Early diverging fungus <i>Mucor circinelloides</i> lacks centromeric histone CENP-A and displays a mosaic of point and regional centromeres

Navarro-Mendoza, María Isabel; Pérez-Arques, Carlos; Panchal, Shweta; Nicolás, Francisco E.; Mondo, Stephen J.; Ganguly, Promit; Pangilinan, Jasmyn; Grigoriev, Igor V.; Heitman, Joseph; Sanyal, Kaustuv

doi:10.1101/706580

Cited by 13 publications

(32 citation statements)

References 76 publications

(73 reference statements)

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“…Chromatin immunoprecipitation sequencing (ChIP-seq) of M. circinelloides showed that it has a unique "mosaic" centromere structure in Mucoromycotina, with characteristics from point centromeres (seen in Saccharomyces cerevisiae) and regional centromeres (seen in C. albicans, Candida tropicalis, Magnaporthe oryzae, Schizosaccharomyces pombe, and C. neoformans) (Navarro-Mendoza et al, 2019).…”

Section: Genome Architecture and Structurementioning

confidence: 99%

Understanding Mucormycoses in the Age of “omics”

2020

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Mucormycoses are deadly invasive infections caused by several fungal species belonging to the subphylum Mucoromycotina, order Mucorales. Hallmarks of disease progression include angioinvasion and tissue necrosis that aid in fungal dissemination through the blood stream, causing deeper infections and resulting in poor penetration of antifungal agents to the site of infection. In the absence of surgical removal of the infected focus, antifungal therapy alone is rarely curative. Even when surgical debridement is combined with high-dose antifungal therapy, the mortality associated with mucormycoses is >50%. The unacceptably high mortality rate, limited options for therapy and the extreme morbidity of highly disfiguring surgical therapy provide a clear mandate to understand the molecular mechanisms that govern pathogenesis with the hopes of developing alternative strategies to treat and prevent mucormycoses. In the absence of robust forward and reverse genetic systems available for this taxonomic group of fungi, unbiased next generation sequence (NGS)-based approaches have provided much needed insights into our understanding of many aspects of Mucormycoses, including genome structure, drug resistance, diagnostic development, and fungus-host interactions. Here, we will discuss the specific contributions that NGSbased approaches have made to the field and discuss open questions that can be addressed using similar approaches.

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Section: Genome Architecture and Structurementioning

confidence: 99%

Understanding Mucormycoses in the Age of “omics”

2020

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“…In addition to the highly divergent N-terminal tail, certain changes in the HFD region are declared to be CenH3-specific, so they discriminate CenH3 variants from the canonical H3 and set bioinformatic criteria for identifying putative CenH3 in silico [ 14 ]. Although there have been evidenced species that lack CenH3 [ 6 , 15 , 16 ], CenH3 proteins still represent the most reliable markers of active centromeres. Nevertheless, great interspecies CenH3 varieties, corroborated by extremely divergent underlying DNA sequences, provoke the question of the centromere paradox where the function of the centromere is evolutionarily preserved while its DNA and protein constituents evolve rapidly [ 17 ].…”

Section: Introductionmentioning

confidence: 99%

CenH3 distribution reveals extended centromeres in the model beetle Tribolium castaneum

et al. 2020

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Centromeres are chromosomal domains essential for kinetochore assembly and correct chromosome segregation. Inconsistent in their underlying DNA sequences, centromeres are defined epigenetically by the presence of the centromere-specific histone H3 variant CenH3. Most of the analyzed eukaryotes have monocentric chromosomes in which CenH3 proteins deposit into a single, primary constriction visible at metaphase chromosomes. Contrary to monocentrics, evolutionary sporadic holocentric chromosomes lack a primary constriction and have kinetochore activity distributed along the entire chromosome length. In this work, we identified cCENH3 protein, the centromeric H3 histone of the coleopteran model beetle Tribolium castaneum . By ChIP-seq analysis we disclosed that cCENH3 chromatin assembles upon a repertoire of repetitive DNAs. cCENH3 in situ mapping revealed unusually elongated T . castaneum centromeres that comprise approximately 40% of the chromosome length. Being the longest insect regional centromeres evidenced so far, T . castaneum centromeres are characterized by metapolycentric structure composed of several individual cCENH3-containing domains. We suggest that the model beetle T . castaneum with its metapolycentromeres could represent an excellent model for further studies of non-canonical centromeres in insects.

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“…Finally, our studies of kinetochore composition of CenH3deficient holocentric lepidopteran species, together with the recent finding of a CenH3-deficient monocentric fungus [28,43] that encodes for other CCAN components, including CENP-T, show that CCAN-based CenH3-independent kinetochore assemblies are considerably widespread in diverse eukaryotes.…”

Section: Discussionmentioning

confidence: 59%

“…Unexpected to its conserved and essential function, CenH3 has been lost in a few select lineages. These include the kinetoplastids [26,27], which have evolved an entirely different kinetochore complex, and an early-diverging fungus with mosaic centromeres characteristic of both regional and point centromeres [28]. In identified the homolog of the a subunit of the ATP synthase (bellwether, GSSPFG00010096001), found previously to localize to kinetochores during Drosophila melanogaster male meiosis [32], indicating that this function might be extended to lepidopteran mitosis.…”

Section: Introductionmentioning

confidence: 93%