Interspecies Genomic Variation and Transcriptional Activeness of Secondary Metabolism-Related Genes in Aspergillus Section Fumigati

Takahashi, Hiroki; Umemura, Maiko; Ninomiya, Akihiro; Kusuya, Yoko; Shimizu, Masaaki; Urayama, Syun-ichi; Watanabe, Akira; Kamei, Katsuhiko; Yaguchi, Takashi; Hagiwara, Daisuke

doi:10.3389/ffunb.2021.656751

Cited by 5 publications

(5 citation statements)

References 77 publications

(103 reference statements)

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“…A major outstanding question emanating from our work is whether this extensive non-coding sequence variation of closely related Aspergillus species that vary in their pathogenicity functionally contributes to differences in gene expression between strains and species. Currently, there are no datasets available that report genome-wide differential expression data for A. fumigatus and close relatives; to our knowledge, the only published differential expression study of A. fumigatus and close relatives focused on expression differences only for genes involved in secondary metabolism (Takahashi et al, 2021). Designing and performing differential gene expression experiments in diverse Aspergillus species will be a future aim.…”

Section: Discussionmentioning

confidence: 99%

“…In fungi, non-coding regions found immediately upstream of genes' protein-coding regions are bound by transcription factors (TFs), impact transcriptional activity (Kim et al, 2019), and play roles in vital biological processes such as zinc homeostasis (Eide, 2020) and thermotolerance (Yamamoto et al, 2008). Differences in gene expression have become an important focus in understanding A. fumigatus virulence (Chung et al, 2014;de Castro et al, 2014;Furukawa et al, 2020;Ries et al, 2020;Takahashi et al, 2021;Colabardini et al, 2022). However, the role non-coding regions play in differential gene regulation between A. fumigatus and close relatives remains largely unknown.…”

Section: Introductionmentioning

confidence: 99%

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Extensive Non-Coding Sequence Divergence Between the Major Human Pathogen Aspergillus fumigatus and its Relatives

Brown

Mead

Steenwyk

et al. 2022

Front. Fungal Biol.

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Invasive aspergillosis is a deadly fungal disease; more than 400,000 patients are infected worldwide each year and the mortality rate can be as high as 50-95%. Of the ~450 species in the genus Aspergillus only a few are known to be clinically relevant, with the major pathogen Aspergillus fumigatus being responsible for ~50% of all invasive mold infections. Genomic comparisons between A. fumigatus and other Aspergillus species have historically focused on protein-coding regions. However, most A. fumigatus genes, including those that modulate its virulence, are also present in other pathogenic and non-pathogenic closely related species. Our hypothesis is that differential gene regulation – mediated through the non-coding regions upstream of genes’ first codon – contributes to A. fumigatus pathogenicity. To begin testing this, we compared non-coding regions upstream of the first codon of single-copy orthologous genes from the two A. fumigatus reference strains Af293 and A1163 and eight closely related Aspergillus section Fumigati species. We found that these non-coding regions showed extensive sequence variation and lack of homology across species. By examining the evolutionary rates of both protein-coding and non-coding regions in a subset of orthologous genes with highly conserved non-coding regions across the phylogeny, we identified 418 genes, including 25 genes known to modulate A. fumigatus virulence, whose non-coding regions exhibit a different rate of evolution in A. fumigatus. Examination of sequence alignments of these non-coding regions revealed numerous instances of insertions, deletions, and other types of mutations of at least a few nucleotides in A. fumigatus compared to its close relatives. These results show that closely related Aspergillus species that vary greatly in their pathogenicity exhibit extensive non-coding sequence variation and identify numerous changes in non-coding regions of A. fumigatus genes known to contribute to virulence.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Extensive Non-Coding Sequence Divergence Between the Major Human Pathogen Aspergillus fumigatus and its Relatives

Brown

Mead

Steenwyk

et al. 2022

Front. Fungal Biol.

