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  • A Luminescence-Based Coupled Enzyme Assay Enables High-Throughput Quantification of the Bacterial Second Messenger 3'3'-Cyclic-Di-AMP.

A Luminescence-Based Coupled Enzyme Assay Enables High-Throughput Quantification of the Bacterial Second Messenger 3'3'-Cyclic-Di-AMP.

Chembiochem : a European journal of chemical biology (2020-11-04)
Shivam A Zaver, Alex J Pollock, Vishant M Boradia, Joshua J Woodward
ABSTRACT

Cyclic dinucleotide signaling systems, which are found ubiquitously throughout nature, allow organisms to rapidly and dynamically sense and respond to alterations in their environments. In recent years, the second messenger, cyclic di-(3',5')-adenosine monophosphate (c-di-AMP), has been identified as an essential signaling molecule in a diverse array of bacterial genera. We and others have shown that defects in c-di-AMP homeostasis result in severe physiological defects and virulence attenuation in many bacterial species. Despite significant advancements in the field, there is still a major gap in the understanding of the environmental and cellular factors that influence c-di-AMP dynamics due to a lack of tools to sensitively and rapidly monitor changes in c-di-AMP levels. To address this limitation, we describe here the development of a luciferase-based coupled enzyme assay that leverages the cyclic nucleotide phosphodiesterase, CnpB, for the sensitive and high-throughput quantification of 3'3'-c-di-AMP. We also demonstrate the utility of this approach for the quantification of the cyclic oligonucleotide-based anti-phage signaling system (CBASS) effector, 3'3'-cGAMP. These findings establish CDA-Luc as a more affordable and sensitive alternative to conventional c-di-AMP detection tools with broad utility for the study of bacterial cyclic dinucleotide physiology.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Myokinase from rabbit muscle, ammonium sulfate suspension, 1,500-3,000 units/mg protein (biuret)
Sigma-Aldrich
Sodium hexametaphosphate, 65-70% P2O5 basis