Kinetics and thermodynamics of binding reactions as exemplified by anthrax toxin channel blockage with a cationic cyclodextrin derivative

Nestorovich, Ekaterina M.; Karginov, Vladimir A.; Berezhkovskii, Alexander M.; Parsegian, V. Adrian; Bezrukov, Sergey M.

doi:10.1073/pnas.1208771109

Cited by 20 publications

(12 citation statements)

References 26 publications

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“…It is worth mentioning here that the slopes of the temperature dependences allow only for evaluation of an “effective” height of the barrier. Indeed, the approach assumes a temperature-independent ΔG 27 while there are at least two factors suggesting that the actual situation is more complex. The first one is the temperature-induced change of the membrane mechanical parameters, such as thickness and bending rigidity, 28 the phenomenon that is presumably quite general and applies to both single-phase and two-phase bilayers.…”

Section: Resultsmentioning

confidence: 99%

Lipid nanodomains change ion channel function

2017

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Signaling proteins and neurotransmitter receptors often associate with saturated chain and cholesterol-rich domains of cell membranes, also known as lipid rafts. The saturated chains and high cholesterol environment in lipid rafts can modulate protein function, but evidence for such modulation of ion channel function in lipid rafts is lacking. Here, using raft-forming model membrane systems containing cholesterol, we show that lipid lateral phase separation at the nanoscale level directly affects the dissociation kinetics of the gramicidin dimer, a model ion channel.

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Section: Resultsmentioning

confidence: 99%

Lipid nanodomains change ion channel function

2017

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“…Our method might also be coupled with high-throughput single-channel recording methods (62)(63)(64)(65). Finally, it is possible to estimate the entropic and enthalpic contributions to the change in free energy upon binding by measuring the temperature dependence of the equilibrium dissociation constant according to the van't Hoff equation (66)(67)(68).…”

Section: Discussionmentioning

confidence: 99%

Stochastic detection of Pim protein kinases reveals electrostatically enhanced association of a peptide substrate

Harrington

Cheley

Alexander

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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In stochastic sensing, the association and dissociation of analyte molecules is observed as the modulation of an ionic current flowing through a single engineered protein pore, enabling the label-free determination of rate and equilibrium constants with respect to a specific binding site. We engineered sensors based on the staphylococcal α-hemolysin pore to allow the single-molecule detection and characterization of protein kinase-peptide interactions. We enhanced this approach by using site-specific proteolysis to generate pores bearing a single peptide sensor element attached by an N-terminal peptide bond to the trans mouth of the pore. Kinetics and affinities for the Pim protein kinases (Pim-1, Pim-2, and Pim-3) and cAMP-dependent protein kinase were measured and found to be independent of membrane potential and in good agreement with previously reported data. Kinase binding exhibited a distinct current noise behavior that forms a basis for analyte discrimination. Finally, we observed unusually high association rate constants for the interaction of Pim kinases with their consensus substrate Pimtide (∼10 7 to 10 8 M -1 ·s -1 ), the result of electrostatic enhancement, and propose a cellular role for this phenomenon.

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“…Thermal fluctuations of proteins are in general important for biological activity (55); thus the temperature changes in this work may modulate the protein flexibility, and folding and orientation of substructures within the membrane can be affected or accessibility to the sugar binding residues. Finally the interaction forces between ligands and proteins (hydrogen bonding and Coulomb and van der Waal forces) are temperature-dependent (56). At 10°C, which is below the transition point of the membrane lipids, SGLT1 is probably constrained in its structural movements and trapped in non-transporting conformational states.…”

Section: Discussionmentioning

confidence: 99%

Forces and Dynamics of Glucose and Inhibitor Binding to Sodium Glucose Co-transporter SGLT1 Studied by Single Molecule Force Spectroscopy

Neundlinger

Puntheeranurak

Wildling

et al. 2014

Journal of Biological Chemistry

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Background: SGLT1 functions in intestinal glucose absorption and renal reabsorption. Results: With increasing temperature, width of energy barrier and average life time increased for glucose binding to SGLT1 but decreased for phlorizin binding. Conclusion: Sugar translocation and inhibitor binding involves several steps with different temperature sensitivity. Significance: Force spectroscopy can be used to study dynamics and structure of membrane transporter.

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Kinetics and thermodynamics of binding reactions as exemplified by anthrax toxin channel blockage with a cationic cyclodextrin derivative

Cited by 20 publications

References 26 publications

Lipid nanodomains change ion channel function

Lipid nanodomains change ion channel function

Stochastic detection of Pim protein kinases reveals electrostatically enhanced association of a peptide substrate

Forces and Dynamics of Glucose and Inhibitor Binding to Sodium Glucose Co-transporter SGLT1 Studied by Single Molecule Force Spectroscopy

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