Literature DB >> 28008087

Evolutionary drivers of thermoadaptation in enzyme catalysis.

Vy Nguyen1, Christopher Wilson1, Marc Hoemberger1, John B Stiller1, Roman V Agafonov1, Steffen Kutter1, Justin English1, Douglas L Theobald2, Dorothee Kern3.   

Abstract

With early life likely to have existed in a hot environment, enzymes had to cope with an inherent drop in catalytic speed caused by lowered temperature. Here we characterize the molecular mechanisms underlying thermoadaptation of enzyme catalysis in adenylate kinase using ancestral sequence reconstruction spanning 3 billion years of evolution. We show that evolution solved the enzyme's key kinetic obstacle-how to maintain catalytic speed on a cooler Earth-by exploiting transition-state heat capacity. Tracing the evolution of enzyme activity and stability from the hot-start toward modern hyperthermophilic, mesophilic, and psychrophilic organisms illustrates active pressure versus passive drift in evolution on a molecular level, refutes the debated activity/stability trade-off, and suggests that the catalytic speed of adenylate kinase is an evolutionary driver for organismal fitness.
Copyright © 2017, American Association for the Advancement of Science.

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Year:  2016        PMID: 28008087      PMCID: PMC5649376          DOI: 10.1126/science.aah3717

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  34 in total

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Authors:  Euiyoung Bae; George N Phillips
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10.  The energy landscape of adenylate kinase during catalysis.

Authors:  S Jordan Kerns; Roman V Agafonov; Young-Jin Cho; Francesco Pontiggia; Renee Otten; Dimitar V Pachov; Steffen Kutter; Lien A Phung; Padraig N Murphy; Vu Thai; Tom Alber; Michael F Hagan; Dorothee Kern
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  47 in total

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8.  Mapping the transition state for a binding reaction between ancient intrinsically disordered proteins.

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