Diaporthe caulivora is an economically important fungal pathogen and a causal agent of soybean stem canker and seed decay. Here, the genome of a Russian Far Eastern isolate of D. caulivora was sequenced, assembled, and announced. Assembly quality was enough for advanced annotation, including prediction of potential disease-related genes encoding virulence factors and molecular determinants contributing to pathogen-host selection, interactions, and adaptation. Comparative analysis of 15 Diaporthe species was conducted regarding general genome properties, collinearity, and proteomes, and included detailed investigation of interspersed repeats. A notable feature of this analysis is a high recombinant variability of Diaporthe genomes, determined by the number and distribution of interspersed repeats, which also proved to be responsible for the diversity of GC content and genome size. This variability is assumed the main determinant of the divergence of Diaporthe genomes. A Bayesian multi-gene phylogeny was inferred for the 15 Diaporthe species on the basis of twenty thousand polymorphic sites of > 100 orthologous genes using independently adjusted evolutionary models. This allowed for the most accurate determination of evolutionary relationships and species boundaries for effective reporting about these plant pathogens. The evidence, obtained by different genome analysis techniques, implies the host-independent evolution of Diaporthe species. KEY POINTS: • The genome of a Far Eastern isolate of D. caulivora was announced. • A high degree of recombinant variability determines genomic divergence in Diaporthe genus. • The multi-gene phylogeny implies host-independent evolution of Diaporthe species.
Keywords: Diaporthe caulivora; Fungal disease; Genome assembly; Phomopsis; Phylogeny; Soybean; Stem canker.
© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.