User:Rebeca B. Candia/Sandbox 1
From Proteopedia
(Difference between revisions)
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| - | Now, we can devote our attention to examine what occurs at the <scene name='78/788815/Stabilization_of_trimer_base/1'>base of the N-terminal region</scene>.Those are the <scene name='78/788815/Residues_at_base_-_2/1'>residues involved</scene> in relevant interactions that contribute to the stabilization of the trimeric form. Those are their specific <scene name='78/788815/Residues_at_base_-_names/1'>names</scene>. If we color according to their polarities, we realize that | + | Now, we can devote our attention to examine what occurs at the <scene name='78/788815/Stabilization_of_trimer_base/1'>base of the N-terminal region</scene>.Those are the <scene name='78/788815/Residues_at_base_-_2/1'>residues involved</scene> in relevant interactions that contribute to the stabilization of the trimeric form. Those are their specific <scene name='78/788815/Residues_at_base_-_names/1'>names</scene>. If we color according to their polarities, we realize that <scene name='78/788815/Residues_at_base_-_2_polarity/1'>polarity</scene> all are charged aminoacds. Them, there is no hydrophobic packing taking place at this region. Instead, we have '''hydrogen bonds''' as the main eletrostatic interaction. Notice the elements composing each aminoacid: in this color scheme, <font color='grey'><b> carbons are grey</b></font>, <font color='red'><b>oxygens are red</b></font> and <font color='blue'><b>nitrogens are blue</b></font> ({{Template:ColorKey_Element_C}},{{Template:ColorKey_Element_O}}, {{Template:ColorKey_Element_N}}). |
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| - | If we color the residues according to their | + | If we color the residues according to their , |
Revision as of 18:48, 16 June 2018
Trimeric Yeast Frataxin
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References
yellow
lilac
light-green
