Phages carry orphan antitoxin-like enzymes to neutralize the DarTG1 toxin-antitoxin defense system.

The astounding number of anti-phage defenses encoded by bacteria is countered by an elaborate set of phage counter-defenses, though their evolutionary origins are often unknown. Here, we report the discovery of an orphan antitoxin counter-defense element in T4-like phages that can overcome the bacterial toxin-antitoxin phage defense system, DarTG1. The DarT1 toxin, an ADP-ribosyltransferase, modifies phage DNA to prevent replication while its cognate antitoxin, DarG1, is a NADAR superfamily ADP-ribosylglycohydrolase that reverses these modifications in uninfected bacteria.

Phages carry orphan antitoxin-like enzymes to neutralize the DarTG1 toxin-antitoxin defense system.

The astounding number of anti-phage defenses encoded by bacteria is countered by an elaborate set of phage counter-defenses, though their evolutionary origins are often unknown. Here, we discover an orphan antitoxin counter-defense element in T4-like phages that can overcome the bacterial toxin-antitoxin phage defense system, DarTG1. The DarT1 toxin, an ADP-ribosyltransferase, modifies phage DNA to prevent replication while its cognate antitoxin, DarG1, is an ADP-ribosylglycohydrolase that reverses these modifications in uninfected bacteria.