The Role of the Detergent Micelle in Preserving the Structure of Membrane Proteins in the Gas Phase

Lipid composition in cellular membranes plays an important role in maintaining the structural integrity of cells and in regulating cellular signaling that controls functions of both membrane-anchored and cytoplasmic proteins. ATP-dependent ABC and P4-ATPase lipid transporters, two integral membrane proteins, are known to contribute to lipid translocation across the lipid bilayers on the cellular membranes. In this review, we will highlight current knowledge about the role of cholesterol and phospholipids of cellular membranes in regulating cell signaling and how lipid transporters participate this process.

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The role of radiolysis in the modelling of C2H4O2 isomers and dimethyl ether in cold dark clouds

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/staa3458 ◽

2020 ◽

Vol 500 (3) ◽

pp. 3414-3424

Author(s):

Alec Paulive ◽

Christopher N Shingledecker ◽

Eric Herbst

Keyword(s):

Gas Phase ◽

Dimethyl Ether ◽

Recent Observation ◽

Cosmic Ray ◽

Thermal Method ◽

Dark Clouds ◽

Ice Surface ◽

Dust Grain ◽

Complex Organic

ABSTRACT Complex organic molecules (COMs) have been detected in a variety of interstellar sources. The abundances of these COMs in warming sources can be explained by syntheses linked to increasing temperatures and densities, allowing quasi-thermal chemical reactions to occur rapidly enough to produce observable amounts of COMs, both in the gas phase, and upon dust grain ice mantles. The COMs produced on grains then become gaseous as the temperature increases sufficiently to allow their thermal desorption. The recent observation of gaseous COMs in cold sources has not been fully explained by these gas-phase and dust grain production routes. Radiolysis chemistry is a possible non-thermal method of producing COMs in cold dark clouds. This new method greatly increases the modelled abundance of selected COMs upon the ice surface and within the ice mantle due to excitation and ionization events from cosmic ray bombardment. We examine the effect of radiolysis on three C2H4O2 isomers – methyl formate (HCOOCH3), glycolaldehyde (HCOCH2OH), and acetic acid (CH3COOH) – and a chemically similar molecule, dimethyl ether (CH3OCH3), in cold dark clouds. We then compare our modelled gaseous abundances with observed abundances in TMC-1, L1689B, and B1-b.

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MexAB-OprM Efflux Pump Interaction with the Peptidoglycan of Escherichia coli and Pseudomonas aeruginosa

International Journal of Molecular Sciences ◽

10.3390/ijms22105328 ◽

2021 ◽

Vol 22 (10) ◽

pp. 5328

Author(s):

Miao Ma ◽

Margaux Lustig ◽

Michèle Salem ◽

Dominique Mengin-Lecreulx ◽

Gilles Phan ◽

...

Keyword(s):

Escherichia Coli ◽

Pseudomonas Aeruginosa ◽

Cell Division ◽

Membrane Proteins ◽

Outer Membrane ◽

Efflux Pump ◽

Gram Negative Bacteria ◽

Gram Negative ◽

Active Efflux

One of the major families of membrane proteins found in prokaryote genome corresponds to the transporters. Among them, the resistance-nodulation-cell division (RND) transporters are highly studied, as being responsible for one of the most problematic mechanisms used by bacteria to resist to antibiotics, i.e., the active efflux of drugs. In Gram-negative bacteria, these proteins are inserted in the inner membrane and form a tripartite assembly with an outer membrane factor and a periplasmic linker in order to cross the two membranes to expulse molecules outside of the cell. A lot of information has been collected to understand the functional mechanism of these pumps, especially with AcrAB-TolC from Escherichia coli, but one missing piece from all the suggested models is the role of peptidoglycan in the assembly. Here, by pull-down experiments with purified peptidoglycans, we precise the MexAB-OprM interaction with the peptidoglycan from Escherichia coli and Pseudomonas aeruginosa, highlighting a role of the peptidoglycan in stabilizing the MexA-OprM complex and also differences between the two Gram-negative bacteria peptidoglycans.

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ChemInform Abstract: ROLE OF .SIGMA±PI. CONJUGATION IN THE GAS PHASE: ELECTROPHILIC CLEAVAGE REACTIONS OF BENZYLTIN COMPOUNDS BY ISOBUTANE CHEMICAL IONIZATION MASS SPECTROMETRY

Chemischer Informationsdienst ◽

10.1002/chin.197919068 ◽

1979 ◽

Vol 10 (19) ◽

Author(s):

R. H. FISH ◽

R. L. HOLMSTEAD ◽

M. GIELEN ◽

B. DE POORTER

Keyword(s):

Mass Spectrometry ◽

Gas Phase ◽

Chemical Ionization ◽

Ionization Mass Spectrometry ◽

Chemical Ionization Mass Spectrometry ◽

Ionization Mass ◽

Cleavage Reactions ◽

Pi Conjugation

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Role of Phosphatidylethanolamine in the Biogenesis of Mitochondrial Outer Membrane Proteins

Journal of Biological Chemistry ◽

10.1074/jbc.m112.442392 ◽

2013 ◽

Vol 288 (23) ◽

pp. 16451-16459 ◽

Cited By ~ 29

Author(s):

Thomas Becker ◽

Susanne E. Horvath ◽

Lena Böttinger ◽

Natalia Gebert ◽

Günther Daum ◽

...

Keyword(s):

Membrane Proteins ◽

Outer Membrane ◽

Outer Membrane Proteins ◽

Proper Function ◽

Mitochondrial Outer Membrane ◽

Tom Complex ◽

Precursor Proteins ◽

Helical Proteins ◽

The Stability

The mitochondrial outer membrane contains proteinaceous machineries for the import and assembly of proteins, including TOM (translocase of the outer membrane) and SAM (sorting and assembly machinery). It has been shown that the dimeric phospholipid cardiolipin is required for the stability of TOM and SAM complexes and thus for the efficient import and assembly of β-barrel proteins and some α-helical proteins of the outer membrane. Here, we report that mitochondria deficient in phosphatidylethanolamine (PE), the second non-bilayer-forming phospholipid, are impaired in the biogenesis of β-barrel proteins, but not of α-helical outer membrane proteins. The stability of TOM and SAM complexes is not disturbed by the lack of PE. By dissecting the import steps of β-barrel proteins, we show that an early import stage involving translocation through the TOM complex is affected. In PE-depleted mitochondria, the TOM complex binds precursor proteins with reduced efficiency. We conclude that PE is required for the proper function of the TOM complex.

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