Abstract

Heterotypic polyubiquitins are an emerging class of polyubiquitins that have attracted interest because of their potential diversity of structures and physiological functions. There is an increasing demand for structure-defined synthesis of heterotypic chains to investigate the topological factors underlying the intracellular signals that are characteristically mediated by the heterotypic chain. However, the applicability of chemical and enzymatic polyubiquitin synthesis developed to date has been limited by laborious rounds of ligation and purification or by a lack of modularity of the chain structure with respect to the length and the branch position. Here, we established a one-pot, photocontrolled synthesis of structurally defined heterotypic polyubiquitin chains. We designed ubiquitin derivatives with a photolabile protecting group at a lysine residue used for polymerization. Repetitive cycles of linkage-specific enzymatic elongation and photoinduced deprotection of the protected ubiquitin units enabled stepwise addition of ubiquitins with appropriate functionalities to control the length and branching positions. The positional control of branching was achieved without isolation of intermediates, allowing one-pot synthesis of K63 triubiqutin chains and a K63/K48 heterotypic tetraubiquitin chain with defined branching positions. The present study provides a chemical platform for the efficient construction of long polyubiquitin chains with defined branch structures that will facilitate the understanding of the essential relationships between functions and structures of the heterotypic chain that have hitherto been overlooked.

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