Title
Graded Structural Polymorphism in a Bacterial Thermosensor Protein
Author
Abhishek Narayan, Luis A. Campos, Sandhya Bhatia, David Fushman, Athi N. Naganathan
Year
2016
Journal
JACS
Abstract
Thermosensing is critical for the expression of virulence genes in pathogenic bacteria that infect warm-blooded hosts. Proteins of the Hha-family, conserved among enterobacteriaceae, have been implicated in dynamically regulating the expression of a large number of genes upon temperature shifts. However, there is little mechanistic evidence at the molecular level as to how changes in temperature are transduced into structural changes and hence the functional outcome. In this study, we delineate the conformational behavior of Cnu, a putative molecular thermosensor, employing diverse spectroscopic, calorimetric and hydro-dynamic measurements. We find that Cnu displays probe-dependent unfolding in equilibrium, graded increase in structural fluctuations and temperature-dependent swelling of the dimensions of its native ensemble within the physiological range of temperatures, features that are indicative of a highly malleable native ensemble. Site-specific fluorescence and NMR experiments in combination with multiple computational approaches - statistical mechanical model, coarse-grained and all-atom MD simulations - reveal that the fourth helix of Cnu acts as a unique thermosensing module displaying varying degrees of order and orientation in response to temperature modulations while undergoing a continuous unfolding transition. Our combined experimental-computational study unravels the folding-functional landscape of a natural thermosensor protein, the molecular origins of unfolding complexity, highlights the role of functional constraints in determining folding-mechanistic behaviors, and the design principles orchestrating the signal transduction roles of the Hha protein family.
Full Article
Instrument
J-815
Keywords
Circular dichroism, Secondary structure, Tertiary structure, Thermal stability, Biochemistry