Second-derivative fluorescence spectroscopy in the study of membrane protein conformational changes

1984 ◽  
Vol 12 (3) ◽  
pp. 482-483 ◽  
Author(s):  
JOHN J. BIRMINGHAM ◽  
JAMES J. A. HEFFRON
Keyword(s):  
Membrane Protein ◽  
Fluorescence Spectroscopy ◽  
Conformational Changes ◽  
Second Derivative ◽  
Protein Conformational Changes

Mechanisms underlying drug-mediated regulation of membrane protein function

2021 ◽  
Vol 118 (46) ◽  
pp. e2113229118
Author(s):  
Radda Rusinova ◽  
Changhao He ◽  
Olaf S. Andersen
Keyword(s):  
Membrane Proteins ◽  
Membrane Protein ◽  
Lipid Bilayer ◽  
Conformational Changes ◽  
Protein Function ◽  
Nonspecific Binding ◽  
Drug Induced ◽  
Protein Conformational Changes ◽  
Potassium Channel Kcsa ◽  
Membrane Protein Function

The hydrophobic coupling between membrane proteins and their host lipid bilayer provides a mechanism by which bilayer-modifying drugs may alter protein function. Drug regulation of membrane protein function thus may be mediated by both direct interactions with the protein and drug-induced alterations of bilayer properties, in which the latter will alter the energetics of protein conformational changes. To tease apart these mechanisms, we examine how the prototypical, proton-gated bacterial potassium channel KcsA is regulated by bilayer-modifying drugs using a fluorescence-based approach to quantify changes in both KcsA function and lipid bilayer properties (using gramicidin channels as probes). All tested drugs inhibited KcsA activity, and the changes in the different gating steps varied with bilayer thickness, suggesting a coupling to the bilayer. Examining the correlations between changes in KcsA gating steps and bilayer properties reveals that drug-induced regulation of membrane protein function indeed involves bilayer-mediated mechanisms. Both direct, either specific or nonspecific, binding and bilayer-mediated mechanisms therefore are likely to be important whenever there is overlap between the concentration ranges at which a drug alters membrane protein function and bilayer properties. Because changes in bilayer properties will impact many diverse membrane proteins, they may cause indiscriminate changes in protein function.

scholarly journals Protein conformational changes and myelin solubilization by anion-detergent solutions

FEBS Letters ◽  
1992 ◽  
Vol 309 (3) ◽  
pp. 376-380 ◽  
Author(s):  
Jaime Monreal ◽  
Pedro Carmona ◽  
Pilar Regueiro ◽  
Ricardo S. Diaz
Keyword(s):  
Conformational Changes ◽  
Protein Conformational Changes ◽  
Detergent Solutions

scholarly journals Correlation of membrane protein conformational and functional dynamics

2021 ◽  
Vol 12 (1) ◽  
Author(s):  
Raghavendar Reddy Sanganna Gari ◽  
Joel José Montalvo‐Acosta ◽  
George R. Heath ◽  
Yining Jiang ◽  
Xiaolong Gao ◽  
...  
Keyword(s):  
Membrane Protein ◽  
Conformational Changes ◽  
Single Channel ◽  
Conformational Dynamics ◽  
Md Simulations ◽  
High Temporal Resolution ◽  
Dependent Manner ◽  
Functional Dynamics ◽  
Ph Dependent ◽  
Open States

AbstractConformational changes in ion channels lead to gating of an ion-conductive pore. Ion flux has been measured with high temporal resolution by single-channel electrophysiology for decades. However, correlation between functional and conformational dynamics remained difficult, lacking experimental techniques to monitor sub-millisecond conformational changes. Here, we use the outer membrane protein G (OmpG) as a model system where loop-6 opens and closes the β-barrel pore like a lid in a pH-dependent manner. Functionally, single-channel electrophysiology shows that while closed states are favored at acidic pH and open states are favored at physiological pH, both states coexist and rapidly interchange in all conditions. Using HS-AFM height spectroscopy (HS-AFM-HS), we monitor sub-millisecond loop-6 conformational dynamics, and compare them to the functional dynamics from single-channel recordings, while MD simulations provide atomistic details and energy landscapes of the pH-dependent loop-6 fluctuations. HS-AFM-HS offers new opportunities to analyze conformational dynamics at timescales of domain and loop fluctuations.

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