Cooperative Binding at Lipid Bilayer Membrane Surfaces
- 21 March 2003
- journal article
- research article
- Published by American Chemical Society (ACS) in Journal of the American Chemical Society
- Vol. 125 (15), 4593-4599
- https://doi.org/10.1021/ja021048a
Abstract
The binding of copper(II) ions to membrane-bound synthetic receptors has been investigated. Complexation fitted a 4:1 receptor:copper(II) model, and the observed binding constants are significantly enhanced at the membrane relative to solution; these effects can be explained by the lower polarity of the membrane−water interface and the concentrating effect of the membrane, with no observed contribution from receptor preorganization. The stoichiometry of the complex formed is very sensitive to the concentration of the receptor in the membrane, and at low concentrations, binding is reduced relative to solution controls. This implies that by increasing or decreasing the number of receptors in their membranes, cells can finely tune biological responses such as chemotaxis that depend on the size of the receptor−ligand clusters formed.Keywords
This publication has 22 references indexed in Scilit:
- Chemical Reaction between Colliding VesiclesAngewandte Chemie International Edition, 2001
- Tuning chemotactic responses with synthetic multivalent ligandsChemistry & Biology, 2000
- Hydraphile Channels: Structural and Fluorescent Probes of Position and Function in a Phospholipid BilayerJournal of the American Chemical Society, 1999
- Chemotactic Responses of Escherichia coli to Small Jumps of Photoreleased l-AspartateBiophysical Journal, 1999
- Polyvalent Interactions in Biological Systems: Implications for Design and Use of Multivalent Ligands and InhibitorsAngewandte Chemie International Edition, 1998
- Receptor clustering as a cellular mechanism to control sensitivityNature, 1998
- Fluorescent Chemosensor for Organic Guests and Copper(II) Ion Based on Dansyldiethylenetriamine-Modified β-CyclodextrinThe Journal of Organic Chemistry, 1997
- Imitation of Escherichia coli Aspartate Receptor Signaling in Engineered Dimers of the Cytoplasmic DomainScience, 1996
- The Fc Segment of IgE Influences the Kinetics of Dissociation of a Symmetrical Bivalent Ligand from Cyclic Dimeric ComplexesBiochemistry, 1996
- The Range of Attractant Concentrations for Bacterial Chemotaxis and the Threshold and Size of Response over This RangeThe Journal of general physiology, 1973