Cyclic GMP-AMP synthase (cGAS) is an innate immune system enzyme responsible for recognition of double-stranded DNA aberrantly localized in the cell cytosol. cGAS binds DNA and is activated to catalyze production of the nucleotide second messenger 2'-5'/3'-5' cyclic GMP-AMP (2'3' cGAMP). In spite of a major role for cGAS in the cellular immune response, a complete understanding of cGAS biology has been limited by a lack of genetic tools to rapidly screen cGAS activity, instability of human cGAS-DNA interactions in vitro, and a previous absence of structural information for the human cGAS-DNA complex. Here we detail procedures to map the molecular determinants of cGAS activation and describe methods developed to prepare human cGAS-DNA crystals for structural analysis. Together with earlier systems established to study mammalian homologs of cGAS, these innovations provide a foundation to understand and therapeutically target human cGAS biology.
Keywords: Biochemistry; DNA sensing; Genetic screening; Innate immunity; Nucleotidyltransferase; STING; X-ray crystallography; cGAS.
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