The Cf-9 Disease Resistance Protein Is Present in an ∼420-Kilodalton Heteromultimeric Membrane-Associated Complex at One Molecule per Complex

AUTOR(ES)

Rivas, Susana

FONTE

American Society of Plant Biologists

RESUMO

The tomato Cf-9 gene confers race-specific resistance to the fungal pathogen Cladosporium fulvum expressing the corresponding avirulence gene Avr9. In tobacco, Cf-9 confers a hypersensitive response to the Avr9 peptide. To investigate Cf-9 protein function in initiating defense signaling, we engineered a functional C-terminal fusion of the Cf-9 gene with the TAP (Tandem Affinity Purification) tag. In addition, we established a transient expression assay in Nicotiana benthamiana leaves for the production of functional Cf-9:myc and Cf-9:TAP. Transiently expressed Cf-9:myc and Cf-9:TAP proteins induced an Avr9-dependent hypersensitive response, consistent with previous results with stably transformed tobacco plants and derived cell suspension cultures expressing c-myc–tagged Cf-9. Gel filtration of microsomal fractions solubilized with octylglucoside revealed that the Cf-9 protein, either as c-myc or TAP fusions, migrated at a molecular mass of 350 to 475 kD. By using blue native gel electrophoresis, the molecular size was confirmed to be ∼420 kD. Our results suggest that only one Cf-9 protein molecule is present in the Cf-9 complex and that Cf-9 is part of a membrane complex consisting of an additional glycoprotein partner(s). The high structural similarity between Cf proteins and Clavata2 (CLV2) of Arabidopsis, together with the similarity of molecular mass between Cf-9 and CLV complexes (420 and 450 kD, respectively), led us to investigate whether Cf-9 is integrated into membrane-associated protein complexes like those formed by CLV1 and CLV2. Unlike CLV2, the Cf-9 protein did not form disulfide-linked heterodimers, no ligand (Avr9)-dependent shift in the molecular mass of the Cf-9 complex was detected, and no Rho-GTPase–related proteins were found associated with Cf-9 under the conditions tested. Thus, Cf-9–dependent defense signaling and CLV2-dependent regulation of meristem development seem to be accomplished via distinct mechanisms, despite the structural similarity of their key components Cf-9 and CLV2.

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