Publikationen - Molekulare Signalverarbeitung

Auxin is a pivotal plant hormone that controls many aspects of plant growth and development. Perceived by a small family of F-box proteins including transport inhibitor response 1 (TIR1), auxin regulates gene expression by promoting SCF ubiquitin-ligase-catalysed degradation of the Aux/IAA transcription repressors, but how the TIR1 F-box protein senses and becomes activated by auxin remains unclear. Here we present the crystal structures of the Arabidopsis TIR1–ASK1 complex, free and in complexes with three different auxin compounds and an Aux/IAA substrate peptide. These structures show that the leucine-rich repeat domain of TIR1 contains an unexpected inositol hexakisphosphate co-factor and recognizes auxin and the Aux/IAA polypeptide substrate through a single surface pocket. Anchored to the base of the TIR1 pocket, auxin binds to a partially promiscuous site, which can also accommodate various auxin analogues. Docked on top of auxin, the Aux/IAA substrate peptide occupies the rest of the TIR1 pocket and completely encloses the hormone-binding site. By filling in a hydrophobic cavity at the protein interface, auxin enhances the TIR1–substrate interactions by acting as a ‘molecular glue’. Our results establish the first structural model of a plant hormone receptor.

Viroids are small single-stranded circular RNAs able to infect plants. Chrysanthemum chlorotic mottle was one of the first viroid diseases reported, but identification and characterization of the causing RNA was delayed by its low accumulation in vivo. Chrysanthemum chlorotic mottle viroid (CChMVd) (398-401 nt) adopts a branched conformation instead of the rod-like secondary structure characteristic of most viroids. The natural sequence variability and the effects of artificial mutants support that the branched conformation is physiologically relevant and additionally stabilized by a kissing-loop interaction critical for RNA in vitro folding and in vivo viability. CChMVd shares structural similarities with peach latent mosaic viroid, with which forms the genus Pelamoviroid within the family Avsunviroidae. CChMVd adopts hammerhead structures that catalyze self-cleavage of the oligomeric strands of both polarities resulting from replication through a symmetric rolling-circle mechanism. The two CChMVd hammerheads display peculiarities: the plus has an extra A close to the central conserved core, and the minus an unsually long helix II. There are non-symptomatic strains (CChMVd-NS) that protect against challenge inoculation with severe strains (CChMVd-S). Introduction by site-directed mutagenesis of one of the CChMVd-NS specific mutations (UUUC?GAAA) is sufficient to change the symptomatic phenotype into non-symptomatic without altering the viroid titer. This pathogenicity determinant maps at a tetraloop of the CChMVd branched conformation. Co-inoculations with typical CChMVd-S and -NS variants showed that the infected plants remain symptomless only when the latter was in more than a 100-fold excess, indicating the higher fitness of the S variant. RNA silencing could mediate the observed cross-protection.

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