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. 2022 Nov;236(4):1455-1470.
doi: 10.1111/nph.18315. Epub 2022 Aug 9.

Many ways to TOPLESS - manipulation of plant auxin signalling by a cluster of fungal effectors

Janos Bindics  1 Mamoona Khan  2 Simon Uhse  1 Benjamin Kogelmann  1 Laura Baggely  1 Daniel Reumann  1 Kishor D Ingole  2 Alexandra Stirnberg  1 Anna Rybecky  3 Martin Darino  1 Fernando Navarrete  1 Gunther Doehlemann  3 Armin Djamei  1   2   4
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Free article

Many ways to TOPLESS - manipulation of plant auxin signalling by a cluster of fungal effectors

Janos Bindics et al. New Phytol. 2022 Nov.
Free article

Abstract

Plant biotrophic pathogens employ secreted molecules, called effectors, to suppress the host immune system and redirect the host's metabolism and development in their favour. Putative effectors of the gall-inducing maize pathogenic fungus Ustilago maydis were analysed for their ability to induce auxin signalling in plants. Using genetic, biochemical, cell-biological, and bioinformatic approaches we functionally elucidate a set of five, genetically linked effectors, called Topless (TPL) interacting protein (Tips) effectors that induce auxin signalling. We show that Tips induce auxin signalling by interfering with central corepressors of the TPL family. CRISPR-Cas9 mutants and deletion strain analysis indicate that the auxin signalling inducing subcluster effectors plays a redundant role in virulence. Although none of the Tips seem to have a conserved interaction motif, four of them bind solely to the N-terminal TPL domain and, for Tip1 and Tip4, we demonstrate direct competition with auxin/indole-3-acetic acid transcriptional repressors for their binding to TPL class of corepressors. Our findings reveal that TPL proteins, key regulators of growth-defence antagonism, are a major target of the U. maydis effectome.

Keywords: Ustilago maydis; Topless; auxin; biotrophic interaction; effector; gall; maize; smut fungi.

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References

    1. Altmann M, Altmann S, Rodriguez PA, Weller B, Elorduy Vergara L, Palme J, Marin-de la Rosa N, Sauer M, Wenig M, Villaecija-Aguilar JA et al. 2020. Extensive signal integration by the phytohormone protein network. Nature 583: 271-276.
    1. Basse CW, Steinberg G. 2004. Ustilago maydis, model system for analysis of the molecular basis of fungal pathogenicity. Molecular Plant Pathology 5: 83-92.
    1. Brachmann A, Weinzierl G, Kamper J, Kahmann R. 2001. Identification of genes in the bW/bE regulatory cascade in Ustilago maydis. Molecular Microbiology 42: 1047-1063.
    1. Braun P, Carvunis A-R, Charloteaux B, Dreze M, Ecker JR, Hill DE, Roth FP, Vidal M, Galli M, Balumuri P et al. 2011. Evidence for network evolution in an Arabidopsis interactome map. Science 333: 601-607.
    1. Brefort T, Doehlemann G, Mendoza-Mendoza A, Reissmann S, Djamei A, Kahmann R. 2009. Ustilago maydis as a pathogen. Annual Review of Phytopathology 47: 423-445.

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