its interior. The active site consists of , making it a member of the aspartyl protease family. The two Asp's are either interact with the incoming water OR protonate the carbonyl to make the carbon more electrophilic for the incoming . (more...) |
by David Canner
The X-ray structure of HIV-1 protease reveals that it is composed of , each consisting of 99 amino acid residues. The subunits come together in such as way as to . This tunnel is of critical importance because the active site of the protease is located in its interior. The active site consists of , making it a member of the aspartyl protease family. The two Asp's are either interact with the incoming water OR protonate the carbonyl to make the carbon more electrophilic for the incoming . (more...) |
by David Canner
The X-ray structure of HIV-1 protease reveals that it is composed of , each consisting of 99 amino acid residues. The subunits come together in such as way as to . This tunnel is of critical importance because the active site of the protease is located in its interior. The active site consists of , making it a member of the aspartyl protease family. The two Asp's are either interact with the incoming water OR protonate the carbonyl to make the carbon more electrophilic for the incoming . (more...) |
by David Canner
The X-ray structure of HIV-1 protease reveals that it is composed of , each consisting of 99 amino acid residues. The subunits come together in such as way as to . This tunnel is of critical importance because the active site of the protease is located in its interior. The active site consists of , making it a member of the aspartyl protease family. The two Asp's are either interact with the incoming water OR protonate the carbonyl to make the carbon more electrophilic for the incoming . (more...) |
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