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A general model of multivalent binding with ligands of heterotypic subunits and multiple surface receptors

Zhixin Cyrillus Tan, Aaron S. Meyer

2021Mathematical Biosciences18 citationsDOIOpen Access PDF

Abstract

Multivalent cell surface receptor binding is a ubiquitous biological phenomenon with functional and therapeutic significance. Predicting the amount of ligand binding for a cell remains an important question in computational biology as it can provide great insight into cell-to-cell communication and rational drug design toward specific targets. In this study, we extend a mechanistic, two-step multivalent binding model. This model predicts the behavior of a mixture of different multivalent ligand complexes binding to cells expressing various types of receptors. It accounts for the combinatorially large number of interactions between multiple ligands and receptors, optionally allowing a mixture of complexes with different valencies and complexes that contain heterogeneous ligand units. We derive the macroscopic predictions and demonstrate how this model enables large-scale predictions on mixture binding and the binding space of a ligand. This model thus provides an elegant and computationally efficient framework for analyzing multivalent binding.

Topics & Concepts

Ligand (biochemistry)ReceptorRational designBinding siteChemistryBiophysicsCellComputational biologyBiological systemBiologyNanotechnologyMaterials scienceBiochemistryMonoclonal and Polyclonal Antibodies ResearchReceptor Mechanisms and SignalingClick Chemistry and Applications
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