Difference between revisions of "2023 Denovo tutorial 1 with PDBID 4S0V"
Stonybrook (talk | contribs) (→DeNovo Refinement) |
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The overall idea behind this refinement is to delete a portion of your ligand, replace the "stub" atom (or "anchor" atom) which is now not bonded to anything with a dummy atom, and ask DOCK to find an alternative. | The overall idea behind this refinement is to delete a portion of your ligand, replace the "stub" atom (or "anchor" atom) which is now not bonded to anything with a dummy atom, and ask DOCK to find an alternative. | ||
| − | + | *Step 1: Open the ligand minimized mol2 file we generated in the previous tutorial into Chimera. | |
| − | + | *Step 2: Open the protein into the same session | |
| − | + | *Step 3: Examine the binding site and choose a residue on the ligand that's pointing towards the inside of the binding site. For our protein this detailed section looks like: | |
[[File: ligandInSite.png|thumb|center]] | [[File: ligandInSite.png|thumb|center]] | ||
| Line 26: | Line 26: | ||
We see an imidazole ring pointing towards the binding site so will choose to work with that. Select the protein and hide it from view. | We see an imidazole ring pointing towards the binding site so will choose to work with that. Select the protein and hide it from view. | ||
| − | + | *Step 4: Place your mouse over the atom connecting the ring to the rest of the ligand and note the atom and number. In this case it's N4. | |
[[File: atomnumber.png|center]] | [[File: atomnumber.png|center]] | ||
Revision as of 16:59, 2 March 2023
Contents
Introduction
This next section will walk you through the three options for DeNovo Design:
- Generic DeNovo Design
- Focused Fragment Design
- DeNovo Refinement
and will be a continuation of the Virtual Screening tutorial. We will continue this work with #4s0v from the Protein Data Base.
Setting Up Your Environment
For this section we will need to create some more directories following this structure:
DeNovo Refinement
The DeNovo Refinement calculation/algorithm within DOCK is an interesting way to determine the effects on a ligand/protein interaction by changing part of the small molecule. For this tutorial we are going to change just a terminal ring on our ligand and see what different residues DOCK suggests we look into further.
The overall idea behind this refinement is to delete a portion of your ligand, replace the "stub" atom (or "anchor" atom) which is now not bonded to anything with a dummy atom, and ask DOCK to find an alternative.
- Step 1: Open the ligand minimized mol2 file we generated in the previous tutorial into Chimera.
- Step 2: Open the protein into the same session
- Step 3: Examine the binding site and choose a residue on the ligand that's pointing towards the inside of the binding site. For our protein this detailed section looks like:
We see an imidazole ring pointing towards the binding site so will choose to work with that. Select the protein and hide it from view.
- Step 4: Place your mouse over the atom connecting the ring to the rest of the ligand and note the atom and number. In this case it's N4.
