Proteins@home |
Introduction
Proteins@Home is investigating the "Inverse Protein Folding Problem": Whereas "Protein Folding" seeks to determine a protein's shape from its amino acid sequence, "Inverse Protein Folding" begins with a protein of known shape and seeks to "work backwards" to determine the amino acid sequence from which it is generated.
Inverse Protein Folding has the potential to significantly impact future drug design by providing tools to develop novel proteins with specific structural (and functional) properties.
Contents | |
Videos
Science
[The Science section might (or might not) be divided into two parts: {1} general discussion of the field, and then {2} a discussion of the project's specific endeavor. For instance, in LHC@home, we might have {1} "Science of the Large Hardon Collider" and then {2} "Science of LHC@home"
The above is desirable, because in most cases, the field of research is really fascinating, and presenting this in broad terms-- outlining the big questions-- can make it easier to understand the particulars of the project and why it is important.]
Results
[Where known, we should attempt to keep track of each project's publications. A good list to draw from is here. ]
Links of Interest
[Why recreate the wheel; there are lots of great sources out there.; a good list of sources can be really useful to the reader.]
Proteins@home In the Classroom
[For each project, please add a "[Projectname] in the Classroom" section-- with a link to Volunteer Computing In the Classroom and an article named "[Projectname] in the Classroom". (Then please add "[Projectname] in the Classroom" to the list on the main Education page.)]
Categories: Projects