The Hidden Truths of Fungal Virulence and Adaptation on Hosts: Unraveling the Conditional Dispensability of Minichromosomes in the Hemibiotrophic Colletotrichum Pathogens

Bhadauria, Vijai; Zhang, Manyu; Ma, Wendi; Yang, Jun; Zhao, Wensheng; Peng, You-Liang

doi:10.3390/ijms25010198

IJMS

2023

DOI: 10.3390/ijms25010198

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The Hidden Truths of Fungal Virulence and Adaptation on Hosts: Unraveling the Conditional Dispensability of Minichromosomes in the Hemibiotrophic Colletotrichum Pathogens

Vijai Bhadauria,

Manyu Zhang,

Wendi Ma

et al.

Abstract: Colletotrichum spp. are ascomycete fungi and cause anthracnose disease in numerous crops of economic significance. The genomes of these fungi are distributed among ten core chromosomes and two to three minichromosomes. While the core chromosomes regulate fungal growth, development and virulence, the extent to which the minichromosomes are involved in these processes is still uncertain. Here, we discuss the minichromosomes of three hemibiotrophic Colletotrichum pathogens, i.e., C. graminicola, C. higginsianum a… Show more

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2024

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Cited by 3 publications

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Disease risk of the foliar endophyte Colletotrichum from invasive Ageratina adenophora to native plants and crops

Yang,

Chen,

Mei

et al. 2024

Fungal Ecology

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Disease risk of the foliar endophyte Colletotrichum from invasive Ageratina adenophora to native plants and crops

Yang,

Chen,

Mei

et al. 2024

Fungal Ecology

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Seed Tubers Are Not the Primary Inoculum Source in Water Yam (Dioscorea alata) Anthracnose Epidemics in the Caribbean

Penet,

Gumbau,

Dentika

et al. 2024

IJPB

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Crop disease often leads to field epidemics with serious threats to yield. Early symptoms are sometimes difficult to identify, so the origin of primary inoculum is a critical focal point in the study of plant diseases, as it can help design management strategies to reduce crop losses. Here, we investigated whether anthracnose of water yams (Dioscorea alata L.) caused by the species complex Colletotrichum gloeosporioides can start from infected seed tubers from the previous harvest. Over two years, we collected tubers with varying pathogen prevalence in the field directly from producers and conducted fungal isolations in the lab to sample C. gloeosporioides. We also proceeded to artificially inoculate tubers before planting and monitored disease development. Finally, we genotyped isolates from leaves in the fields and assessed fixation indices between plots based on plot ownership (plots with a common seed tuber origin from a single farmer) vs. samples in plots from unrelated producers in Guadeloupe, Martinique, and Barbados. We were unable to isolate the fungus from harvested tubers in either sampling survey nor did any plants grown from inoculated tubers develop any disease symptoms during growth. Also, the genetic structure of samples within each plot was independent of plot ownership, though this occurred with varying levels in the different islands. These results suggest that contaminated planting material from seed tubers is not the primary source of the disease, which is in contrast to the common perception of yam anthracnose prevalence in the Antilles.

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Nanopore Data-Driven T2T Genome Assemblies of Colletotrichum lini Strains

Sigova,

Dvorianinova,

Arkhipov

et al. 2024

JoF

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Colletotrichum lini is a pathogenic fungus that infects flax and causes significant yield losses. In this study, we assembled the genomes of four highly virulent C. lini strains using the Oxford Nanopore Technologies (ONT, R10.4.1 flow cells) and Illumina platforms. The performance of two tools developed for telomere-to-telomere (T2T) genome assembly was compared: Verkko and Hifiasm. Prior to the assembly, ONT reads were corrected using the HERRO algorithm. Verkko generated genome assemblies of high completeness but low contiguity, while Hifiasm allowed the generation of T2T assemblies. Despite significantly different genome coverage with ONT data (25–100×), four assemblies of equal contiguity were obtained: 53.6–54.7 Mb, ten core chromosomes, and two or three accessory chromosomes. A comparative analysis of different polishing tools showed that at a certain genome coverage with the corrected ONT data (≥35×), the additional polishing of the assembly did not improve its accuracy, even with the Illumina data. An analysis of the genome structures of the four C. lini strains revealed a high similarity between the core chromosomes. Thus, our approach enabled assembling T2T Colletotrichum genomes only from the ONT data obtained using R10.4.1 flow cells and may be promising for other fungal genera. These assemblies will allow the accurate identification of strain-specific differences at the chromosome level and will aid in the development of effective strategies to protect flax from anthracnose.

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The Hidden Truths of Fungal Virulence and Adaptation on Hosts: Unraveling the Conditional Dispensability of Minichromosomes in the Hemibiotrophic Colletotrichum Pathogens

Cited by 3 publications

References 35 publications

Disease risk of the foliar endophyte Colletotrichum from invasive Ageratina adenophora to native plants and crops

Disease risk of the foliar endophyte Colletotrichum from invasive Ageratina adenophora to native plants and crops

Seed Tubers Are Not the Primary Inoculum Source in Water Yam (Dioscorea alata) Anthracnose Epidemics in the Caribbean

Nanopore Data-Driven T2T Genome Assemblies of Colletotrichum lini Strains

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