Identification of Self Through Two-Dimensional Chemistry and Synapses
- 1 November 2001
- journal article
- review article
- Published by Annual Reviews in Annual Review of Cell and Developmental Biology
- Vol. 17 (1) , 133-157
- https://doi.org/10.1146/annurev.cellbio.17.1.133
Abstract
▪ Abstract Cells in the immune and nervous systems communicate through informational synapses. The two-dimensional chemistry underlying the process of synapse formation is beginning to be explored using fluorescence imaging and mechanical techniques. Early analysis of two-dimensional kinetic rates (kon and koff) and equilibrium constants (Kd) provides a number of biological insights. First, there are two regimes for adhesion—one disordered with slow kon and the other self-ordered with 104-fold faster kon. Despite huge variation in two-dimensional kon, the two-dimensional koff is like koff in solution, and two-dimensional koff is more closely related to intrinsic properties of the interaction than the two-dimensional kon. Thus difference in koff can be used to set signaling thresholds. Early signaling complexes are compartmentalized to generate synergistic signaling domains. Immune antigen receptor components have a role in neural synapse editing. This suggests significant parallels in informational synaps...Keywords
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