All DACs in a Row: Domain Architectures of Bacterial and Archaeal Diadenylate Cyclases

Cyclic dimeric AMP (c-di-AMP) is a widespread second messenger that controls such key functions as osmotic homeostasis, peptidoglycan biosynthesis, and response to various stresses. C-di-AMP is synthesized by diadenylate cyclases that contain the DAC (DisA_N) domain, which was originally characterized as the N-terminal domain in the DNA integrity scanning protein DisA. In other experimentally studied diadenylate cyclases, DAC domain is typically located at the protein C termini and its enzymatic activity is controlled by one or more N-terminal domains. As in other bacterial signal transduction proteins, these N-terminal modules appear to sense environmental or intracellular signals through ligand binding and/or protein-protein interactions. Studies of bacterial and archaeal diadenylate cyclases also revealed numerous sequences with uncharacterized N-terminal regions. This work provides a comprehensive review of the N-terminal domains of bacterial and archaeal diadenylate cyclases, including the description of five previously undefined domains and three PK_C-related domains of the DacZ_N superfamily. These data are used to classify diadenylate cyclases into 22 families, based on their conserved domain architectures and the phylogeny of their DAC domains. Although the nature of the regulatory signals remains obscure, the association of certain dac genes with anti-phage defense CBASS systems and other phage-resistance genes suggests that c-di-AMP might also be involved in the signaling of phage infection. Cyclic dimeric AMP (c-di-AMP) is a widespread second messenger that controls such key functions as osmotic homeostasis, peptidoglycan biosynthesis, and response to various stresses. C-di-AMP is synthesized by diadenylate cyclases that contain the DAC (DisA_N) domain, which was originally characterized as the N-terminal domain in the DNA integrity scanning protein DisA. In other experimentally studied diadenylate cyclases, DAC domain is typically located at the protein C termini and its enzymatic activity is controlled by one or more N-terminal domains.