Biophysical and Solution Structure Analysis of Critical Residues Involved in the Interaction between the PupB N-Terminal Signaling Domain and PupR C-Terminal Cell Surface Signaling Domain from Pseudomonas capeferrum
Tajnin Sultana, David M. Morgan, Beau D. Jernberg, Peyton Zak, Sangita C. Sinha, Christopher L. Colbert

TL;DR
This study investigates how specific mutations in a bacterial protein affect its interaction with another protein involved in cell surface signaling.
Contribution
The study validates the X-ray crystal structure interface and highlights the role of amino acid chemical nature in protein interactions.
Findings
Binding to PupR CCSSD does not alter the structure of PupB NTSD.
Mutations lower the thermodynamic stability of PupB NTSD and weaken binding to CCSSD.
The mutations have only minor effects on the overall protein structure.
Abstract
Abstract: Cell surface signaling (CSS) is a means of rapidly adjusting transcription in response to extracellular stimuli in Gram-negative bacteria. The pseudobactin BN7/8 uptake (Pup) system not only imports iron but also upregulates its own transcription through CSS in Pseudomonas capeferrum. In the absence of ferric pseudobactin BN7/8, the signaling components are maintained in a resting state via the formation of a periplasmic complex between the N-terminal signaling domain (NTSD) of the outer membrane iron-transporter, PupB, and the C-terminal CSS domain (CCSSD) of the sigma regulator, PupR. The previously determined 1.6 Å crystal structure of this periplasmic complex has allowed us to probe the structural and thermodynamic consequences of mutating key interfacial residues. In this report, we describe the solution structure of the PupB NTSD and use Nuclear Magnetic Resonance…
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Taxonomy
TopicsBacterial Genetics and Biotechnology · Photosynthetic Processes and Mechanisms · Toxin Mechanisms and Immunotoxins
