AI Article Synopsis
- The study explores how the internal movement of molecules affects interactions in antigen-antibody reactions, a key aspect in molecular biology.
- It uses a simplified mechanical model based on single-molecule experiments to demonstrate that these internal dynamics play a vital role in how molecules encounter each other.
- The research also includes an analysis of how double binding to multi-valent antigens increases the strength of interactions, aligning well with existing experimental findings.
Article Abstract
The effects of internal dynamics in diffusion-driven encounters between macro-molecules represent a problem of broad relevance in molecular biology. In this view, we investigate a typical antigen-antibody reaction chain, based on a coarse-grained mechanical model parameterized directly upon results from single-molecule experiments. We demonstrate that the internal dynamics is a crucial factor in the encounter process. To describe our numerical results, we formulate a simple, intuitive theoretical framework, and we develop it analytically. This enables us to show that the inner dynamics of antibody molecules results in a cooperative behavior of their individual sub-units. Along the same lines, we also investigate the case of double binding to multi-valent antigens. Our results quantify the enhancement of avidity afforded by the double binding in excellent agreement with the available experimental data.
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| http://dx.doi.org/10.1088/1478-3975/4/3/004 | DOI Listing |
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