Journal:JBIC:6
From Proteopedia
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The thioredoxin-like Sco domain of pp3183 does not bind copper(II), binds copper(I) with weak affinity without involving the conserved His, and has redox properties consisting of thioredoxin activity and the ability of reducing copper(II) to copper(I), and <scene name='Journal:JBIC:6/Cyt_c_opening_ron/1'>iron(III) to iron(II) in the cyt c domain</scene>. These findings indicate that the His ligand coordination is the discriminating factor for introducing a metallochaperone function in a thioredoxin-like fold, typically responsible of electron transfer processes. A comparative structural analysis of the Sco domain from ''P. putida'' vs. eukaryotic Sco proteins revealed structural determinants affecting the formation of a tight vs. weak affinity copper binding site in Sco proteins. In <scene name='Journal:JBIC:6/Opening_sco/2'>ppSco proteins</scene>, the <scene name='Journal:JBIC:6/Cxxc_motif/2'>CXXXC motif</scene> and <scene name='Journal:JBIC:6/Cxxc_motif_his/1'>His-ligand</scene> are surrounded by <scene name='Journal:JBIC:6/Cxxc_motif_polar/1'>neighboring polar residues</scene>. Eukaryotic <scene name='Journal:JBIC:6/Cu_eukaryotic_sco/2'>Sco proteins</scene> possess the same <scene name='Journal:JBIC:6/Cu_eukaryotic_cxxxc/3'>conserved CXXXC motif</scene> and neighboring <scene name='Journal:JBIC:6/Cu_eukaryotic_cxxxc_his/2'>copper binding His residue</scene> as is found in ''P. putida'' Sco proteins. <scene name='Journal:JBIC:6/Cu_eukaryotic_cxxxc_hydro/1'>Hydrophobic interactions</scene> between the CXXXC region and the conserved His region <scene name='Journal:JBIC:6/Cu_eukaryotic_cxxxc_hydro_in/1'>freeze the copper binding state</scene> conformation only in eukaryotic Scos determining a tight affinity binding site. | The thioredoxin-like Sco domain of pp3183 does not bind copper(II), binds copper(I) with weak affinity without involving the conserved His, and has redox properties consisting of thioredoxin activity and the ability of reducing copper(II) to copper(I), and <scene name='Journal:JBIC:6/Cyt_c_opening_ron/1'>iron(III) to iron(II) in the cyt c domain</scene>. These findings indicate that the His ligand coordination is the discriminating factor for introducing a metallochaperone function in a thioredoxin-like fold, typically responsible of electron transfer processes. A comparative structural analysis of the Sco domain from ''P. putida'' vs. eukaryotic Sco proteins revealed structural determinants affecting the formation of a tight vs. weak affinity copper binding site in Sco proteins. In <scene name='Journal:JBIC:6/Opening_sco/2'>ppSco proteins</scene>, the <scene name='Journal:JBIC:6/Cxxc_motif/2'>CXXXC motif</scene> and <scene name='Journal:JBIC:6/Cxxc_motif_his/1'>His-ligand</scene> are surrounded by <scene name='Journal:JBIC:6/Cxxc_motif_polar/1'>neighboring polar residues</scene>. Eukaryotic <scene name='Journal:JBIC:6/Cu_eukaryotic_sco/2'>Sco proteins</scene> possess the same <scene name='Journal:JBIC:6/Cu_eukaryotic_cxxxc/3'>conserved CXXXC motif</scene> and neighboring <scene name='Journal:JBIC:6/Cu_eukaryotic_cxxxc_his/2'>copper binding His residue</scene> as is found in ''P. putida'' Sco proteins. <scene name='Journal:JBIC:6/Cu_eukaryotic_cxxxc_hydro/1'>Hydrophobic interactions</scene> between the CXXXC region and the conserved His region <scene name='Journal:JBIC:6/Cu_eukaryotic_cxxxc_hydro_in/1'>freeze the copper binding state</scene> conformation only in eukaryotic Scos determining a tight affinity binding site. | ||
| - | Cytochrome c domain of pp3183 protein from ''Pseudomonas putida'' [[2l4d]]. | + | '''PDB reference:''' Cytochrome c domain of pp3183 protein from ''Pseudomonas putida'', [[2l4d]]. |
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</StructureSection> | </StructureSection> | ||
<references/> | <references/> | ||
__NOEDITSECTION__ | __NOEDITSECTION__ | ||
Current revision
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- ↑ Banci L, Bertini I, Ciofi-Baffoni S, Kozyreva T, Mori M, Wang S. Sco proteins are involved in electron transfer processes. J Biol Inorg Chem. 2010 Dec 23. PMID:21181421 doi:10.1007/s00775-010-0735-x
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