Presentation is loading. Please wait.

Presentation is loading. Please wait.

1/20 Study of Highly Accurate and Fast Protein-Ligand Docking Method Based on Molecular Dynamics Reporter: Yu Lun Kuo

Published byJeremy Gilbert Modified over 9 years ago

Similar presentations

Presentation on theme: "1/20 Study of Highly Accurate and Fast Protein-Ligand Docking Method Based on Molecular Dynamics Reporter: Yu Lun Kuo"— Presentation transcript:

1 1/20 Study of Highly Accurate and Fast Protein-Ligand Docking Method Based on Molecular Dynamics Reporter: Yu Lun Kuo E-mail: sscc6991@gmail.comsscc6991@gmail.com Date: November 21, 2006 M. Taufer, M. Crowley, D. J. Price, A. A. Chien‡ and C. L. Brooks III ∗,† Department of Molecular Biology (TPC6), The Scripps Research Institute, 10550 North Torrey Pines Road, La Jolla, CA 92037, U.S.A. Published online 24 June 2005 in Wiley InterScience

2 2/20 Outline Introduction MD-based Docking Method Algorithm Evaluation Metrics MD vs. Other Methods Conclusion & Future work

3 3/20 Introduction (1/3) Drug development Use of small molecules (ligand) to turn on or off a protein function Protein-ligand docking Computational methods for the prediction of ligand- protein structure information

4 4/20 Introduction(2/3) Exiting docking method –Current docking algorithms are fast and use simplified scoring function to direct conformational search and select the best structure –Methods based on molecular dynamics (MD) and atomically detailed force field (e.g., CDOCKER) are more accurate but time- and resource-expensive.

5 5/20 Introduction (3/3) Desktop grids –By scavenging for available and idle cycles –Provide computing power at a significant cost saving Our algorithm –Parallel and each simulation attempt is decomposable into independent sub-jobs

6 6/20 MD-based Docking Method (1/2) Goals –Assure accuracy Benefit from the molecular mechanics force fields –Guarantee performance Return docking results in a short turnaround time using cost-effective platforms Approach –Docking method based on CHARMM molecular dynamics simulations and with a highly flexible computational granularity

7 7/20 MD-based Docking Method (2/2) MD Simulation Heating & Cooling phase (300K  700K  300K) Scoring function to rank Lowest energy structure 20 Docking trial

8 8/20 Algorithm Evaluation (1/2) Characterization of the docking method: –Does the MD length affect the docking accuracy? –Does the number of trials affect the docking accuracy? Comparing algorithm with other well-known docking methods –AutoDock 、 DOCK 、 FlexX 、 ICM 、 GOLD

9 9/20 Algorithm Evaluation (2/2) Experimental testbed –Platform SGI R10000 –Single 195MHz IP2 processor –128MB memory A cluster of 64 dual-processor nodes at the SDSC (San Diego Supercomputer Center) –Data set: 31 protein-ligand complexes 10 proteins 31 ligands with different levels of complexity

10 10/20 Metrics Docking Accuracy (DA) –DA = f RMSD<2 + 0.5(f RMSD<3 - f RMSD<2 ) – f RMSD<a fraction of predicted ligands docked into a given protein with RMSD lesser or equal to a Ǻ Computational Time –Time to complete a set of docking trials –Report CPU time for sets of 1, 10 and 20 trials

11 11/20 Four Different MD Simulations

12 12/20 Docking Accuracy (DA) Ten trials per attempt ensure enough accuracy (T10)

13 13/20 Average Time with Different Number of MD Steps Increase of number of MD steps Almost linear increase of the simulation time

14 14/20 MD vs. Other Methods Other Methods –AutoDock 、 DOCK 、 FlexX 、 ICM 、 GOLD Comparison Metrics –Docking Accuracy (DA) –RMSD of predicted ligands –CPU time per attempt Definition of attempt –Consider CASE B and 10 trials per attempt (T10)

15 15/20 Comparison of Docking Accuracy

16 16/20 Best RMSD of Predicted Ligands RMSD: Root-mean-square-deviation

17 17/20 Time Comparison If enough processors are available, the time for completing a protein-ligand docking is competitive with the other methods

18 18/20 Conclusion & Future work The MD-based docking method –Reach an average accuracy of 71% Still a lot of exciting research has to be addressed both at the application and system levels –Number of ligand orientations per trial based on resources and node reliability

19 19/20 Conclusion & Future work Future work –Plan to make a more detailed study of MD and Monte Carlo simulations for the docking process in the near future. ICM running multiple Monte Carlo minimizations Our docking protocol to desktop grids –Proportionally decreases the time to solution –Fine-grained parallel algorithm for docking trial

20 20/20 Thanks for your attention

Download ppt "1/20 Study of Highly Accurate and Fast Protein-Ligand Docking Method Based on Molecular Dynamics Reporter: Yu Lun Kuo"

Similar presentations

Design Rule Generation for Interconnect Matching Andrew B. Kahng and Rasit Onur Topaloglu {abk | rtopalog University of California, San Diego.

