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W3010626679 endingPage "2342" @default.
W3010626679 startingPage "2331" @default.
W3010626679 abstract "Membrane proteins are responsible for conducting essential biological functions that are necessary for the survival of living organisms. In spite of their physiological importance, limited structural information is currently available as a result of challenges in applying biophysical techniques for studying these protein systems. Electron paramagnetic resonance (EPR) spectroscopy is a very powerful technique to study the structural and dynamic properties of membrane proteins. However, the application of EPR spectroscopy to membrane proteins in a native membrane-bound state is extremely challenging due to the complexity observed in inhomogeneity sample preparation and the dynamic motion of the spin label. Detergent micelles are very popular membrane mimetics for membrane proteins due to their smaller size and homogeneity, providing high-resolution structure analysis by solution NMR spectroscopy. However, it is important to test whether the protein structure in a micelle environment is the same as that of its membrane-bound state. Lipodisq nanoparticles or styrene-maleic acid copolymer-lipid nanoparticles (SMALPs) have been introduced as a potentially good membrane-mimetic system for structural studies of membrane proteins. Recently, we reported on the EPR characterization of the KCNE1 membrane protein having a single transmembrane incorporated into lipodisq nanoparticles. In this work, lipodisq nanoparticles were used as a membrane mimic system for probing the structural and dynamic properties of the more complicated membrane protein system human KCNQ1 voltage sensing domain (Q1-VSD) having four transmembrane helices using site-directed spin-labeling EPR spectroscopy. Characterization of spin-labeled Q1-VSD incorporated into lipodisq nanoparticles was carried out using CW-EPR spectral line shape analysis and pulsed EPR double-electron electron resonance (DEER) measurements. The CW-EPR spectra indicate an increase in spectral line broadening with the addition of the styrene-maleic acid (SMA) polymer which approaches close to the rigid limit providing a homogeneous stabilization of the protein-lipid complex. Similarly, EPR DEER measurements indicated a superior quality of distance measurement with an increase in the phase memory time (Tm) values upon incorporation of the sample into lipodisq nanoparticles when compared to proteoliposomes. These results are consistent with the solution NMR structural studies on the Q1-VSD. This study will be beneficial for researchers working on investigating the structural and dynamic properties of more complicated membrane protein systems using lipodisq nanoparticles." @default.
W3010626679 created "2020-03-13" @default.
W3010626679 creator A5002370620 @default.
W3010626679 creator A5013335597 @default.
W3010626679 creator A5057420306 @default.
W3010626679 creator A5059036898 @default.
W3010626679 creator A5060490393 @default.
W3010626679 creator A5079637101 @default.
W3010626679 creator A5081009879 @default.
W3010626679 creator A5083408557 @default.
W3010626679 date "2020-03-04" @default.
W3010626679 modified "2023-09-26" @default.
W3010626679 title "Characterization of the Human KCNQ1 Voltage Sensing Domain (VSD) in Lipodisq Nanoparticles for Electron Paramagnetic Resonance (EPR) Spectroscopic Studies of Membrane Proteins" @default.
W3010626679 cites W152546406 @default.
W3010626679 cites W1532176344 @default.
W3010626679 cites W1533864205 @default.
W3010626679 cites W1968682237 @default.
W3010626679 cites W1974635026 @default.
W3010626679 cites W1976091359 @default.
W3010626679 cites W1982699178 @default.
W3010626679 cites W1982792952 @default.
W3010626679 cites W1986892064 @default.
W3010626679 cites W1987908892 @default.
W3010626679 cites W1990691888 @default.
W3010626679 cites W1997394451 @default.
W3010626679 cites W1997615129 @default.
W3010626679 cites W1998247886 @default.
W3010626679 cites W1998993899 @default.
W3010626679 cites W1999540891 @default.
W3010626679 cites W1999805574 @default.
W3010626679 cites W2002996832 @default.
W3010626679 cites W2003527958 @default.
W3010626679 cites W2006752983 @default.
W3010626679 cites W2014555296 @default.
W3010626679 cites W2022428567 @default.
W3010626679 cites W2022502227 @default.
W3010626679 cites W2024900979 @default.
W3010626679 cites W2025154858 @default.
W3010626679 cites W2029052421 @default.
W3010626679 cites W2031981850 @default.
W3010626679 cites W2036679816 @default.
W3010626679 cites W2038055861 @default.
W3010626679 cites W2040795711 @default.
W3010626679 cites W2042430364 @default.
W3010626679 cites W2042651221 @default.
W3010626679 cites W2046799089 @default.
W3010626679 cites W2049520220 @default.
W3010626679 cites W2052441015 @default.
W3010626679 cites W2054258599 @default.
W3010626679 cites W2056126751 @default.
W3010626679 cites W2059160047 @default.
W3010626679 cites W2059625238 @default.
W3010626679 cites W2060270800 @default.
W3010626679 cites W2060662124 @default.
W3010626679 cites W2062543415 @default.
W3010626679 cites W2065241264 @default.
W3010626679 cites W2069254546 @default.
W3010626679 cites W2075622425 @default.
W3010626679 cites W2080056514 @default.
W3010626679 cites W2080278060 @default.
W3010626679 cites W2081256532 @default.
W3010626679 cites W2083141006 @default.
W3010626679 cites W2086145743 @default.
W3010626679 cites W2089587226 @default.
W3010626679 cites W2090768061 @default.
W3010626679 cites W2091646550 @default.
W3010626679 cites W2092054802 @default.
W3010626679 cites W2092508662 @default.
W3010626679 cites W2095965692 @default.
W3010626679 cites W2098513990 @default.
W3010626679 cites W2099294275 @default.
W3010626679 cites W2100839599 @default.
W3010626679 cites W2103128020 @default.
W3010626679 cites W2105280782 @default.
W3010626679 cites W2124426317 @default.
W3010626679 cites W2128677332 @default.
W3010626679 cites W2133805329 @default.
W3010626679 cites W2135789970 @default.
W3010626679 cites W2142984118 @default.
W3010626679 cites W2149307089 @default.
W3010626679 cites W2154909249 @default.
W3010626679 cites W2155909615 @default.
W3010626679 cites W2157650357 @default.
W3010626679 cites W2158860565 @default.
W3010626679 cites W2160569176 @default.
W3010626679 cites W2163705348 @default.
W3010626679 cites W2194535754 @default.
W3010626679 cites W2195989424 @default.
W3010626679 cites W2237447374 @default.
W3010626679 cites W2315441895 @default.
W3010626679 cites W2324980923 @default.
W3010626679 cites W2325714442 @default.
W3010626679 cites W2336431892 @default.
W3010626679 cites W2410702452 @default.
W3010626679 cites W2518634075 @default.
W3010626679 cites W2523822655 @default.
W3010626679 cites W2524092786 @default.
W3010626679 cites W2528447563 @default.