2023 Denovo tutorial 2 with PDBID 3WZE

From Rizzo_Lab
Revision as of 18:21, 18 March 2023 by Stonybrook (talk | contribs) (Ligand Preparation)
Jump to: navigation, search

Introduction

This tutorial is a continuation of the virtual screening tutorial. In this tutorial, we'll continue to work with the receptor and ligand in PDB 3WZE, and we'll attempt to generate new ligands for the receptor using three kinds of de novo design: de novo refinement, focused de novo design, and generic de novo design.

De novo can be directly translated as "of new", but a more deft translation might be "from the beginning" or "from scratch". This method of ligand generation involves procedurally generating a a ligand using algorithms within programs like DOCK, and is typically used to build entirely new ligands for proteins by building molecules outwards from an initial anchor one moiety at a time.

Generic de novo design best matches the prior description, in which a pre-selected or random anchor is positioned within the active site of the receptor, and then built outwards in a number of layers occupied by various sampled moieties. Focused de novo design is much like generic de novo design, except that the pool of sampled moieties is curtailed to suit the needs of the researcher. Finally, de novo refinement is when one begins with an already discovered ligand, then deletes some of the molecule and replaces it with a dummy atom, effectively using the remainder of the ligand as the anchor for the de novo design algorithms to modify.

Directories

Make a new directory for de novo refinement:

 mkdir 009_denovo

De Novo Refinement

Ligand Preparation

1. Open the final, energy minimized ligand mol2 file which was used for the virtual screen tutorial, and also open the final receptor mol2 file that was used in that screen. Either Chimera or ChimeraX can be used to open the files. As long as no translations or rotations have occurred during the virtual screen process, the ligand should still be in its native orientation within the receptor's active site, as depicted by the original 3WZE pdb file.

2. Examine the binding pocket of the receptor, and choose a part of the 3WZE ligand that faces towards the interior of the binding pocket. Parts of the ligand that are innermost to the receptor make for the best parts to delete because they tend to have the most potential interactions with the protein, allowing the various groups tested in de novo design to have a better chance of interacting with a group on the protein. Choosing a part of the ligand to delete which faces the cytosol or the channel leading to the cytosol will be less likely to yield new ligands that can bind tightly to the interior of the receptor. To help recognize good sites for deletion, it's a good idea to show sidechains and hbonds, which can allow you to see which parts of the ligand are interacting with the protein.

Dougdenovo1.png

In this image, one can see the ligand sorafinib, and also the two hbonds that it forms with the nearby glutamic acid residue 71. It also forms an hbond with the backbone of the receptor using its amide oxygen. Based on this, we'll truncate those two amides and the entire aromatic ring closest to the camera.

3. Select and hide the receptor.

4. Orient the ligand so that the area you wish to delete is easy to see. Hold control down on your keyboard, then click and drag to cover the area. This should select the area.

5. Delete the selected area using Actions->Atoms/Bonds->Delete. Alternatively, if you're using the (clearly superior) ChimeraX, simply type "delete sel" into the command line.

Focused De Novo Design

Generic De Novo Design