Presentation is loading. Please wait.

Presentation is loading. Please wait.

SimBioSys Inc.© 2003http://www.simbiosys.ca/ eHiTS: Novel algorithm for fast, exhaustive flexible ligand docking and scoring Zsolt Zsoldos, Aniko Simon,

Published byLoren Russell Modified over 9 years ago

Similar presentations

Presentation on theme: "SimBioSys Inc.© 2003http://www.simbiosys.ca/ eHiTS: Novel algorithm for fast, exhaustive flexible ligand docking and scoring Zsolt Zsoldos, Aniko Simon,"— Presentation transcript:

1 SimBioSys Inc.© 2003http://www.simbiosys.ca/ eHiTS: Novel algorithm for fast, exhaustive flexible ligand docking and scoring Zsolt Zsoldos, Aniko Simon, Irina Szabo, Zsolt Szabo, David Fung and A. Peter Jonson SimBioSys Inc., © 2003 Contents: ● Introduction: docking methods, exhaustive search definition ● Method: new docking algorithm implemented in the eHiTS software ● Scoring function: surface map based, including weak interactions ● Validation results and summary http://www.simbiosys.ca/

2 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Contents: Introduction Introduction Categorisation of the docking algorithms Definition of exhaustive docking search The search space size New docking algorithm of the eHiTS software Scoring function Validation results

3 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Y et A nother D ocking A lgorithm, YADA, yada... GOLD DOCK FlexX

4 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Exhaustive Conformation and Pose Search in our definition Discretisation must be fine enough to differentiate any atom movement >=0.5Å Rotation and dihedral sampling must be finer than 5° 30° sampling can miss perfect hydrohob fit by 1.5Å clashes PDB code: 1HRI ~7Å PDB code: 1CX2

5 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Search Space Size Number of poses to examine with sampling defined: Translations(0.5Å) * Rotations(5°) * Dihedrals(5°) = 20 3 * 72 3 * 72 n ~ n=6 rot.bonds => 2*10 20 poses per ligand Brute force evaluation 2000/s => 3 billion years Stochastic methods explore a tiny fraction of the space with no guarantee to find the best or even any good-enough solutions

6 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Contents: new docking algorithm Introduction New docking algorithm of the eHiTS software: Overview of the algorithm Rigid fragment docking Graph matching by clique detection Flexible chain fitting Scoring function Validation results

7 SimBioSys Inc.© 2003http://www.simbiosys.ca/ eHiTS algorithm overview: Divide and Conquer Ligand is divided into rigid fragments and connecting flexible chains All rigid fragments are docked independently Graph matching Flexible chain fitting Local energy minimisation Patent pending algorithm:

8 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Rigid fragment docking based on Chemical feature mapped polyhedra Polyhedron shrink-wrapped onto molecular surface (Connolly) Chemical feature flags on vertices Analogue cavity representation Rapid mapping of ligand and cavity polyhedra D D D D A A

9 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Graph matching by clique detection Each rigid fragment is now individually docked to several alternative sites Task is to find sets of poses such that: fragments can be linked by flexible chains they do not bump into each other Graph nodes: ligand fragment poses Graph edges: pose pairs at distance compatible with chain length Cliques encode docking solutions

10 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Flexible chain fitting Find chain conformation to link given pair of fragments: Double diamond latice to start from Tweak the chain to fit end points and avoid boundary (deterministic)

11 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Contents: scoring function Introduction New docking algorithm of the eHiTS software Scoring function: Surface map based ranking score Chemical feature flags Weak (secondary) interaction flags Validation results

12 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Surface map based ranking score Chemical property flags are mapped onto 0.5Å resolution Connolly surface Receptor surface point weights determined by depth in pocket Flag compatibility matrix score for receptor-ligand contacts Exposed receptor points get penalty based on depth value

13 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Feature flags indicate properties H-bond Donor: {D/d} H-bond Acceptor: {A/a} Hydrophobic flags: {H/h} Aromatic Pi-stack:ring {R}, center {O}, edge {E} Partial charges: {p/n} Formal charges: {P/N} Metal ions and ligands: {M/m} HdE nhR HR HO DApnmE

