Abstract
Upon recognition of host plants, Colletotrichum orbiculare, an anthracnose disease fungus of cucurbitaceous plants, initiates morphological differentiation, including conidial germination and appressorium formation on the cuticle layer. The series of infection processes of C. orbiculare requires enormous nutrient and energy, but the surface of the cucurbitaceous hosts is hardly nutrient-rich. Hence, C. orbiculare must exert tight management of its intracellular nutrients in order to properly induce infection-related morphogenesis. Here, we carried out a large-scale insertional mutagenesis screen using Agrobacterium tumefaciens-mediated transformation to identify novel genes involved in the pathogenicity of C. orbiculare and found that CoTHR4-encoded threonine synthase, a homolog of Saccharomyces cerevisiae THR4, is required for pathogenicity and conidiation in C. orbiculare. Threonine supplementation allowed the cothr4 mutant to produce conidia to a level equivalent to that of the wild-type. The conidia produced from the threonine-treated cothr4 mutant failed to germinate in the absence of threonine, but retained the ability to germinate and to form appressoria in the presence of threonine. However, the conidia produced from the threonine-treated cothr4 mutant remained attenuated in pathogenicity on cucumber cotyledons even in the presence of threonine. Cytorrhysis assays revealed that appressoria of the cothr4 mutant induced by exogenous threonine treatment showed low turgor generation. Taken together, these results showed that threonine synthase CoThr4 plays a pivotal role in infection-related morphogenesis during the pre-penetration stage of C. orbiculare.
Highlights
A prerequisite for the successful infection of host plants by phytopathogenic fungi is control of the elaborate infection-related morphogenesis
We identified 18 candidates as pathogenicity and conidiation-related genes and dissected the role of threonine synthase CoTHR4:mCherry-introduced transformant (CoTHR4) in the life cycle of C. orbiculare, ranging from conidial development to appressorium development followed by infection peg formation and invasive growth
We presented the first evidence that threonine synthesized by threonine synthase and threonine itself are important for the efficient conidiation and induction of infection-related morphogenesis in C. orbiculare and for its pathogenicity
Summary
A prerequisite for the successful infection of host plants by phytopathogenic fungi is control of the elaborate infection-related morphogenesis. Colletotrichum orbiculare, which causes severe anthracnose disease symptoms on cucurbitaceous plants, undergoes dynamic morphogenesis for the establishment of infection. Functional analysis of C. orbiculare mutants defective in infection-related morphogenesis has uncovered two representative signal transduction pathways respectively mediated by mitogen-activated protein kinase (MAPK) and cAMP-dependent protein kinase (PKA) [3]. These pathways are widely conserved in eukaryotes and play a pleiotropic role in intracellular events. The cAMP-PKA signaling pathway is essential for conidial germination in C. orbiculare [5]. The infection-related morphogenesis regulated by these pathways is common to M. oryzae, Botrytis cinerea, Fusarium graminearum, and Ustilago maydis, which cause devastating diseases of cultivated crops [6,7,8,9,10]
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