Abstract
Many protein-protein interactions are mediated by domain-motif interaction, where a domain in one protein binds a short linear motif in its interacting partner. Such interactions are often involved in key cellular processes, necessitating their tight regulation. A common strategy of the cell to control protein function and interaction is by post-translational modifications of specific residues, especially phosphorylation. Indeed, there are motifs, such as SH2-binding motifs, in which motif phosphorylation is required for the domain-motif interaction. On the contrary, there are other examples where motif phosphorylation prevents the domain-motif interaction. Here we present a large-scale integrative analysis of experimental human data of domain-motif interactions and phosphorylation events, demonstrating an intriguing coupling between the two. We report such coupling for SH3, PDZ, SH2 and WW domains, where residue phosphorylation within or next to the motif is implied to be associated with switching on or off domain binding. For domains that require motif phosphorylation for binding, such as SH2 domains, we found coupled phosphorylation events other than the ones required for domain binding. Furthermore, we show that phosphorylation might function as a double switch, concurrently enabling interaction of the motif with one domain and disabling interaction with another domain. Evolutionary analysis shows that co-evolution of the motif and the proximal residues capable of phosphorylation predominates over other evolutionary scenarios, in which the motif appeared before the potentially phosphorylated residue, or vice versa. Our findings provide strengthening evidence for coupled interaction-regulation units, defined by a domain-binding motif and a phosphorylated residue.
Highlights
The modus operandi of cellular machinery is fundamentally dependent on the intricate network of physical associations between proteins
Domain-motif interactions are instrumental for many central cellular processes, and are tightly regulated
Evidence for coupling between motifs and phosphorylation events We chose human as the organism for our study, due to the wealth of phosphorylation and domain-motif interaction experimental data
Summary
The modus operandi of cellular machinery is fundamentally dependent on the intricate network of physical associations between proteins. A prominent type of domain-mediated protein-protein interaction is domain-motif interaction, commonly achieved by a domain in one protein and a short linear motif in the interacting partner [1] These interactions, frequently of transient nature, play a major role in cellular processes, such as signal transduction and protein targeting to cellular compartments [2]. Motifs are short protein regions (typically 3–10 residues) that frequently match a specific sequence pattern [4] This pattern confines two or three positions that are essential for the interaction with the corresponding domain, while other positions are less restricted. PDZ domains may bind different motifs at the C-termini of their interacting partners, such as class I (x[S/T]xY-COOH), class II (xYxY-COOH) or class III (x[E/D]xY-COOH) motifs, where x is any residue and Y is a hydrophobic residue [5] All these characteristics of domainmotif interactions may hint at a network of promiscuous associations. The motif’s sequence pattern serves as a scaffold for the interaction, while contextual spatial and temporal information contributes to interaction specificity [4]
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