AI Article Synopsis
- Pantoea ananatis, a unique bacterial plant pathogen, lacks common secretion systems but can still cause significant damage in onion tissues through a specific metabolite synthesis gene cluster.
- Onions and related plants produce thiosulfinates, such as allicin, as a defense mechanism against pathogens, but the interactions between these compounds and bacterial pathogens haven't been well studied until now.
- The research reveals that the genetic makeup of P. ananatis includes a cluster of "alt" genes that help it tolerate the antimicrobial effects of allicin, highlighting a complex dynamic of pathogen attacks and plant defense mechanisms in their interactions.
Article Abstract
Unlike most characterized bacterial plant pathogens, the broad-host-range plant pathogen Pantoea ananatis lacks both the virulence-associated type III and type II secretion systems. In the absence of these typical pathogenicity factors, P. ananatis induces necrotic symptoms and extensive cell death in onion tissue dependent on the HiVir proposed secondary metabolite synthesis gene cluster. Onion (Allium. cepa L), garlic (A. sativum L.), and other members of the Allium genus produce volatile antimicrobial thiosulfinates upon cellular damage. However, the roles of endogenous thiosulfinate production in host-bacterial pathogen interactions have not been described. We found a strong correlation between the genetic requirements for P. ananatis to colonize necrotized onion tissue and its capacity for tolerance to the thiosulfinate "allicin" based on the presence of an eleven-gene, plasmid-borne, virulence cluster of sulfur redox genes. We have designated them "alt" genes for allicin tolerance. We show that allicin and onion thiosulfinates restrict bacterial growth with similar kinetics. The alt gene cluster is sufficient to confer allicin tolerance and protects the glutathione pool during allicin treatment. Independent alt genes make partial phenotypic contributions indicating that they function as a collective cohort to manage thiol stress. Our work implicates endogenous onion thiosulfinates produced during cellular damage as major mediators of interactions with bacteria. The P. ananatis-onion pathosystem can be modeled as a chemical arms race of pathogen attack, host chemical counterattack, and pathogen defense.
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| http://dx.doi.org/10.1016/j.cub.2020.05.092 | DOI Listing |
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