Journal:JBSD:13
From Proteopedia
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The L166P mutation of <scene name='Journal:JBSD:13/Cv/2'>DJ1</scene> prevents the formation of a <scene name='Journal:JBSD:13/Cv/4'>functional DJ1 dimer</scene> and is linked to early-onset Parkinson’s disease (PD). Studies have shown that the chaperon modulator, BCL2-associated athanogene (BAG1) can repair DJ1 mutant thereby restoring its dimer forming function. Molecular simulation techniques were used to elucidate mechanisms underlying the repair of DJ1 L166P by BAG1. | The L166P mutation of <scene name='Journal:JBSD:13/Cv/2'>DJ1</scene> prevents the formation of a <scene name='Journal:JBSD:13/Cv/4'>functional DJ1 dimer</scene> and is linked to early-onset Parkinson’s disease (PD). Studies have shown that the chaperon modulator, BCL2-associated athanogene (BAG1) can repair DJ1 mutant thereby restoring its dimer forming function. Molecular simulation techniques were used to elucidate mechanisms underlying the repair of DJ1 L166P by BAG1. | ||
| - | Due to the lack of BAG1 crystal structures, a modeled BAG1 structure was built with I-TASSER using the UniProt peptide sequence (ID: Q99933). The DJ1 L166P mutant model was built and energetically minimized using Build Mutants from Discovery Studio 2.5 (DS 2.5; Accelrys Inc., San Diego, CA), with reference to DJ1 monomer (PDB: 1PDV). A dock-based dimerization simulation showed that interaction between mutant DJ1 and BAG1 at pose 2 restored disrupted alpha helix structures and H-bonds stabilizing the functional site Cys106. The His126-Pro184 H-bond critical to maintaining dimer interfaces was also restored and led to the restoration of dimer formation. RMSD comparisons indicated that Pose 2-DJ1 dimer was extremely similar to that of the crystal DJ1 dimer structure (PDB: 2R1T) with an RMSD of 0.74ֵ. The insights into the molecular functions of BAG1 might be applied to further the search for an effective Parkinson’s disease treatment. | + | Due to the lack of BAG1 crystal structures, a <scene name='Journal:JBSD:13/Cv/5'>modeled BAG1 structure</scene> was built with I-TASSER using the UniProt peptide sequence (ID: Q99933). The DJ1 L166P mutant model was built and energetically minimized using Build Mutants from Discovery Studio 2.5 (DS 2.5; Accelrys Inc., San Diego, CA), with reference to DJ1 monomer (PDB: 1PDV). A dock-based dimerization simulation showed that interaction between mutant DJ1 and BAG1 at pose 2 restored disrupted alpha helix structures and H-bonds stabilizing the functional site Cys106. The His126-Pro184 H-bond critical to maintaining dimer interfaces was also restored and led to the restoration of dimer formation. RMSD comparisons indicated that Pose 2-DJ1 dimer was extremely similar to that of the crystal DJ1 dimer structure (PDB: 2R1T) with an RMSD of 0.74ֵ. The insights into the molecular functions of BAG1 might be applied to further the search for an effective Parkinson’s disease treatment. |
</StructureSection> | </StructureSection> | ||
Revision as of 14:04, 26 August 2012
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- ↑ Chen CY. Mechanism of BAG1 repair on Parkinson's disease-linked DJ1 mutation. J Biomol Struct Dyn. 2012 May;30(1):1-12. PMID:22571429 doi:10.1080/07391102.2012.674182
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