Colletotrichum fungi belonging to the Colletotrichum gloeosporioides species complex include a number of economically important postharvest pathogens that often cause anthracnose. Until now, different species within this group could only be distinguished from one another reliably using multigenic phylogenetic analyses. Using a comparative genomics approach, we developed a marker that can differentiate Colletotrichum fructicola, Colletotrichum aenigma and Colletotrichum siamense within the C. gloeosporioides species complex based on PCR amplicon size differences. When we used this marker to classify 115 isolates collected over 20 years from strawberries in Chiba Prefecture, Japan, the isolates were predominantly C. fructicola. To our knowledge, this is the first report characterizing different species of Colletotrichum infecting strawberries in Japan and contributes to our understanding on the diversity of anthracnose pathogens in Japan.

•Studies of effectors reveal key components and their function in plant immunity.•Pathogen effectors reopen the stomata for successful penetration.•Pathogens deceive the host detection system by deploying apoplastic effectors.•Pathogen effectors attenuate SA-dependent immunity to promote their fitness.•Cell type-specific responses in the host during infection are highlighted.Pathogen-secreted effector proteins enable pathogens to manipulate plant immunity for successful infection. To penetrate host apoplastic space, pathogens reopen the stomata. Once the invasion into the apoplast occurs, pathogens deceive the host detection system by deploying apoplastic effectors. Pathogens also deliver an arsenal of cytosolic effectors into the host cells, which undermine host immunity such as salicylic acid (SA)-dependent immunity. Here we summarize recent findings that highlight the functions of the effectors from fungal, oomycete and bacterial pathogens in the key steps of infection at the stomata, in the apoplast, and inside the cell. We also discuss cell type-specific responses in the host during infection and the necessity of further investigation of plant–pathogen interactions at spatial and temporal resolution.