1. Depth-dependent analysis of membranes using benzophenone-based phospholipids
- Author
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Anil K. Lala, E. Ravi Kumar, and Bino John
- Subjects
Light ,Nitrene ,Lipid Bilayers ,Reactive intermediate ,Normal Distribution ,Biophysics ,Inter-Molecular Crosslinking ,Photoaffinity Labels ,Hydrophobic Core ,Photochemistry ,Biochemistry ,Fluorescence ,Mass Spectrometry ,Depth-Dependent Analysis ,Benzophenones ,chemistry.chemical_compound ,Acid ,Cross-Linking ,Benzophenone ,Reagent ,Organic chemistry ,Reactivity (chemistry) ,Fatty Acyl Chains ,Benzophenone-Based Phospholipids ,Phospholipids ,Molecular Structure ,Chemistry ,Vesicle ,Bilayer ,Organic Chemistry ,Phosphatidylcholine ,Cross-Linking Reagents ,Membrane ,Bilayers ,Gaussian ,Dimyristoylphosphatidylcholine ,Dimerization - Abstract
Any attempt to probe the membrane hydrophobic core with chemical reagents necessitates the use of reactive intermediates like carbenes and nitrenes, which can insert into C-H bonds. Several photoactivable reagents based on carbenes and nitrenes have been reported. However, the high reactivity of these reagents, often leads to very low insertion yields. We report here a high degree of cross-linking (35-40%) achieved with three benzophenone-based phospholipids and analyze the carbon functionalization data using a multiple Gaussian function. These phospholipids are so designed so as to permit depth-dependent labeling in membranes. Single bilayer vesicles were prepared from these phospholipids and dimyristoylphosphatidylcholine. The cross-linked product was isolated and characterized by mass spectroscopy. The results obtained indicated that the cross-linked product was dominated by dimeric product formed by intermolecular cross-linking. The Gaussian analysis used here provides insight into the relative depths of the probes inside the membrane. (C) 2000 .
- Published
- 2000
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