Journal:JBSD:6
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| - | <StructureSection load='Supplementary_PDB.pdb' size=' | + | <StructureSection load='Supplementary_PDB.pdb' size='450' side='right' scene='Journal:JBSD:6/Cv/11' caption=''> |
=== Evidence-based docking of the urease activation complex === | === Evidence-based docking of the urease activation complex === | ||
| - | <big>Rodrigo Ligabue-Braun, Rafael Real-Guerra, Célia Regina Carlini, Hugo Verli</big><ref> | + | <big>Rodrigo Ligabue-Braun, Rafael Real-Guerra, Célia Regina Carlini, Hugo Verli</big><ref>doi 10.1080/07391102.2012.713782</ref> |
<hr/> | <hr/> | ||
<b>Molecular Tour</b><br> | <b>Molecular Tour</b><br> | ||
| - | Ureases are enzymes that break down urea to carbon dioxide and ammonia, and they are one of the very few enzymes that have nickel in their active sites. Genetic and biochemical studies have shown that most of these enzymes require accessory proteins for the correct assembly of the nickel in their metallocenters. | + | Ureases are enzymes that break down urea to carbon dioxide and ammonia, and they are one of the very few enzymes that have nickel in their active sites. Genetic and biochemical studies have shown that most of these enzymes require accessory proteins for the correct assembly of the nickel in their metallocenters. <scene name='Journal:JBSD:6/Cv/4'>UreA</scene> (<span style="color:lime;background-color:black;font-weight:bold;">green</span>), <scene name='Journal:JBSD:6/Cv/5'>UreB</scene> (<font color='red'><b>red</b></font>), and <scene name='Journal:JBSD:6/Cv/6'>UreC</scene> (<font color='darkmagenta'><b>darkmagenta</b></font>) form the <scene name='Journal:JBSD:6/Cv/7'>(UreABC)3 apoprotein</scene>. The trimeric representation |
| + | considers UreABC as a functional unit. Studies of ''Klebsiella aerogenes'' urease activation pathway revealed that three accessory proteins – <span style="color:yellow;background-color:black;font-weight:bold;">UreD (yellow)</span>, <span style="color:cyan;background-color:black;font-weight:bold;">UreF (cyan)</span>, <font color='magenta'><b>UreG (magenta)</b></font> – are essential for the production of a functional urease. These proteins sequentially bind to form the <scene name='Journal:JBSD:6/Cv/8'>(UreABC-UreD)3</scene>, <scene name='Journal:JBSD:6/Cv/9'>(UreABC-UreDF)3</scene>, and <scene name='Journal:JBSD:6/Cv/10'>(UreABC-UreDFG)3</scene> activation complexes. <scene name='Journal:JBSD:6/Cv/12'>Click here to see this structure</scene> is rotated by 90º. In this work we submitted structural models of such proteins to macromolecular docking calculations with ''K. aerogenes'' urease, which lead to a putative structure for the urease activation complex. | ||
The presented model for this complex is the first to include UreG and to use the current data on the activation pathway to guide the docking calculations. Despite the urease activation process being far more complex, our results are likely to expand the current knowledge on this essential step for proper ureolytic activity, aiding further high resolution studies of this macromolecular assembly by providing a 3D scaffold to work upon. | The presented model for this complex is the first to include UreG and to use the current data on the activation pathway to guide the docking calculations. Despite the urease activation process being far more complex, our results are likely to expand the current knowledge on this essential step for proper ureolytic activity, aiding further high resolution studies of this macromolecular assembly by providing a 3D scaffold to work upon. | ||
</StructureSection> | </StructureSection> | ||
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- ↑ Ligabue-Braun R, Real-Guerra R, Carlini CR, Verli H. Evidence-based docking of the urease activation complex. J Biomol Struct Dyn. 2012 Sep 10. PMID:22962938 doi:10.1080/07391102.2012.713782
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