AI Article Synopsis
- NMR spectroscopy is essential for studying protein structure and interactions in their natural environments, but it usually has low sensitivity in complex biological systems.
- We utilized a technique called dynamic nuclear polarization (DNP) to boost sensitivity and successfully analyze the behavior of the Ail protein within bacterial cell membranes.
- Our findings reveal detailed interactions between the Ail protein and its surrounding environment that were previously undetectable, showing how certain amino acids help reshape the membrane, aiding in host invasion and disease processes.
Article Abstract
Elucidating the structure and interactions of proteins in native environments is a fundamental goal of structural biology. Nuclear magnetic resonance (NMR) spectroscopy is well suited for this task but often suffers from low sensitivity, especially in complex biological settings. Here, we use a sensitivity-enhancement technique called dynamic nuclear polarization (DNP) to overcome this challenge. We apply DNP to capture the membrane interactions of the outer membrane protein Ail, a key component of the host invasion pathway of . We show that the DNP-enhanced NMR spectra of Ail in native bacterial cell envelopes are well resolved and enriched in correlations that are invisible in conventional solid-state NMR experiments. Furthermore, we demonstrate the ability of DNP to capture elusive interactions between the protein and the surrounding lipopolysaccharide layer. Our results support a model where the extracellular loop arginine residues remodel the membrane environment, a process that is crucial for host invasion and pathogenesis.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11019665 | PMC |
| http://dx.doi.org/10.1021/acs.biochem.3c00262 | DOI Listing |
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