From FightAIDS@Home at WCG: “The end of the beginning is near for FightAIDS@Home”

WCGLarge
WCG new
World Community Grid

FAAH
FightAIDS@home

20 Feb 2015
The FightAIDS@Home research team

Summary
Thanks to the incredible generosity of World Community Grid volunteers, the FightAIDS@Home project team has finished with an important stage of their project. The research team has refocused on analyzing their existing results and preparing for the end of this historic grid computing stage.

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FightAIDS@Home has been running on World Community Grid in some form almost since the beginning of World Community Grid itself: our project launched in 2005. Thanks to the enormous and ongoing support of our worldwide community of volunteers, we have expanded the scope of our research and explored new targets and drug candidates that we simply could not imagine at the outset. It hardly seems sufficient to say thank you for donating over 330,000 years of processing time to support our research, but once again, from all of us to all of you: thank you. Clearly we could not do this research without you.

With your help, we have reached a new milestone: no new AutoDock (AD) or AD Vina docking experiments are currently being generated. Put another way: we’re done creating new work tasks. The AutoDock queue is now empty, and the AD Vina queue has more than a year’s worth of jobs left. Most of our efforts have shifted towards analysis.

The analysis of the FightAIDS@Home data has several levels of difficulty due to the sheer amounts of data, which are comprised of several structures of any drug target as well as millions of small molecules, resulting in hundreds of millions of data points. We are attempting to use a couple of approaches to mine this data, one of which includes examining amino-acids involved in top-ranked dockings. Another approach is to investigate the atomic coordinates of important interactions (pharmacophore) between the protein and the small molecule that was docked. Figures 1 and 2 (below) illustrate a simple example of inhibitor TL3 (Figure 1) and the predictions of 1 experiment (Figure 2, ~5.5 million dockings on 1 protein structure). Of course, these evaluations must be done with a large set of known inhibitors and across myriad protein structures. Once these methods pass a high level of confidence, molecules will be bought and sent to collaborators to be tested.

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Figure 1. Docked pose of known HIV-1 protease inhibitor TL3 in an HIV-1 protease structure (not shown). Spherical representations (accompanied with dots, orange for TL3, green for a water molecule) represent important locations for protein-ligand interactions that are used to evaluate if a molecule may be a good drug candidate. The green sphere represents the location of an important (“flap”) water molecule often observed in HIV-1 protease co-crystal structures. The 2 orange spheres directly below the green sphere represent two locations of an interaction with significant amino acids (Asp25) of HIV-1 protease.

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Figure 2. Same docked pose of TL3 in HIV-1 protease as Figure 1 with top percentage of interactions from 1 experiment (pink spheres) and several predictions (transparent surfaces) for important protein-ligand interactions. Note that the water molecule (green) and the 2 orange interactions below it are always predicted.

See the full article here.

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FightAIDS@Home is a project run by the Olson Laboratory that uses distributed computing to contribute your computer’s idle resources to accelerate research into new drug therapies for HIV, the virus that causes AIDS. FightAIDS@Home made history in September 2000 when it became the first biomedical Internet-based grid computing project. FightAIDS@Home was started with Scott Kurowski, founder of Entropia. People all around the World continue to donate their home computer’s idle cycles to running our AutoDock software on HIV-1 protease inhibitor docking problems. With the generous assistance of IBM, we joined World Community Grid in late 2005, and launched FightAIDS@Home on World Community Grid on 21 November, 2005.

How do I join the FightAIDS@Home Project?

All you need to do is download and install the free client software. Once you have done this, your computer is then automatically put to work and you can continue using your computer as usual.