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The core component BamA of the β barrel assembly machinery (BAM) adopts several conformations, which are thought to facilitate the insertion and folding of β barrel proteins into the bacterial outer membrane. Which factors alter the stability of these conformations remains to be quantified. Here, we apply single-molecule force spectroscopy to characterize the mechanical properties of BamA from Escherichia...
Upon mechanical pulling at either terminal end, β barrel outer membrane proteins stepwise unfold β strands or β hairpins until entirely extracted from the membrane. This unique unfolding pathway has been described for β barrels comprising 8, 14, or 22 β strands. Here we mechanically unfold the 18-stranded β barrel outer membrane protein LamB from Escherichia coli. We find that its mechanical unfolding...
The voltage-dependent anion channel (VDAC) regulates the flux of metabolites and ions across the outer mitochondrial membrane. Regulation of ion flow involves conformational transitions in VDAC, but the nature of these changes has not been resolved to date. By combining single-molecule force spectroscopy with nuclear magnetic resonance spectroscopy we show that the β barrel of human VDAC embedded...
Lipids of the Escherichia coli membrane are mainly composed of 70%–80% phosphatidylethanolamine (PE) and 20%–25% phosphatidylglycerol (PG). Biochemical studies indicate that the depletion of PE causes inversion of the N-terminal helix bundle of the lactose permease (LacY), and helix VII becomes extramembranous. Here we study this phenomenon using single-molecule force spectroscopy, which is sensitive...
In response to mechanical stress, membrane proteins progress through sequences of major unfolding barriers, whereas soluble proteins usually must overcome only one major unfolding barrier. To gain insight into these markedly different unfolding behaviors, we applied force-probe molecular dynamics simulations and unfolded two β-barrel proteins, the transmembrane outer membrane protein G (OmpG) and...
Rhodopsin, the photoreceptor pigment of the retina, initiates vision upon photon capture by its covalently linked chromophore 11-cis-retinal. In the absence of light, the chromophore serves as an inverse agonist locking the receptor in the inactive dark state. In the absence of chromophore, the apoprotein opsin shows low-level constitutive activity. Toward revealing insight into receptor properties...
How transmembrane β-barrel proteins insert and fold into membranes and by which factors they destabilize, unfold, and misfold represents a field of intense studies. Here, we use single-molecule force spectroscopy to characterize the un- and refolding of the ferric hydroxamate uptake receptor (FhuA), which is one of the largest β-barrel proteins of the outer membrane of Escherichia coli. Applied to...
G protein-coupled receptors (GPCRs) are a class of versatile proteins that transduce signals across membranes. Extracellular stimuli induce inter- and intramolecular interactions that change the functional state of GPCRs and activate intracellular messenger molecules. How these interactions are established and how they modulate the functional state of GPCRs remain to be understood. We used dynamic...
In Klebsiella pneumoniae the transmembrane β-barrel forming outer membrane protein KpOmpA mediates adhesion to a wide range of immune effector cells, thereby promoting respiratory tract and urinary infections. As major transmembrane protein OmpA stabilizes Gram-negative bacteria by anchoring their outer membrane to the peptidoglycan layer. Adhesion, osmotic pressure, hydrodynamic flow, and structural...
Mitochondrial ADP/ATP carriers are inhibited by two natural compounds, atractyloside (ATR) or carboxy-atractyloside (CATR), which differ by one carboxylate group. The interactions of the inhibitors with the carrier were investigated by single-molecule force spectroscopy. Transmembrane α helices of the ATR-inhibited carrier displayed heterogeneous mechanical and kinetic properties. Whereas α helix...
In haloarchaea, sensory rhodopsin II (SRII) mediates a photophobic response to avoid photo-oxidative damage in bright light. Upon light activation the receptor undergoes a conformational change that activates a tightly bound transducer molecule (HtrII), which in turn by a chain of homologous reactions transmits the signal to the chemotactic eubacterial two-component system. Here, using single-molecule...
Single-molecule atomic force microscopy and spectroscopy were applied to detect molecular interactions stabilizing the structure of halorhodopsin (HR), a light-driven chloride pump from Halobacterium salinarum. Because of the high structural and sequence similarities between HR and bacteriorhodopsin, we compared their unfolding pathways and polypeptide regions that established structurally stable...
The folding and stability of transmembrane proteins is a fundamental and unsolved biological problem. Here, single bacteriorhodopsin molecules were mechanically unfolded from native purple membranes using atomic force microscopy and force spectroscopy. The energy landscape of individual transmembrane α helices and polypeptide loops was mapped by monitoring the pulling speed dependence of the unfolding...
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