Christine Q Morales scite author profile

AvrRxv is a member of a family of pathogen effectors present in pathogens of both plant and mammalian species. Xanthomonas campestris pv. vesicatoria strains carrying AvrRxv induce a hypersensitive response (HR) in the tomato cultivar Hawaii 7998. Using a yeast two-hybrid screen, we identified a 14-3-3 protein from tomato that interacts with AvrRxv called AvrRxv Interactor 1 (ARI1). The interaction was confirmed in vitro with affinity chromatography. Using mutagenesis, we identified a 14-3-3-binding domain in AvrRxv and demonstrated that a mutant in that domain showed concomitant loss of interaction with ARI1 and HR-inducing activity in tomato. These results demonstrate that the AvrRxv bacterial effector recruits 14-3-3 proteins for its function within host cells. AvrRxv homologues YopP and YopJ from Yersinia do not have AvrRxv-specific HR-inducing activity when delivered into tomato host cells by Agrobacterium. Although YopP itself cannot induce HR, its C-terminal domain containing the catalytic residues can replace that of AvrRxv in an AvrRxv-YopP chimera for HR-inducing activity. Phylogenetic analysis indicates that the sequences encoding the C-termini of family members are evolving independently from those encoding the N-termini. Our results support a model in which there are three functional domains in proteins of the family, translocation, interaction, and catalytic.

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Functional Analysis of the Early Chlorosis Factor Gene

Morales

Posada²,

Macneale³

et al. 2005

MPMI

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Chlorosis is one of the symptoms of bacterial spot disease caused by Xanthomonas campestris pv. vesicatoria, which induces chlorosis before any other symptoms appear on tomato. We report characterization of a 2.1-kb gene called early chlorosis factor (ecf). The gene ecf encodes a hydrophobic protein with similarity to four other proteins in plant pathogens, including HolPsyAE, and uncharacterized gene products from X. campestris pv. campestris and X. axonopodis pv. citri, and, at the tertiary structure level, to colicin Ia from Escherichia coli. We demonstrate that the associated phenotype is hrp dependent, and that the ecf gene product appears to be translocated to host cells. The gene ecf has no impact on electrolyte leakage or on bacterial growth in planta in response to infection. Concentrated culture filtrates do not produce chlorosis. Study of its role in Xanthomonas spp.-tomato interactions will forward our understanding of symptom production by plant pathogens and allows further investigation into the mechanisms of bacterial virulence and production of symptoms.

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Christine Q Morales

Identification of a host 14-3-3 protein that interacts with Xanthomonas effector AvrRxv

Functional Analysis of the Early Chlorosis Factor Gene

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