Genomic sequence resource of Kabatiella zeae, the causative pathogen of corn eyespot disease

Kabatiella zeae is the causative pathogen of corn eyespot disease, which is an important leaf disease that damages the corn (Zea mays L.) worldwide. In this study, we provided an annotated draft of the assembled genome of the K.zeae field strain KZ1 through PacBio and Illumina sequencing. The assembled KZ1 genome size is 23,602,820 bp, and its GC content is 50.71%. The completeness of the assembled genome is 97.6% in this study. The assembly obtained in this study has 94 contigs and the length of N50 is 720,243 bp. This study is the first report of the K. zeae genome, which contributes to further research on the genetic variation and pathogenic mechanism of this important fungal pathogen.

Methods for Screening Wheat Genotypes for Resistance to Sharp Eyespot in the Field and Greenhouse

Screening methodology of wheat genotypes for resistance to sharp eyespot (caused by Rhizoctonia cerealis) was developed. Disease severity differed among cultivars and between field and greenhouse trials. However, the cultivars Bobtail and Rosalyn had consistently lower severity in field experiments with high sharp eyespot disease pressure. Artificial inoculation was crucial to achieving adequate disease levels for effective screening but planting date had very little effect. Greenhouse inoculation of adult wheat plants was much less successful in categorizing resistance to sharp eyespot. Seedling inoculations in the greenhouse were highly inadequate as a screening method. Selection for resistance to sharp eyespot by artificial inoculation in field trials is feasible in wheat breeding programs.

Draft Genome Sequencing of the Pathogenic Fungus Cladosporium phlei ATCC 36193 Identifies Candidates of Novel Polyketide Synthase Genes Involved in Perylenequinone-Group Pigment Production

Cladosporium phlei, which causes purple eyespot disease, has been focused on as a source of phleichrome from the perylenequinone group of pigments. Although this agent is important in photodynamic therapy, there are no genome sequences for the species. Here, we sequenced the genome of C. phlei and reported the draft sequence. The total length of the draft genome was approximately 31.8 Mb, and 9571 genes were predicted. Phylogenetic analysis showed that Cladosporium sphaerospermum, Rachicladosporium sp., and Rachicladosporium antarcticum were closely related, and this result corresponded to the taxonomic data. In addition to the draft genome sequence, we report four candidates of new polyketide synthase (PKS) genes, involved in the production of perylenequinone-group pigments.