A. Bromberg scite author profile

5-['2sl]Iodonaphthyl I-azide is shown to be a useful reagent for the determination of the extent of penetration of proteins into the lipid bilayer of biological membranes. The label can readily be made highly radioactive and stored [or reasonable times or repurified and then used. In the dark it has a high partition coefficient into membrane lipids. It has a high extinction coefficient for the light-mediated conversion of the azide into the reactive nitrene. It can be activated by short periods of light at wavelengths which membrane proteins arid lipids do not absorb so that their radiation damage is minimal. The light-generated nitrene inserts covalently with very high efficiencies into the membrane components. With different membrane preparations, 20 to 55% of the added label inserts into the membrane proteins and lipids. It appears to irisert from within the lipid bilayer mainly into intrinsic

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Allosteric Modulation of Acetylcholinesterase Activity by Peripheral Ligands Involves a Conformational Transition of the Anionic Subsite

Barak¹,

Ordentlich²,

Bromberg³

et al. 1995

Biochemistry

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Replacement of residues Asp74, Trp286, and Tyr72, which are constituents of the peripheral anionic site (PAS) of human acetylcholinesterase (HuAChE), affected similarly both the binding and the inhibition constants of the PAS-specific ligand propidium, demonstrating that changes in the inhibitory activity are a direct consequence of altered binding to the PAS. In contrast, the active center HuAChE mutants W86A and Y133A show respective 350- and 25-fold increased resistance to inhibition by propidium but no change in binding affinities, demonstrating that the allosteric mechanism of PAS-mediated inhibition involves a conformational change of these Trp86 and Tyr133 residues rather than physical obstruction of substrate access by the inhibitor itself. These findings support the recent proposal that the allosteric mechanism operates via transition between active and nonactive conformations of the anionic subsite Trp86 and that replacement of Tyr133 by alanine may stabilize a nonactive Trp86 conformation that occludes the active center [Ordentlich et al. (1995) J. Biol. Chem. 270, 2082]. In further support of this mechanism and the role of Tyr133, we find that (a) the dissociation constants (Kd) for the noncovalent complexes of the irreversible inhibitors diisopropyl phosphorofluoridate or paraoxon with Y133A HuAChE are increased 20-500-fold, relative to either wild-type enzyme or its Y133F or W86A mutants; and (b) access of substrates such as 3,3-dimethylbutyl thioacetate is restored by removal of Trp86 from the Y133A enzyme (i.e., the W86A/Y133A mutant). We suggest that the conformational transition of Trp86 is coupled to the motions of the cysteine loop (Cys69-Cys96) of HuAChE and is inherent to the dynamics of the native enzyme.

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Acetylcholinesterase peripheral anionic site degeneracy conferred by amino acid arrays sharing a common core.

Barak

Kronman

Ordentlich

et al. 1994

Journal of Biological Chemistry

179

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Photophysics and photochemistry of arylmethyl radicals in liquids

Bromberg¹,

Schmidt²,

Meisel³

1985

J. Am. Chem. Soc.

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Homogeneous Immunoassay for Detection of TNT and Its Analogues on a Microfabricated Capillary Electrophoresis Chip

2003

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A homogeneous immunoassay for TNT and its analogues is developed using a microfabricated capillary electrophoresis chip. The assay is based on the rapid electrophoretic separation of an equilibrated mixture of an anti-TNT antibody, fluorescein-labeled TNT, and unlabeled TNT or its analogue. The band intensities of the free fluorescein-labeled TNT and of the antibody-antigen complex reveal the relative equilibrated concentrations. Titration of the anti-TNT antibody with a fluorescein-labeled TNT derivative yields a binding constant of (3.9 +/- 1.3) x 10(9) M(-1). The dissociation rate constant of the complex is determined by kinetic capillary electrophoresis using a folded channel and a rotary scanner to interrogate the separation at multiple time points. The dissociation rate constant is found to be 0.035 +/- 0.005 s(-1), and the resulting binding rate constant is (1.4 +/- 0.7) x 10(7) M(-1) s(-1). Binding constants of TNT and five of its analogues are determined by competitive assays: TNT (4.3 +/- 2.6) x 10(8) M(-1); 1,3,5-trinitrobenzene (5.1 +/- 3.3) x 10(7) M(-1); picric acid (7.5 +/- 4.4) x 10(6) M(-1); 2,4-dinitrotoluene (7.9 +/- 4.0) x 10(6) M(-1); 1,3-dinitrobenzene (1.0 +/- 0.7) x 10(6) M(-1); and 2,4-dinitrophenol (5.1 +/- 3.0) x 10(4) M(-1). TNT and its analogues can be assayed with high sensitivity (LOD 1 ng/mL) and with a wide dynamic range (1-300 ng/mL) using this chip-based method.

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A. Bromberg

5-[¹²⁵I]Iodonaphthyl azide, a reagent to determine the penetration of proteins into the lipid bilayer of biological membranes

Allosteric Modulation of Acetylcholinesterase Activity by Peripheral Ligands Involves a Conformational Transition of the Anionic Subsite

Acetylcholinesterase peripheral anionic site degeneracy conferred by amino acid arrays sharing a common core.

Photophysics and photochemistry of arylmethyl radicals in liquids

Homogeneous Immunoassay for Detection of TNT and Its Analogues on a Microfabricated Capillary Electrophoresis Chip

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A. Bromberg

5-[125I]Iodonaphthyl azide, a reagent to determine the penetration of proteins into the lipid bilayer of biological membranes

Allosteric Modulation of Acetylcholinesterase Activity by Peripheral Ligands Involves a Conformational Transition of the Anionic Subsite

Acetylcholinesterase peripheral anionic site degeneracy conferred by amino acid arrays sharing a common core.

Photophysics and photochemistry of arylmethyl radicals in liquids

Homogeneous Immunoassay for Detection of TNT and Its Analogues on a Microfabricated Capillary Electrophoresis Chip

Contact Info

Product

Resources

About

5-[¹²⁵I]Iodonaphthyl azide, a reagent to determine the penetration of proteins into the lipid bilayer of biological membranes