Genomic sequencing has shown that the CRP/CooA superfamily of proteins is quite large and must regulate a variety of disparate functions. However, only a modest number of members of this superfamily are understood in terms of their effectors and their physiological role. We have had great success in analyzing the response of CooA to CO binding and the basis of its specificity for CO. We have already extended some of those insights to provide a better understanding of the response of CRP itself to its effector, cAMP. Nevertheless, some key issues remain that we will address in Aim I of this proposal, including (i) the basis for repositioning of the DNA-binding domain in response to effector;(ii) the degree to which the each protein's ligand specificity is indirectly altered by properties physically unlinked to the effector-binding site;and (iii) the identification of the structures for each protein that are necessary for a full understanding of their responses to effector. In another aim of the proposal, we will exploit our understanding of CRP and CooA to develop novel and general methods for understanding the effectors and the physiological roles of other members of the superfamily that have been identified through genome sequencing. In the course of our work on CooA, we have found a completely different CO-sensing transcriptional factor in R. rubrum and other bacterial species, which we have termed RcoM (regulator of CO metabolism). By a variety of criteria RcoM appears to be a CO-sensor that regulates the expression of aerobic CO dehydrogenase systems. The RcoM family contains heme, but is not homologous to CooA. Its effector-binding domain is homologous to that of other heme-containing PAS domains and its DNA-binding domain, termed a LytTR domain, is distributed broadly in prokaryotes, yet its function is poorly understood. We have already developed purification methods, an in vitro functional assay and identified one heme ligand in RcoM. We will exploit these tools and the methodology we developed for CooA to analyze CO responsiveness in this novel family of CO sensors.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM053228-16
Application #
7883566
Study Section
Prokaryotic Cell and Molecular Biology Study Section (PCMB)
Program Officer
Smith, Ward
Project Start
1996-12-01
Project End
2011-10-31
Budget Start
2010-08-01
Budget End
2011-10-31
Support Year
16
Fiscal Year
2010
Total Cost
$406,514
Indirect Cost
Name
University of Wisconsin Madison
Department
Microbiology/Immun/Virology
Type
Schools of Earth Sciences/Natur
DUNS #
161202122
City
Madison
State
WI
Country
United States
Zip Code
53715
Smith, Aaron T; Marvin, Katherine A; Freeman, Katherine M et al. (2012) Identification of Cys94 as the distal ligand to the Fe(III) heme in the transcriptional regulator RcoM-2 from Burkholderia xenovorans. J Biol Inorg Chem 17:1071-82
Kerby, Robert L; Roberts, Gary P (2012) Burkholderia xenovorans RcoM(Bx)-1, a transcriptional regulator system for sensing low and persistent levels of carbon monoxide. J Bacteriol 194:5803-16
Kerby, Robert L; Roberts, Gary P (2011) Sustaining N2-dependent growth in the presence of CO. J Bacteriol 193:774-7
Serate, Jose; Roberts, Gary P; Berg, Otto et al. (2011) Ligand responses of Vfr, the virulence factor regulator from Pseudomonas aeruginosa. J Bacteriol 193:4859-68
Leduc, Jason L; Roberts, Gary P (2009) Cyclic di-GMP allosterically inhibits the CRP-like protein (Clp) of Xanthomonas axonopodis pv. citri. J Bacteriol 191:7121-2
Kerby, Robert L; Youn, Hwan; Roberts, Gary P (2008) RcoM: a new single-component transcriptional regulator of CO metabolism in bacteria. J Bacteriol 190:3336-43
Youn, Hwan; Koh, Junseock; Roberts, Gary P (2008) Two-state allosteric modeling suggests protein equilibrium as an integral component for cyclic AMP (cAMP) specificity in the cAMP receptor protein of Escherichia coli. J Bacteriol 190:4532-40
Tobelmann, Matthew D; Kerby, Robert L; Murphy, Regina M (2008) A strategy for generating polyglutamine 'length libraries'in model host proteins. Protein Eng Des Sel 21:161-4
Marvin, Katherine A; Kerby, Robert L; Youn, Hwan et al. (2008) The transcription regulator RcoM-2 from Burkholderia xenovorans is a cysteine-ligated hemoprotein that undergoes a redox-mediated ligand switch. Biochemistry 47:9016-28
Ibrahim, Mohammed; Kuchinskas, Michael; Youn, Hwan et al. (2007) Mechanism of the CO-sensing heme protein CooA: new insights from the truncated heme domain and UVRR spectroscopy. J Inorg Biochem 101:1776-85

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