Difference between revisions of "Team:IIT Madras/Experiments"
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<h2>Getting the structure of Alyteserin-1a</h2> | <h2>Getting the structure of Alyteserin-1a</h2> | ||
<p>Alyteserin-1a is a modified antimicrobial peptide which was made by introducing two mutations (D4E & N23S) in Alyteserin-1c peptide. The structure for Alyteserin-1a is not available therefore we obtained the pdb structure for Alyteserin-1c (pdb id : 2L5R) and created the given mutations in pymol. We carefully analyzed the structural feature of Alyteserin-1a peptide to come up with another peptide which could interact with it. We seem to find an interesting pattern which was a hydrophobic groove on one side of the peptide. We targeted this region to neutralize the anit-microbial peptide.</p> | <p>Alyteserin-1a is a modified antimicrobial peptide which was made by introducing two mutations (D4E & N23S) in Alyteserin-1c peptide. The structure for Alyteserin-1a is not available therefore we obtained the pdb structure for Alyteserin-1c (pdb id : 2L5R) and created the given mutations in pymol. We carefully analyzed the structural feature of Alyteserin-1a peptide to come up with another peptide which could interact with it. We seem to find an interesting pattern which was a hydrophobic groove on one side of the peptide. We targeted this region to neutralize the anit-microbial peptide.</p> | ||
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<h2>Predicting the structure of Naly</h2> | <h2>Predicting the structure of Naly</h2> | ||
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<h2>Molecular Dynamics Simulation</h2> | <h2>Molecular Dynamics Simulation</h2> | ||
<p>We performed molecular dynamics simulation experiments to confirm that Naly is able to interact with Alyteserin-1a antimicrobial peptide, hence it can neutralize it's activity to kill the pathogemic bacteria. Following are the steps that we followed in this experiment :</p> | <p>We performed molecular dynamics simulation experiments to confirm that Naly is able to interact with Alyteserin-1a antimicrobial peptide, hence it can neutralize it's activity to kill the pathogemic bacteria. Following are the steps that we followed in this experiment :</p> | ||
− | < | + | <ol> |
− | <li> | + | <li>Convert both the pdb files to .gro files and get the topology files using pdb2gmx tool. Use GROMOS96 53a6 force field.</li> |
− | <li> | + | <li>Change the positions of both the peptides in a way that they are far away and disoriented. |
+ | <li>Build the .gro file for the complex (both proteins) by merging the above .gro files. Create the .top file for complex both peptides.</li> | ||
+ | <li>Define the box for the complex and solvate with water molecules.</li> | ||
+ | <li>Add NA+ and CL- atoms to neutralize the charge of whole system.</li> | ||
+ | <li>Prepare the .tpr file for energy minimization step.</li> | ||
+ | <li>Steepest descent minimization algorithm was used for a maximum of 50,000 steps.</li> | ||
+ | <li>Position restrain the water molecules in complex.top file.</li> | ||
+ | <li>NVT equilibrate the system. | ||
+ | |||
+ | </ol> | ||
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Revision as of 06:42, 17 September 2015
Getting the structure of Alyteserin-1a
Alyteserin-1a is a modified antimicrobial peptide which was made by introducing two mutations (D4E & N23S) in Alyteserin-1c peptide. The structure for Alyteserin-1a is not available therefore we obtained the pdb structure for Alyteserin-1c (pdb id : 2L5R) and created the given mutations in pymol. We carefully analyzed the structural feature of Alyteserin-1a peptide to come up with another peptide which could interact with it. We seem to find an interesting pattern which was a hydrophobic groove on one side of the peptide. We targeted this region to neutralize the anit-microbial peptide.
Predicting the structure of Naly
In our project, a key step was to neutralize the antimicrobial peptide, Alyteserin-1a, so that we can create a stress free environment. For this, we designed a novel peptide of smaller length, which can interact favorably with Alyteserin-1a. We used following step to get the best possible peptide :
- We used pepstr, an online tool, which takes amino-acid sequence as input and gives us possible structures, in pdb form, of the protein.
- After getting several possible structures, we used another online tool, ZDOCK, which docks two molecules and give a score, which tells us about that how favorably peptides are interacting.
- We screened few peptides from above process and proceeded for MD simulations.
Molecular Dynamics Simulation
We performed molecular dynamics simulation experiments to confirm that Naly is able to interact with Alyteserin-1a antimicrobial peptide, hence it can neutralize it's activity to kill the pathogemic bacteria. Following are the steps that we followed in this experiment :
- Convert both the pdb files to .gro files and get the topology files using pdb2gmx tool. Use GROMOS96 53a6 force field.
- Change the positions of both the peptides in a way that they are far away and disoriented.
- Build the .gro file for the complex (both proteins) by merging the above .gro files. Create the .top file for complex both peptides.
- Define the box for the complex and solvate with water molecules.
- Add NA+ and CL- atoms to neutralize the charge of whole system.
- Prepare the .tpr file for energy minimization step.
- Steepest descent minimization algorithm was used for a maximum of 50,000 steps.
- Position restrain the water molecules in complex.top file.
- NVT equilibrate the system.