Exploitation of Latent Allostery Enables the Evolution of New Modes of MAP Kinase Regulation Scott M. Coyle,1,2 Jonathan Flores,1 and Wendell A. Lim1,3,* 1Howard Hughes Medical Institute, Department of Cellular and Molec - Wendell Scott - Document - PDFSEARCH.IO

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	Exploitation of Latent Allostery Enables the Evolution of New Modes of MAP Kinase Regulation Scott M. Coyle,1,2 Jonathan Flores,1 and Wendell A. Lim1,3,* 1Howard Hughes Medical Institute, Department of Cellular and Molec Add to Reading List Document Date: 2014-12-24 04:42:34 Open Document File Size: 2,70 MB Share Result on Facebook City San Francisco / / Company Fus3 MAPK / Elsevier Inc. / / Country United States / / Facility Ste5 scaffold / Fus3 complex / Hughes Medical Institute / AND Ste5 scaffold / N terminal / University of California / This scaffold / / IndustryTerm active site / multicomponent regulatory systems / molecular networks / natural systems / kinase network / conformational energy landscape / model systems / to allosteric systems / / Organization Department of Cellular and Molecular Pharmacology / University of California / San Francisco / San Francisco / MAP Kinase Regulation Scott M. Coyle / 1 / 2 Jonathan Flores / 1 and Wendell A. Lim1 / 3 / * 1Howard Hughes Medical Institute / USA 3UCSF Center for Systems and Synthetic Biology / / Person Scott M. Coyle / Taylor Ringia / / Product Ste5 / / ProvinceOrState California / / Technology protein engineering / cell signaling / cmp / / URL http / SocialTag Cell biology Protein kinases Proteins Scaffold protein Extracellular signal-regulated kinases Allosteric regulation Ultrasensitivity Mitogen-activated protein kinase MAP kinase kinase kinase Biology

Exploitation of Latent Allostery Enables the Evolution of New Modes of MAP Kinase Regulation Scott M. Coyle,1,2 Jonathan Flores,1 and Wendell A. Lim1,3,* 1Howard Hughes Medical Institute, Department of Cellular and MolecAdd to Reading List