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“…In addition, we assembled the mitochondrial genome of strain 29R-4-F02, which has a length of 26,185 bp and contains 13 genes, including 7 NADH–ubiquinone oxidoreductase genes, 3 cytochrome c oxidase genes, 1 cytochrome b gene, 1 ribosomal protein gene, and 1 ATP synthase gene, with a GC content of 23.67%. The size and number of genes in the mitochondrial genome of strain 29R-4-F02 are similar to those of other Aspergillus species, with genome sizes ranging from 27,817 to 77,649 bp and gene numbers ranging from 14 to 21 ( Zhao et al, 2012 ; Takahashi et al, 2021 ; Jing et al, 2022 ).…”

Section: Resultsmentioning

confidence: 55%

Genomic insights into Aspergillus sydowii 29R-4-F02: unraveling adaptive mechanisms in subseafloor coal-bearing sediment environments

Jiang

Liao

et al. 2023

Front. Microbiol.

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IntroductionAspergillussydowii is an important filamentous fungus that inhabits diverse environments. However, investigations on the biology and genetics of A. sydowii in subseafloor sediments remain limited.MethodsHere, we performed de novo sequencing and assembly of the A. sydowii 29R-4-F02 genome, an isolate obtained from approximately 2.4 km deep, 20-million-year-old coal-bearing sediments beneath the seafloor by employing the Nanopore sequencing platform.Results and DiscussionThe generated genome was 37.19 Mb with GC content of 50.05%. The final assembly consisted of 11 contigs with N50 of 4.6 Mb, encoding 12,488 putative genes. Notably, the subseafloor strain 29R-4-F02 showed a higher number of carbohydrate-active enzymes (CAZymes) and distinct genes related to vesicular fusion and autophagy compared to the terrestrial strain CBS593.65. Furthermore, 257 positively selected genes, including those involved in DNA repair and CAZymes were identified in subseafloor strain 29R-4-F02. These findings suggest that A. sydowii possesses a unique genetic repertoire enabling its survival in the extreme subseafloor environments over tens of millions of years.

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“…The annotation of assembled nuclear genomes was performed by the Funannotate pipeline (ver. 1.7.4) ( https://funannotate.readthedocs.io/en/latest/ ) as described previously (Takahashi et al ., 2021 ). Following identification of repeat sequences by RepeatModeler (ver.…”

Section: Methodsmentioning

confidence: 99%

Intimate genetic relationships and fungicide resistance in multiple strains of Aspergillus fumigatus isolated from a plant bulb

Takahashi

Oiki

Kusuya

et al. 2021

Environmental Microbiology

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Fungal infections are increasingly dangerous because of environmentally dispersed resistance to antifungal drugs. Azoles are commonly used antifungal drugs, but they are also used as fungicides in agriculture, which may enable enrichment of azoleresistant strains of the human pathogen Aspergillus fumigatus in the environment. Understanding of environmental dissemination and enrichment of genetic variation associated with azole resistance in A. fumigatus is required to suppress resistant strains. Here, we focused on eight strains of azole-resistant A. fumigatus isolated from a single tulip bulb for sale in Japan. This set includes strains with TR 34 /L98H/ T289A/I364V/G448S and TR 46 /Y121F/T289A/S363P/ I364V/G448S mutations in the cyp51A gene, which showed higher tolerance to several azoles than strains harbouring TR 46 /Y121F/T289A mutation. The strains were typed by microsatellite typing, single nucleotide polymorphism profiles, and mitochondrial and nuclear genome analyses. The strains grouped differently using each typing method, suggesting historical genetic recombination among the strains. Our data also revealed that some strains isolated from the tulip bulb showed tolerance to other classes of fungicides, such as QoI and carbendazim, followed by related amino acid alterations in the target proteins. Considering spatial-temporal factors, plant bulbs are an excellent environmental niche for fungal strains to encounter partners, and to obtain and spread resistance-associated mutations.

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Interspecies Genomic Variation and Transcriptional Activeness of Secondary Metabolism-Related Genes in Aspergillus Section Fumigati

Cited by 5 publications

References 77 publications

Extensive Non-Coding Sequence Divergence Between the Major Human Pathogen Aspergillus fumigatus and its Relatives

Extensive Non-Coding Sequence Divergence Between the Major Human Pathogen Aspergillus fumigatus and its Relatives

Genomic insights into Aspergillus sydowii 29R-4-F02: unraveling adaptive mechanisms in subseafloor coal-bearing sediment environments

Intimate genetic relationships and fungicide resistance in multiple strains of Aspergillus fumigatus isolated from a plant bulb

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