14 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Weak interaction flags Secondary (weak) H-bond donor flags are assigned to Carbon atoms in polar environment (e.g. in aromatic ring, next to Nitrogen) Heteroatoms in aromatic rings get secondary hydrophobic flags in direction of  electrons Secondary flags contribute to score and avoid penalties PDB code: 1AHA

15 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Contents: validation results Introduction New docking algorithm of the eHiTS software Scoring function Validation results: Examples: 1NIS, 1TDB, 1SRJ, 1FKG, 3CPA, 4SLI Graph and table of RMSD results on validation set Speed performance in different modes Summary

16 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Example: PDB code 1NIS Stick & ball = X-ray crsytal structure ligand pose Closest (0.6Å RMSD) Top rank (0.9Å RMSD) Closest solution found by GOLD had 3.5Å RMSD

17 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Example: PDB code 1TDB, that GOLD has failed to dock Stick & ball = X-ray crsytal structure ligand pose Closest (1.3Å RMSD) Top rank (3.7Å RMSD)

18 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Example: PDB code 1SRJ, where “FlexX failed due to structural errors” Stick & ball = X-ray crsytal structure ligand pose Closest (0.6Å RMSD) Top rank (2.4Å RMSD)

19 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Example: PDB code 1FKG, “too complex task for FlexX” Stick & ball = X-ray crsytal structure ligand pose Closest (1.1Å RMSD) Top rank (1.8Å RMSD)

20 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Example: PDB code 3CPA, where DOCK failed Stick & ball = X-ray crsytal structure ligand pose Closest (0.93Å RMSD) Top rank (1.16Å RMSD)

21 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Example: PDB code 4SLI, where DOCK failed Stick & ball = X-ray crsytal structure ligand pose Closest (0.61Å RMSD) Top rank (0.65Å RMSD)

22 SimBioSys Inc.© 2003http://www.simbiosys.ca/ RMSD results on the validation set The Astex/CCDC validation set of GOLD was used: 105 PDB to tune parameters 200 PDB complexes to test

23 SimBioSys Inc.© 2003http://www.simbiosys.ca/ eHiTS speed Seconds per ligand on single CPU Linux PC 2.4GHz Pentium 4, 512MB RAM VHTS mode employs an SQL database to store rigid fragment poses and re-use it for other ligands having the same fragment

24 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Summary Advantages of the eHiTS software: Exhaustive search – don't miss a potential drug! High accuracy – the most important Deterministic – no need to wait for a lucky day Fully automated - no manual setup, seed selection Highly configurable scoring function Very fast - extremely High Througput Screening of large databases or virtual libraries http://www.simbiosys.ca/

25 SimBioSys Inc.© 2003http://www.simbiosys.ca/ Acknowledgements Team: Irina Szabo, Zsolt Szabo, Aniko Simon, David Fung, A. Peter Johnson and Zsolt Zsoldos Funding support by Canadian government grants: NRC - IRAP project #411461 GeoDock SR & ED project (2001) NRC - IRAP project #468906 EnerMin SR & ED project (2002)

Download ppt "SimBioSys Inc.© 2003http://www.simbiosys.ca/ eHiTS: Novel algorithm for fast, exhaustive flexible ligand docking and scoring Zsolt Zsoldos, Aniko Simon,"

Similar presentations

Slide 1 CheVi Tutorial Aniko Simon, Darryl Reid, Sing Yoong Khew, and Zsolt Zsoldos SimBioSys presents.

Slide 1 CheVi Tutorial Aniko Simon, Darryl Reid, Sing Yoong Khew, and Zsolt Zsoldos SimBioSys presents.
Scientific & technical presentation Structure Visualization with MarvinSpace Oct 2006.

Scientific & technical presentation Structure Visualization with MarvinSpace Oct 2006.
1 Miklós Vargyas, Judit Papp May, 2005 MarvinSpace – live demo.

1 Miklós Vargyas, Judit Papp May, 2005 MarvinSpace – live demo.
Miroslav Brumovský28th July 2011 Miroslav Brumovský 28 th July 2011 Methods using polarization for in silico fragment-based drug design.

