LAUSR

Trichothecium roseum is an economically and agriculturally important fungal pathogen that causes postharvest pink rot on a variety of fruits and vegetables. In addition, it is a biocontrol agent against insects and phytopathogens. However, few genome-sequence resources of T. roseum are publicly available, and this has likely limited progress in understanding genes involved in pathogenicity and other processes in the fungus. In the current study, we used Illumina and PacBio DNA sequencing technologies to generate a chromosome-scale genome sequence assembly of a T. roseum strain (ZM-Tr2021) isolated from colonies of the wheat powdery mildew, Blumeria graminis f. sp. tritici, in China. In total, 26.06 Gb polymerase reads for raw data and 25.86 Gb subreads were obtained. These reads were processed into a 33.80 Mb genome assembly containing 19 contigs, resulting in nine superscaffolds that likely correspond to nearly full-length chromosomes, with an N50 of 4.31 Mb and scaffold lengths ranging from 2.02 Mb to 6.06 Mb. Combining the data of transcriptome and genome, we predicted 8695 protein-coding genes, of which 8488 genes were annotated with known functions. To the best of our knowledge, this is the first chromosome-scale genome of a Trichothecium species. The assembled genome sequence will facilitate studies of comparative genomics, genome evolution, pathogenicity and parasitism of T. roseum and, thereby, provide insights into control of crop diseases caused by the fungus and its use as a biocontrol agent.