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Effect of DNA binding on geminate CO recombination kinetics in CO-sensing transcription factor CooA

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dc.contributor.author Benabbas, A
dc.contributor.author Venugopal Karunakaran
dc.contributor.author Youn, H
dc.contributor.author Poulos, T L
dc.contributor.author Champion, P M
dc.date.accessioned 2013-07-11T11:11:02Z
dc.date.available 2013-07-11T11:11:02Z
dc.date.issued 2012-06-22
dc.identifier.citation Journal of Biological Chemistry 287(26):21729-21740;22 Jun 2012 en_US
dc.identifier.uri http://hdl.handle.net/123456789/551
dc.description.abstract Carbon monoxide oxidation activator (CooA) proteins are heme-based CO-sensing transcription factors. Here we study the ultrafast dynamics of geminate CO rebinding in two CooA homologues, Rhodospirillum rubrum (RrCooA) and Carboxydothermus hydrogenoformans (ChCooA). The effects of DNA binding and the truncation of the DNA-binding domain on the CO geminate recombination kinetics were specifically investigated. The CO rebinding kinetics in these CooA complexes take place on ultrafast time scales but remain non-exponential over many decades in time. We show that this non-exponential kinetic response is due to a quenched enthalpic barrier distribution resulting from a distribution of heme geometries that is frozen or slowly evolving on the time scale of CO rebinding. We also show that, upon CO binding, the distal pocket of the heme in the CooA proteins relaxes to form a very efficient hydrophobic trap for CO. DNA binding further tightens the narrow distal pocket and slightly weakens the iron-proximal histidine bond. Comparison of the CO rebinding kinetics of RrCooA, truncated RrCooA, and DNA-bound RrCooA proteins reveals that the uncomplexed and inherently flexible DNA-binding domain adds additional structural heterogeneity to the heme doming coordinate. When CooA forms a complex with DNA, the flexibility of the DNA-binding domain decreases, and the distribution of the conformations available in the heme domain becomes restricted. The kinetic studies also offer insights into how the architecture of the heme environment can tune entropic barriers in order to control the geminate recombination of CO in heme proteins, whereas spin selection rules play a minor or non-existent role en_US
dc.language.iso en en_US
dc.publisher American Society for Biochemistry and Molecular Biology en_US
dc.subject Resonance Raman -spectroscopy en_US
dc.subject Diatomic ligand binding en_US
dc.subject Rhodospirillum rubrum en_US
dc.subject Carbon monoxide en_US
dc.subject Heme proteins en_US
dc.subject actvation COOA en_US
dc.title Effect of DNA binding on geminate CO recombination kinetics in CO-sensing transcription factor CooA en_US
dc.type Article en_US
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