Epigenetic dynamics of centromeres and neocentromeres in Cryptococcus deuterogattii.

Deletion of native centromeres in the human fungal pathogen Cryptococcus deuterogattii leads to neocentromere formation. Native centromeres span truncated transposable elements, while neocentromeres do not and instead span actively expressed genes. To explore the epigenetic organization of neocentromeres, we analyzed the distribution of the heterochromatic histone modification H3K9me2, 5mC DNA methylation and the euchromatin mark H3K4me2.

Affects the Virulence of the Fungal Plant Pathogen .

In host-pathogen interactions RNA interference (RNAi) has emerged as a pivotal mechanism to modify both, the immune responses of the host as well as the pathogenicity and virulence of the pathogen. In addition, in some fungi RNAi is also known to affect chromosome biology via its effect on chromatin conformation. Previous studies reported no effect of the RNAi machinery on the virulence of the fungal plant pathogen however the role of RNAi is still poorly understood in this species.

The insertion of a mitochondrial selfish element into the nuclear genome and its consequences.

Homing endonucleases (HE) are enzymes capable of cutting DNA at highly specific target sequences, the repair of the generated double-strand break resulting in the insertion of the HE-encoding gene ("homing" mechanism). HEs are present in all three domains of life and viruses; in eukaryotes, they are mostly found in the genomes of mitochondria and chloroplasts, as well as nuclear ribosomal RNAs. We here report the case of a HE that accidentally integrated into a telomeric region of the nuclear genome of the fungal maize pathogen .

Genome compartmentalization predates species divergence in the plant pathogen genus Zymoseptoria.

Background: Antagonistic co-evolution can drive rapid adaptation in pathogens and shape genome architecture. Comparative genome analyses of several fungal pathogens revealed highly variable genomes, for many species characterized by specific repeat-rich genome compartments with exceptionally high sequence variability. Dynamic genome structure may enable fast adaptation to host genetics.

Centromere deletion in leads to neocentromere formation and chromosome fusions.

The human fungal pathogen is RNAi-deficient and lacks active transposons in its genome. has regional centromeres that contain only transposon relics. To investigate the impact of centromere loss on the genome, either centromere 9 or 10 was deleted.