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 | Welcome to Crunchers Inc. We hope you enjoy your visit. You're currently viewing our forum as a guest. This means you are limited to certain areas of the board and there are some features you can't use. If you join our community, you'll be able to access member-only sections, and use many member-only features such as customizing your profile, sending personal messages, and voting in polls. Registration is simple, fast, and completely free. Join our community! If you're already a member please log in to your account to access all of our features: |
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Stats/links| vaio |
Posted: Dec 22 2007, 12:37 PM
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Administrator  Group: Admin Posts: 8,076 Member No.: 1 Joined: 14-January 06  |
 TEAM STATS Main page Team Proteins are the nanoscale machinery of all the known cellular life. Amazingly, these large biomolecules with up to 100,000 atoms fold into unique three-dimensional shapes in which they function. These functions include all cellular chemistry (metabolism), energy conversion (photosynthesis) and transport (oxygen transport), signal processing in the brain (neurons), immune response and many others, often with an efficiency unmatched by any man-made process. Protein malfunction is often related to diseases and thousands disease-related proteins have been identified to date, many with still unknown structure. To understand, control or even design proteins we need to study protein structure, which is experimentally much harder to obtain than the information about the chemical composition (sequence) of a specific protein. By joining this project you will contribute to a computational approach to * predict the biologically active structure of proteins * understandthe signal-processing mechanisms when the proteins interact with one another * understand diseases related to protein malfunction or aggregation * develop new drugs on the basis of the three-dimensions structure of biologically important proteins. POEM@HOME implements a novel approach to understand these aspects of protein structure, which lends itself very well to worldwide distributed computing. The scientific approach behind POEM@HOME is a computational realization of the thermodynamic hypothesis that won C. B. Anfinsen the Nobel Prize in Chemistry in 1972. So please help us, by joining POEM@HOME, solve the scientific mysteries described above and decipher the biological information encoded in proteins of unknown structure. POEM@HOME is a purely academic, non-profit project to improve our understanding of biomolecular structure and function. All substantial result of POEM@HOME will be published in international peer reviewed journals with proper credit to the POEM@HOME volunteers. |
  
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| vaio |
Posted: Dec 30 2007, 11:57 AM
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Administrator Group: Admin Posts: 8,076 Member No.: 1 Joined: 14-January 06 |
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| vaio |
Posted: Jan 4 2008, 09:52 AM
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Administrator Group: Admin Posts: 8,076 Member No.: 1 Joined: 14-January 06 |
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| vaio |
Posted: Jan 10 2008, 02:46 PM
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Administrator Group: Admin Posts: 8,076 Member No.: 1 Joined: 14-January 06 |
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| ChemSpock |
Posted: Jun 25 2008, 11:22 PM
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Member Group: Members Posts: 10 Member No.: 48 Joined: 3-June 06 |
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| vaio |
Posted: Jun 26 2008, 09:33 AM
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Administrator Group: Admin Posts: 8,076 Member No.: 1 Joined: 14-January 06 |
Thank you, will edit the opening post.
Nice to see you here  |
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| ChemSpock |
Posted: Jun 27 2008, 03:12 AM
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Member Group: Members Posts: 10 Member No.: 48 Joined: 3-June 06 |
I've been around, just don't check the posts often. I fixed my "name" in Poem to match my user name. |
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