Design Rule Generation for Interconnect Matching Andrew B. Kahng and Rasit Onur Topaloglu {abk | rtopalog University of California, San Diego.
Energy Efficiency through Burstiness Athanasios E. Papathanasiou and Michael L. Scott University of Rochester, Computer Science Department Rochester, NY.

Energy Efficiency through Burstiness Athanasios E. Papathanasiou and Michael L. Scott University of Rochester, Computer Science Department Rochester, NY.
Protein Docking Rong Chen Boston University. BU Bioinformatics The Lowest Binding Free Energy  G water R L R L L R L R L R.

Protein Docking Rong Chen Boston University. BU Bioinformatics The Lowest Binding Free Energy  G water R L R L L R L R L R.
AutoDock 4 and AutoDock Vina -Brief Intruction

AutoDock 4 and AutoDock Vina -Brief Intruction
Clustering the Temporal Sequences of 3D Protein Structure Mayumi Kamada +*, Sachi Kimura, Mikito Toda ‡, Masami Takata +, Kazuki Joe + + : Graduate School.

Clustering the Temporal Sequences of 3D Protein Structure Mayumi Kamada +*, Sachi Kimura, Mikito Toda ‡, Masami Takata +, Kazuki Joe + + : Graduate School.
Parallel Computation of the 2D Laminar Axisymmetric Coflow Nonpremixed Flames Qingan Andy Zhang PhD Candidate Department of Mechanical and Industrial Engineering.

Parallel Computation of the 2D Laminar Axisymmetric Coflow Nonpremixed Flames Qingan Andy Zhang PhD Candidate Department of Mechanical and Industrial Engineering.
1 TCAM Razor: A Systematic Approach Towards Minimizing Packet Classifiers in TCAMs Department of Computer Science and Information Engineering National.

1 TCAM Razor: A Systematic Approach Towards Minimizing Packet Classifiers in TCAMs Department of Computer Science and Information Engineering National.
Bioinformatics Vol. 21 no (Pages ) Reporter: Yu Lun Kuo (D )

Bioinformatics Vol. 21 no (Pages ) Reporter: Yu Lun Kuo (D )
Scheduling of parallel jobs in a heterogeneous grid environment Scheduling of parallel jobs in a heterogeneous grid environment Each site has a homogeneous.

Scheduling of parallel jobs in a heterogeneous grid environment Scheduling of parallel jobs in a heterogeneous grid environment Each site has a homogeneous.
Future CAMD Workloads and their Implications for Computer System Design IEEE 6th Annual Workshop on Workload Characterization.

Future CAMD Workloads and their Implications for Computer System Design IEEE 6th Annual Workshop on Workload Characterization.
Protein Threading Zhanggroup 2003 10 22. Overview Background protein structure protein folding and designability Protein threading Current limitations.

Protein Threading Zhanggroup Overview Background protein structure protein folding and designability Protein threading Current limitations.
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.
Evaluation of Fast Electrostatics Algorithms Alice N. Ko and Jesús A. Izaguirre with Thierry Matthey Department of Computer Science and Engineering University.

Evaluation of Fast Electrostatics Algorithms Alice N. Ko and Jesús A. Izaguirre with Thierry Matthey Department of Computer Science and Engineering University.
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.
Atomistic Protein Folding Simulations on the Submillisecond Timescale Using Worldwide Distributed Computing Qing Lu CMSC 838 Presentation.

Atomistic Protein Folding Simulations on the Submillisecond Timescale Using Worldwide Distributed Computing Qing Lu CMSC 838 Presentation.
1 Introduction to Load Balancing: l Definition of Distributed systems. Collection of independent loosely coupled computing resources. l Load Balancing.

1 Introduction to Load Balancing: l Definition of Distributed systems. Collection of independent loosely coupled computing resources. l Load Balancing.
BL5203: Molecular Recognition & Interaction Lecture 5: Drug Design Methods Ligand-Protein Docking (Part I) Prof. Chen Yu Zong Tel: 6874-6877

BL5203: Molecular Recognition & Interaction Lecture 5: Drug Design Methods Ligand-Protein Docking (Part I) Prof. Chen Yu Zong Tel:
Techniques for Efficient Processing in Runahead Execution Engines Onur Mutlu Hyesoon Kim Yale N. Patt.

Techniques for Efficient Processing in Runahead Execution Engines Onur Mutlu Hyesoon Kim Yale N. Patt.
Bioinf. Data Analysis & Tools Molecular Simulations & Sampling Techniques117 Jan 2006 Bioinformatics Data Analysis & Tools Molecular simulations & sampling.

Bioinf. Data Analysis & Tools Molecular Simulations & Sampling Techniques117 Jan 2006 Bioinformatics Data Analysis & Tools Molecular simulations & sampling.

Similar presentations

Ads by Google