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Hexadecylammonium Chloride (hexadecylammonium + chloride)

Distribution by Scientific Domains
Life Sciences100%

Selected Abstracts

Synaptic vesicle proteins under conditions of rest and activation: Analysis by 2-D difference gel electrophoresis

ELECTROPHORESIS, Issue 17 2006
Jacqueline Burré
Abstract Synaptic vesicles are organelles of the nerve terminal that secrete neurotransmitters by fusion with the presynaptic plasma membrane. Vesicle fusion is tightly controlled by depolarization of the plasma membrane and a set of proteins that may undergo post-translational modifications such as phosphorylation. In order to identify proteins that undergo modifications as a result of synaptic activation, we induced massive exocytosis and analysed the synaptic vesicle compartment by benzyldimethyl- n -hexadecylammonium chloride (BAC)/SDS-PAGE and difference gel electrophoresis (DIGE) followed by MALDI-TOF-MS. We identified eight proteins that revealed significant changes in abundance following nerve terminal depolarization. Of these, six were increased and two were decreased in abundance. Three of these proteins were phosphorylated as detected by Western blot analysis. In addition, we identified an unknown synaptic vesicle protein whose abundance increased on synaptic activation. Our results demonstrate that depolarization of the presynaptic compartment induces changes in the abundance of synaptic vesicle proteins and post-translational protein modification. [source]

A new multiphasic buffer system for benzyldimethyl- n -hexadecylammonium chloride polyacrylamide gel electrophoresis of proteins providing efficient stacking

ELECTROPHORESIS, Issue 2 2006
Michael L. Kramer Dr.
Abstract Acidic PAGE systems using cationic detergents such as benzyldimethyl- n -hexadecylammonium chloride (16-BAC) or CTAB have proven useful for the detection of methoxy esters sensitive to alkaline pH, resolving basic proteins such as histones and membrane proteins. However, the interesting phosphate-based system suffered from poor stacking, resulting in broadened bands and long running times. Therefore, a new 16-BAC PAGE system based on the theory of moving boundary electrophoresis with properties comparable to the classical SDS-PAGE system was designed. As a result a new multiphasic analytical 16-BAC PAGE system providing efficient stacking and significantly shorter running times is presented here. It is based on acetic acid and methoxyacetic acid as common ion constituents. This PAGE system takes advantage of the additional counterstacking effect due to a cross boundary electrophoresis system resulting from the selected buffer constituents. Furthermore, the concentration of 16-BAC was optimized by determining its previously unknown CMC. Due to efficient focusing of the introduced tracking dye, methyl green, termination of electrophoresis can now be more easily followed as compared to the Schlieren line. [source]

Immunoisolation of two synaptic vesicle pools from synaptosomes: a proteomics analysis

JOURNAL OF NEUROCHEMISTRY, Issue 6 2005
Marco Morciano
Abstract The nerve terminal proteome governs neurotransmitter release as well as the structural and functional dynamics of the presynaptic compartment. In order to further define specific presynaptic subproteomes we used subcellular fractionation and a monoclonal antibody against the synaptic vesicle protein SV2 for immunoaffinity purification of two major synaptosome-derived synaptic vesicle-containing fractions: one sedimenting at lower and one sedimenting at higher sucrose density. The less dense fraction contains free synaptic vesicles, the denser fraction synaptic vesicles as well as components of the presynaptic membrane compartment. These immunoisolated fractions were analyzed using the cationic benzyldimethyl- n -hexadecylammonium chloride (BAC) polyacrylamide gel system in the first and sodium dodecyl sulfate,polyacrylamide gel electrophoresis in the second dimension. Protein spots were subjected to analysis by matrix-assisted laser desorption ionization time of flight mass spectrometry (MALDI TOF MS). We identified 72 proteins in the free vesicle fraction and 81 proteins in the plasma membrane-containing denser fraction. Synaptic vesicles contain a considerably larger number of protein constituents than previously anticipated. The plasma membrane-containing fraction contains synaptic vesicle proteins, components of the presynaptic fusion and retrieval machinery and numerous other proteins potentially involved in regulating the functional and structural dynamics of the nerve terminal. [source]

Two-dimensional electrophoresis with cationic detergents, a powerful tool for the proteomic analysis of myelin proteins.

JOURNAL OF NEUROSCIENCE RESEARCH, Issue 4 2008
Part 1: Technical aspects of electrophoresis
Abstract The analysis of proteins in damaged myelin is crucial to clarify the mechanisms of dysmyelination and demyelination. In the present study, proteomic analysis of myelin using a modified two-dimensional electrophoresis (2-DE) method was carried out to obtain a better understanding of myelin biology. Although standard 2-DE (immobilized pH gradient isoelectric focusing/sodium dodecyl sulfate-polyacrylamide gel electrophoresis; IPG/SDS-PAGE) methods of analysis provide high resolutions of soluble proteins with isoelectric focusing points in the pH range of 4,8, major myelin components include highly basic proteins are compacted at the basic edge of the 2-DE gels and are not sufficiently separated for satisfactory analysis. In an attempt to improve the separation of these proteins, an alternative 2-DE method using the cationic detergents was applied. In part 1 of this study, we describe technical aspects of conditioning 2-DE using cationic detergent. In the accompanying paper (part 2), practical 2-DE analysis using cationic detergents is described to identify proteins in the purified CNS myelin fraction. We carried out benzyldimethyl- n -hexadecylammonium chloride (16-BAC)/SDS-PAGE 2-DE and tested 2-DE with four other cationic detergents. We found that 16-BAC was the most effective agent for separation of myelin proteins and that hexadecyltrimethylammonium bromide (cetyltrimethylammonium bromide; CTAB) was the most effective agent for solubilization of myelin proteins. The combination of 16-BAC/SDS-PAGE and CTAB/SDS-PAGE is a powerful tool for the analysis of myelin proteins, including highly basic, high-MW (MW > 100K), and integral membrane proteins. © 2007 Wiley-Liss, Inc. [source]