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doi: 10.1101/2023.03.28.534373
abstract: |
Bacteria are found in ongoing conflicts with rivals and predators, which lead to an evolutionary arms race and the development of innate and adaptive immune systems. Although diverse bacterial immunity mechanisms have been recently identified, many remain unknown, and their dissemination within bacterial populations is poorly understood. Here, we describe a widespread genetic element, defined by the Gamma-Mobile-Trio (GMT) proteins, that serves as a mobile bacterial weapons armory. We show that GMT islands have cargo comprising various combinations of secreted antibacterial toxins, anti-phage defense systems, and secreted anti-eukaryotic toxins. This finding led us to identify four new anti-phage defense systems encoded within GMT islands and reveal their active domains and mechanisms of action. We also find the phage protein that triggers the activation of one of these systems. Thus, we can identify novel toxins and defense systems by investigating proteins of unknown function encoded within GMT islands. Our findings imply that the concept of "defense islands" may be broadened to include other types of bacterial innate immunity mechanisms, such as antibacterial and anti-eukaryotic toxins that appear to stockpile with anti-phage defense systems within GMT weapon islands.
Sensor: Unknown
Sensor: Phage-protein sensing
Activator: Unknown
Effector: Unknown
contributors:
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# GAPS1
## Description
The GAPS1 system is composed of a single protein. It was found in Gamma-Mobile-Trio (GMT) protein containing genomic island in *Vibrio*, and cloned into *E. coli* K-12 :ref{doi=10.1101/2023.03.28.534373}. The name GAPS derives from the "GMT-encoded Anti-Phage System" acronym. GAPS1 contains a predicted nuclease domain whose mutation prevents defense activity, however DNA degradation was not detected in targeted phage :ref{doi=10.1101/2023.03.28.534373}. Mutations in the folded capsid protein (Gp10) of phage T7 result in a escape phenotype, with GAPS1 shown to be activated upon Gp10 expression, suggesting actuvation of the system at late stages of the infection cycle :ref{doi=10.1101/2023.03.28.534373}.
The GAPS1 system is composed of a single protein. It was found in Gamma-Mobile-Trio (GMT) protein containing genomic island in *Vibrio*, and cloned into *E. coli* K-12 :ref{doi=10.1101/2023.03.28.534373}. The name GAPS derives from the "GMT-encoded Anti-Phage System" acronym. GAPS1 contains a predicted nuclease domain whose mutation prevents defense activity, however DNA degradation was not detected in targeted phage :ref{doi=10.1101/2023.03.28.534373}. Mutations in the folded capsid protein (Gp10) of phage T7 result in a escape phenotype, with GAPS1 shown to be activated upon Gp10 expression, suggesting activation of the system at late stages of the infection cycle :ref{doi=10.1101/2023.03.28.534373}.
## Molecular mechanisms
The molecular mechanism remains to be fully elucidated.
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