A clubroot pathogen PBS3-like effector manipulates hormonal crosstalk to alter root morphology during colonization
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Abstract
SUMMARY Salicylic acid (SA) and auxin are key regulators of plant immunity and development. The clubroot pathogen Plasmodiophora brassicae encodes Pb GH 3 , an effector related to the GH 3 family involved in phytohormone homeostasis. Although Pb GH 3 was proposed to conjugate auxin i n vitro , its biological function in planta has remained unclear. This study aimed to determine the in vivo role of Pb GH 3 during host colonization. We generated Arabidopsis thaliana and Brassica napus lines overexpressing Pb GH 3 and characterized their developmental phenotypes, hormone profiles, gene expression, and susceptibility to infection. Structural modeling was performed to assess Pb GH 3 similarity to plant GH 3 proteins, and functional complementation was tested using the Arabidopsis gh3 . 12 mutant. The expression of Pb GH 3 in Arabidopsis induced auxin-related developmental phenotypes without detectable accumulation of auxin conjugates. Instead, Pb GH 3 structurally and functionally resembled GH 3.12 /PBS3 inducing increased conjugated SA levels, reduced jasmonic acid, suppressed PIN 2 expression, and increased root hair number and infection. Pb GH 3 complemented SA-related defects in the gh3 . 12 mutant. Pb GH 3 functions as a modulator of SA metabolism rather than an auxin-conjugating enzyme, likely competing with host GH 3.12 /PBS3 to constrain effective SA accumulation. This reveals a novel strategy by which P. brassicae disrupts SA–auxin homeostasis to promote host colonization and ensure disease development. PLAIN LANGUAGE SUMMARY This study shows that the clubroot pathogen uses a protein called Pb GH 3 to modify the plant’s salicylic acid balance. This alters root traits and increases susceptibility to infection. Arabidopsis and canola plants engineered to produce Pb GH 3 showed similar changes, revealing that the pathogen uses this protein to disrupt hormone regulation and create conditions that support its colonization.
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- europepmc
- last seen: 2026-05-20T01:45:00.602351+00:00
- unpaywall
- last seen: 2026-06-06T02:00:05.402940+00:00