Abstract
Scleromitrula shiraiana is a necrotrophic fungus with a narrow host range, and is one of the main causal pathogens of mulberry sclerotial disease. However, its molecular mechanisms and pathogenesis are unclear. Here, we report a 39.0 Mb high-quality genome sequence for S. shiraiana strain SX-001. The S. shiraiana genome contains 11,327 protein-coding genes. The number of genes and genome size of S. shiraiana are similar to most other Ascomycetes. The cross-similarities and differences of S. shiraiana with the closely related Sclerotinia sclerotiorum and Botrytis cinerea indicated that S. shiraiana differentiated earlier from their common ancestor. A comparative genomic analysis showed that S. shiraiana has fewer genes encoding cell wall-degrading enzymes (CWDEs) and effector proteins than that of S. sclerotiorum and B. cinerea, as well as many other Ascomycetes. This is probably a key factor in the weaker aggressiveness of S. shiraiana to other plants. S. shiraiana has many species-specific genes encoding secondary metabolism core enzymes. The diversity of secondary metabolites may be related to the adaptation of these pathogens to specific ecological niches. However, melanin and oxalic acid are conserved metabolites among many Sclerotiniaceae fungi, and may be essential for survival and infection. Our results provide insights into the narrow host range of S. shiraiana and its adaptation to mulberries.
Highlights
Mulberry (Morus spp.) is the feed crop for silkworms (Bombyx mori L.)
We sequenced the genome of S. shiraiana, which is only known to infect mulberry
S. shiraiana is a necrotrophic pathogenic fungus with a restricted host range; it is only found on mulberry
Summary
Mulberry (Morus spp.) is the feed crop for silkworms (Bombyx mori L.). Mulberry fruit has great economic and medicinal value because it is rich in secondary metabolites that are beneficial to human health (Chen et al, 2016, 2017; Choi et al, 2016). Mulberry sclerotial disease is the most serious fungal disease of Morus spp., and it severely reduces fruit yield. Three fungi in the Sclerotiniaceae, Ciboria carunculoides, Ciboria shiraiana, and Scleromitrula shiraiana, cause mulberry sclerotial disease (Whetzel and Wolf, 1945; Hong et al, 2007). S. shiraiana has a similar life cycle to that of C. carunculoides and C. shiraiana, and Genome Sequencing of Scleromitrula shiraiana forms sclerotia in infected drupelets. Ascospores, which are produced by the fruiting bodies that germinate from the sclerotia, are the source of primary infection
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