Abstract
Interactions between proteins are a hallmark of all cellular activities. Such interactions often occur with low affinity, a feature that allows them to be rapidly reversible, but it makes them difficult to detect using conventional methods such as yeast 2-hybrid analyses, co-immunoprecipitation or analytical ultracentrifugation. We developed a simple and economical bead aggregation assay to study low-affinity interactions between proteins. By coating beads with interacting proteins, the weak interactions between many proteins are sufficient to allow stable aggregation of beads, an avidity effect. The aggregation is easily measured to allow quantification of protein-protein interactions under a variety of controlled conditions. We use this assay to demonstrate low-affinity interactions between the N-terminal domains of an intracellular Ca2+ channel, the type 1 inositol 1,4,5-trisphosphate receptor. This simple bead aggregation assay may have widespread application in the study of low-affinity interactions between macromolecules.
Highlights
Interactions between protein domains, whether within or between proteins, are universal features of cellular physiology [1,2,3,4,5]
We first tested the ability of such a bead aggregation assay to report interactions between molecules by immobilizing complementary anti-parallel DNA on two different populations of beads (Figure 1B)
Beads coated with either biotindsDNA-F or biotin-dsDNA-F9, where DNA can only weakly selfdimerize, did not aggregate
Summary
Interactions between protein domains, whether within or between proteins, are universal features of cellular physiology [1,2,3,4,5]. We developed an economical and rapid bead aggregation assay to study low-affinity interactions between proteins. We first tested the ability of such a bead aggregation assay to report interactions between molecules by immobilizing complementary anti-parallel DNA on two different populations of beads (Figure 1B).
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