To elucidate the structures and dynamics of membrane proteins, highly advanced biophysical methods have been developed that often require significant resources, both for sample preparation and experimental analyses. For very complex systems, such as membrane transporters, ion channels or G-protein coupled receptors (GPCRs), the incorporation of a single reporter at a select site can significantly simplify the observables and the measurement/analysis requirements. Here we present examples using 19F nuclear magnetic resonance (NMR) spectroscopy as a powerful, yet relatively straightforward tool to study (membrane) protein structure, dynamics and ligand interactions. We summarize methods to incorporate 19F labels into proteins and discuss the type of information that can be readily obtained for membrane proteins already from relatively simple NMR spectra with a focus on GPCRs as the membrane protein family most extensively studied by this technique. In the future, these approaches may be of particular interest also for many proteins that undergo complex functional dynamics and/or contain unstructured regions and thus are not amenable to X-ray crystallography or cryo electron microscopy (cryoEM) studies.
The dengue virus
protease (DENV-PR) represents an attractive target
for counteracting DENV infections. It is generally assumed that DENV-PR
can exist in an open and a closed conformation and that active site
directed ligands stabilize the closed state. While crystal structures
of both the open and the closed conformation were successfully resolved,
information about the prevalence of these conformations in solution
remains elusive. Herein, we address the question of whether there
is an equilibrium between different conformations in solution which
can be influenced by addition of a competitive inhibitor. To this
end, DENV-PR was statistically labeled by two dye molecules constituting
a FRET (fluorescence resonance energy transfer) couple. Fluorescence
correlation spectroscopy and photon-burst detection were employed
to examine FRET pair labeled DENV-PRs freely diffusing in solution.
The measurements were performed with two double mutants and with two
dye couples. The data provide strong evidence that an equilibrium
of at least two conformations of DENV-PR exists in solution. The competitive
inhibitor stabilizes the closed state. Because the open and closed
conformations appear to coexist in solution, our results support the
picture of a conformational selection rather than that of an induced
fit mechanism with respect to the inhibitor-induced formation of the
closed state.
The flaviviral heterodimeric serine protease NS2B‐NS3, consisting of the NS3 protease domain and the NS2B co‐factor, is essential for ZIKA virus maturation and replication in cells. For in vitro studies a ‘linked’ construct, where a polyglycine linker connects NS2BCF and NS3pro, is often used. This construct undergoes autocatalytic cleavage. Here, we show that linked ZIKV NS2BCF‐NS3pro is cleaved in cis in the NS2BCF exclusively at position R95 and not at the previously proposed alternate cleavage site at residue R29 in the NS3pro. Cleavage neither affects protease stability nor activity, despite some observed differences in spectroscopic behavior. This minimally modified construct may thus be useful for future structural and functional studies of the flaviviral protease, for example when testing new inhibitors.
In acidic secretory granules of mammalian cells, peptide hormones including the parathyroid hormone are presumably stored in the form of functional amyloid fibrils. Mature PTH, however, is considerably positively charged in acidic environments, a condition known to impede unassisted self-aggregation into fibrils. Here, we studied the role of the polyanion heparin on promoting fibril formation of PTH. Employing ITC, CD spectroscopy, NMR, SAXS, and fluorescencebased assays, we could demonstrate that heparin binds PTH with submicromolar affinity and facilitates its conversion into fibrillar seeds, enabling rapid formation of amyloid fibrils under acidic conditions. In the absence of heparin, PTH remained in a soluble monomeric state. We suspect that heparin-like surfaces are required in vivo to convert PTH efficiently into fibrillar deposits.
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