Thu, 21 Aug 2008 14:09:44 BST CiteULike: msuarezdiez's Gallaher http://www.citeulike.org/user/msuarezdiez/author/Gallaher CiteULike.org en-gb Copyright © 2004-2008 citeulike.org http://www.citeulike.org/user/msuarezdiez/article/2481463 <i>Science, Vol. 319, No. 5868. (7 March 2008), pp. 1387-1391.</i><br /><br />The creation of enzymes capable of catalyzing any desired chemical reaction is a grand challenge for computational protein design. Using new algorithms that rely on hashing techniques to construct active sites for multistep reactions, we designed retro-aldolases that use four different catalytic motifs to catalyze the breaking of a carbon-carbon bond in a nonnatural substrate. Of the 72 designs that were experimentally characterized, 32, spanning a range of protein folds, had detectable retro-aldolase activity. Designs that used an explicit water molecule to mediate proton shuffling were significantly more successful, with rate accelerations of up to four orders of magnitude and multiple turnovers, than those involving charged side-chain networks. The atomic accuracy of the design process was confirmed by the x-ray crystal structure of active designs embedded in two protein scaffolds, both of which were nearly superimposable on the design model. 10.1126/science.1152692 De Novo Computational Design of Retro-Aldol Enzymes Lin Jiang Eric Althoff Fernando Clemente Lindsey Doyle Daniela Rothlisberger Alexandre Zanghellini Jasmine Gallaher Jamie Betker Fujie Tanaka Carlos Barbas Donald Hilvert Kendall Houk Barry Stoddard David Baker doi:10.1126/science.1152692 Science, Vol. 319, No. 5868. (7 March 2008), pp. 1387-1391. 2008-03-07T02:58:37-00:00 2008 Science 319 5868 1387 1391 computational_protein_design enzyme_design http://www.citeulike.org/user/msuarezdiez/article/2568656 <i>Nature (19 March 2008)</i> Kemp elimination catalysts by computational enzyme design Daniela Röthlisberger Olga Khersonsky Andrew Wollacott Lin Jiang Jason Dechancie Jamie Betker Jasmine Gallaher Eric Althoff Alexandre Zanghellini Orly Dym Shira Albeck Kendall Houk Dan Tawfik David Baker doi:10.1038/nature06879 Nature (19 March 2008) 2008-03-21T04:33:18-00:00 2008 Nature 0028-0836 Nature Publishing Group computational desig protein