Haplotype-phased and chromosome-level genome assembly ofPuccinia polysora, a giga-scale fungal pathogen causing southern corn rust

Abstract: Rust fungi are characterized by large genomes with high repeat content, and have two haploid nuclei in most life stages, which makes achieving high-quality genome assemblies challenging. Here, we describe a pipeline using HiFi reads and Hi-C data to assemble a gigabase-sized fungal pathogen, Puccinia polysora f.sp. zeae, to haplotype-phased and chromosome-scale. The final assembled genome is 1.71 Gbp, with ~850 Mbp and 18 chromosomes in each haplotype, being currently the largest fungal genome assembled to chr… Show more

“…Indeed, the large size and the high repeat content of some rust fungal genomes has precluded their sequencing and assembly ( Carvalho et al, 2014 ; Loehrer et al, 2014 ). Only recently, sequencing and assembly of larger rust genomes (of hundreds of Megabases to over a Gigabase) was made possible by including high amounts of long molecule sequencing, for instance by using the PacBio HiFi technology ( Wu et al, 2020 ; Tobias et al, 2021 ; Henningsen et al, 2022 ; Liang et al, 2022 ). Notably, the recent genome analysis of three isolates of the Asian soybean rust fungus Phakopsora pachyrhizi revealed extremely high (>90%) content of transposable elements and a drastic expansion of gene families related to amino acid metabolism ( Gupta et al, 2022 ).…”

A decade after the first Pucciniales genomes: A bibliometric snapshot of (post) genomics studies in three model rust fungi

“…Indeed, the large size and the high repeat content of some rust fungal genomes has precluded their sequencing and assembly ( Carvalho et al, 2014 ; Loehrer et al, 2014 ). Only recently, sequencing and assembly of larger rust genomes (of hundreds of Megabases to over a Gigabase) was made possible by including high amounts of long molecule sequencing, for instance by using the PacBio HiFi technology ( Wu et al, 2020 ; Tobias et al, 2021 ; Henningsen et al, 2022 ; Liang et al, 2022 ). Notably, the recent genome analysis of three isolates of the Asian soybean rust fungus Phakopsora pachyrhizi revealed extremely high (>90%) content of transposable elements and a drastic expansion of gene families related to amino acid metabolism ( Gupta et al, 2022 ).…”

A decade after the first Pucciniales genomes: A bibliometric snapshot of (post) genomics studies in three model rust fungi

Global Landscape of Rust Epidemics by Puccinia Species: Current and Future Perspectives

Gapless Genome Assembly of Puccinia triticina Provides Insights into Chromosome Evolution in Pucciniales