Miroslav Brumovský28th July 2011 Miroslav Brumovský 28 th July 2011 Methods using polarization for in silico fragment-based drug design.
3D Molecular Structures C371 Fall 2004. Morgan Algorithm (Leach & Gillet, p. 8)

3D Molecular Structures C371 Fall Morgan Algorithm (Leach & Gillet, p. 8)
A 3-D reference frame can be uniquely defined by the ordered vertices of a non- degenerate triangle p1p1 p2p2 p3p3.

A 3-D reference frame can be uniquely defined by the ordered vertices of a non- degenerate triangle p1p1 p2p2 p3p3.
Nov. 2006 B. S. Sadjad 1 Toward Fully Flexible Docking Bashir S. Sadjad School of Computer Science, University of Waterloo, Canada.

Nov B. S. Sadjad 1 Toward Fully Flexible Docking Bashir S. Sadjad School of Computer Science, University of Waterloo, Canada.
Iterative Relaxation of Constraints (IRC) Can’t solve originalCan solve relaxed PRMs sample randomly but… start goal C-obst difficult to sample points.

Iterative Relaxation of Constraints (IRC) Can’t solve originalCan solve relaxed PRMs sample randomly but… start goal C-obst difficult to sample points.
1 PharmID: A New Algorithm for Pharmacophore Identification Stan Young Jun Feng and Ashish Sanil NISSMPDM 3 June 2005.

1 PharmID: A New Algorithm for Pharmacophore Identification Stan Young Jun Feng and Ashish Sanil NISSMPDM 3 June 2005.
A Versatile Depalletizer of Boxes Based on Range Imagery Dimitrios Katsoulas*, Lothar Bergen*, Lambis Tassakos** *University of Freiburg **Inos Automation-software.

A Versatile Depalletizer of Boxes Based on Range Imagery Dimitrios Katsoulas*, Lothar Bergen*, Lambis Tassakos** *University of Freiburg **Inos Automation-software.
Molecular Docking G. Schaftenaar Docking Challenge Identification of the ligand’s correct binding geometry in the binding site ( Binding Mode ) Observation:

Molecular Docking G. Schaftenaar Docking Challenge Identification of the ligand’s correct binding geometry in the binding site ( Binding Mode ) Observation:
Two Examples of Docking Algorithms With thanks to Maria Teresa Gil Lucientes.

Two Examples of Docking Algorithms With thanks to Maria Teresa Gil Lucientes.
Docking Algorithm Scheme Part 1: Molecular shape representation Part 2: Matching of critical features Part 3: Filtering and scoring of candidate transformations.

Docking Algorithm Scheme Part 1: Molecular shape representation Part 2: Matching of critical features Part 3: Filtering and scoring of candidate transformations.
2. Modeling of small systems Building the model What is the optimal conformation of a molecule? What is the relative energy of a given conformation? What.

2. Modeling of small systems Building the model What is the optimal conformation of a molecule? What is the relative energy of a given conformation? What.
Summary Molecular surfaces QM properties presented on surface Compound screening Pattern matching on surfaces Martin Swain Critical features Dave Whitley.

Summary Molecular surfaces QM properties presented on surface Compound screening Pattern matching on surfaces Martin Swain Critical features Dave Whitley.
M. Wagener 3D Database Searching and Scaffold Hopping Markus Wagener NV Organon.

M. Wagener 3D Database Searching and Scaffold Hopping Markus Wagener NV Organon.
Docking of Protein Molecules

Docking of Protein Molecules
Protein Primer. Outline n Protein representations n Structure of Proteins Structure of Proteins –Primary: amino acid sequence –Secondary:  -helices &

Protein Primer. Outline n Protein representations n Structure of Proteins Structure of Proteins –Primary: amino acid sequence –Secondary:  -helices &
FLEX* - REVIEW.

FLEX* - REVIEW.
Bioinformatics IV Quantitative Structure-Activity Relationships (QSAR) and Comparative Molecular Field Analysis (CoMFA) Martin Ott.

Bioinformatics IV Quantitative Structure-Activity Relationships (QSAR) and Comparative Molecular Field Analysis (CoMFA) Martin Ott.

Similar presentations

Ads by Google