Journal:JBSD:10
From Proteopedia
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<b>Molecular Tour</b><br> | <b>Molecular Tour</b><br> | ||
| - | ''Leptospira interrogans'', a Gram-negative bacterial pathogen is the main cause of human leptospirosis. Lipid A is a highly immunoreactive endotoxic center of lipopolysaccharide (LPS) that anchors LPS into the outer membrane of Leptospira. Discovery of compounds inhibiting lipid-A biosynthetic pathway would be promising for dissolving the structural integrity of membrane leading to cell lysis and death of Leptospira. <scene name='Journal:JBSD:10/Cv/2'>LpxC</scene>, a unique enzyme of lipid-A biosynthetic pathway was identified as common drug target of ''Leptospira''. Herein, homology modeling, docking, and molecular dynamics (MD) simulations were employed to discover potential inhibitors of LpxC. A <scene name='Journal:JBSD:10/Cv/3'>reliable tertiary structure of LpxC in complex with inhibitor BB-78485</scene> was constructed in Modeller 9v8. <scene name='Journal:JBSD:10/Cv/5'>Click here to see animated comparison</scene> between active site of target and template ([[2ves]]) in the presence of BB-78485. The color code representations as deep pink: target; green: template; cyan: BB-78485 in complex with target; and darkmagenta: BB-78485 in complex with template. Zn ion represented as sphere. A data-set of BB-78485 structural analogs were docked with LpxC in Maestro v9.2 virtual screening workflow, which implements three stage Glide docking protocol. Twelve lead molecules with better XP Gscore compared to BB-78485 were proposed as potential inhibitors of LpxC. Para-(benzoyl)-phenylalanine – that showed lowest XP Gscore (−10.35 kcal/mol) – was predicted to have best binding affinity towards LpxC. MD simulations were performed for LpxC and para-(benzoyl)-phenylalanine docking complex in Desmond v3.0. Trajectory analysis showed the docking complex and inter-molecular interactions was stable throughout the entire production part of MD simulations. The results indicate para-(benzoyl)-phenylalanine as a potent drug molecule against leptospirosis. | + | ''Leptospira interrogans'', a Gram-negative bacterial pathogen is the main cause of human leptospirosis. Lipid A is a highly immunoreactive endotoxic center of lipopolysaccharide (LPS) that anchors LPS into the outer membrane of Leptospira. Discovery of compounds inhibiting lipid-A biosynthetic pathway would be promising for dissolving the structural integrity of membrane leading to cell lysis and death of Leptospira. <scene name='Journal:JBSD:10/Cv/2'>LpxC</scene>, a unique enzyme of lipid-A biosynthetic pathway was identified as common drug target of ''Leptospira''. Herein, homology modeling, docking, and molecular dynamics (MD) simulations were employed to discover potential inhibitors of LpxC. A <scene name='Journal:JBSD:10/Cv/3'>reliable tertiary structure of LpxC in complex with inhibitor BB-78485</scene> was constructed in Modeller 9v8. <scene name='Journal:JBSD:10/Cv/5'>Click here to see animated comparison</scene> between active site of target and template (LpxC from ''Pseudomonas aeruginosa'' [[2ves]]) in the presence of BB-78485. The color code representations as deep pink: target; green: template; cyan: BB-78485 in complex with target; and darkmagenta: BB-78485 in complex with template. Zn ion represented as sphere. A data-set of BB-78485 structural analogs were docked with LpxC in Maestro v9.2 virtual screening workflow, which implements three stage Glide docking protocol. Twelve lead molecules with better XP Gscore compared to BB-78485 were proposed as potential inhibitors of LpxC. Para-(benzoyl)-phenylalanine – that showed lowest XP Gscore (−10.35 kcal/mol) – was predicted to have best binding affinity towards LpxC. MD simulations were performed for LpxC and para-(benzoyl)-phenylalanine docking complex in Desmond v3.0. Trajectory analysis showed the docking complex and inter-molecular interactions was stable throughout the entire production part of MD simulations. The results indicate para-(benzoyl)-phenylalanine as a potent drug molecule against leptospirosis. |
</StructureSection> | </StructureSection> | ||
<references/> | <references/> | ||
__NOEDITSECTION__ | __NOEDITSECTION__ | ||
Revision as of 14:26, 6 February 2013
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- ↑ REF
This page complements a publication in scientific journals and is one of the Proteopedia's Interactive 3D Complement pages. For aditional details please see I3DC.
