Difference between revisions of "2021 DOCK tutorial 3 with PDBID 1S19"

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DOCK historically used a geometric matching algorithm to superimpose the ligand onto a negative image of the active site of the receptor. Over the years, features were added that would improve the programs ability to find the lowest-energy binding mode. Somem of these features include force-field based scoring, on-the-fly optimization and an algorithm for flexible ligand docking.  
 
DOCK historically used a geometric matching algorithm to superimpose the ligand onto a negative image of the active site of the receptor. Over the years, features were added that would improve the programs ability to find the lowest-energy binding mode. Somem of these features include force-field based scoring, on-the-fly optimization and an algorithm for flexible ligand docking.  
  
In this tutorial DOCK6 will be used. New features for DOCK6 include: additional scoring options during minimization; DOCK 3.5 scoring-including Delphi electrostatics, ligand conformational entropy corrections, ligand desolvation, receptor desolvation; Hawkins-Cramer-Truhlar GB/SA solvation scoring with optional salt screening and more (see UCSF DOCK[http://dock.compbio.ucsf.edu/Overview_of_DOCK/index.htm]). These new features improved the programs ability to predict binding poses.
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In this tutorial DOCK6 will be used. New features for DOCK6 include: additional scoring options during minimization; DOCK 3.5 scoring-including Delphi electrostatics, ligand conformational entropy corrections, ligand desolvation, receptor desolvation; Hawkins-Cramer-Truhlar GB/SA solvation scoring with optional salt screening and more (see [http://dock.compbio.ucsf.edu/Overview_of_DOCK/index.htm UCSF DOCK]). These new features improved the programs ability to predict binding poses.
  
 
===1S19===
 
===1S19===

Revision as of 10:04, 23 February 2021

Introduction

DOCK

Developed by Irwin D. Kuntz, Jr. and colleagues at UCSF, DOCK is a program used to dock molecules to one another. Docking is a process in which given a small molecule or ligand in the active site of a receptor, the program will try to predict the lowest-energy binding mode of the ligand to the receptor. This process is very important in drug discovery as small molecules that bind to or interact with the active site of a receptor associated with a disease could inhibit its function, acting as a drug. DOCK is a particularly helpful tool as it is used to screen massive libraries of molecules, containing millions of compounds, against a receptor to identify the most promising drug lead compounds.

DOCK historically used a geometric matching algorithm to superimpose the ligand onto a negative image of the active site of the receptor. Over the years, features were added that would improve the programs ability to find the lowest-energy binding mode. Somem of these features include force-field based scoring, on-the-fly optimization and an algorithm for flexible ligand docking.

In this tutorial DOCK6 will be used. New features for DOCK6 include: additional scoring options during minimization; DOCK 3.5 scoring-including Delphi electrostatics, ligand conformational entropy corrections, ligand desolvation, receptor desolvation; Hawkins-Cramer-Truhlar GB/SA solvation scoring with optional salt screening and more (see UCSF DOCK). These new features improved the programs ability to predict binding poses.

1S19

This tutorial will use PDB code: 1S19. 1S19 is the crystal structure of VDR ligand binding domain complexed to calcipotriol (find structure here. The resolution is 2.10 Å. Click Download Files -> PDB Format to download PDB file.

Chimera

[Paragraph about Chimera]

Making Directories

[Brief thing on creating the different folders]

Preparing the Ligand and Receptor

PDB Structure

Download the structure of 1S19 from the Protein Data Bank (PDB) File:Example.jpg

Receptor

Ligand