Natsumi Maruta scite author profile

Cyclic ADP ribose (cADPR) isomers are signaling molecules produced by bacterial and plant Toll/interleukin-1 receptor (TIR) domains via NAD + hydrolysis. We show that v-cADPR (2′cADPR) and v2-cADPR (3′cADPR) isomers are cyclized by O -glycosidic bond formation between the ribose moieties in ADPR. Structures of 2′cADPR-producing TIR domains reveal conformational changes leading to an active assembly that resembles those of Toll-like receptor adaptor TIR domains. Mutagenesis reveals a conserved tryptophan essential for cyclization. We show that 3′cADPR is an activator of ThsA effector proteins from bacterial anti-phage defense systems termed Thoeris, and a suppressor of plant immunity when produced by the effector HopAM1. Collectively, our results reveal the molecular basis of cADPR isomer production and establish 3′cADPR in bacteria as an antiviral and plant immunity-suppressing signaling molecule.

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Saltational evolution of the heterotrimeric G protein signaling mechanisms in the plant kingdom

Urano

Maruta

Trusov

et al. 2016

Sci. Signal.

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Natsumi Maruta

Membrane-Localized Extra-Large G Proteins and Gβγ of the Heterotrimeric G Proteins Form Functional Complexes Engaged in Plant Immunity in Arabidopsis

Cyclic ADP ribose isomers: Production, chemical structures, and immune signaling

Saltational evolution of the heterotrimeric G protein signaling mechanisms in the plant kingdom

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