Design of a Novel Globular Protein Fold with Atomic-Level Accuracy
Brian Kuhlman(Howard Hughes Medical Institute), Gautam Dantas(Howard Hughes Medical Institute), Gregory C. Ireton(Howard Hughes Medical Institute), Gabriele Varani(Howard Hughes Medical Institute), Barry Stoddard(Howard Hughes Medical Institute), David Baker(Howard Hughes Medical Institute)
Cited by 1,702
Abstract
A major challenge of computational protein design is the creation of novel proteins with arbitrarily chosen three-dimensional structures. Here, we used a general computational strategy that iterates between sequence design and structure prediction to design a 93-residue alpha/beta protein called Top7 with a novel sequence and topology. Top7 was found experimentally to be folded and extremely stable, and the x-ray crystal structure of Top7 is similar (root mean square deviation equals 1.2 angstroms) to the design model. The ability to design a new protein fold makes possible the exploration of the large regions of the protein universe not yet observed in nature.
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