Analysis of Whole-Genome facilitates rapid and precise identification of fungal species

Qi, Guihong; Hao, Lijun; Xin, Tianyi; Gan, Yutong; Lou, Qian; Xu, Wenjie; Song, Jingyuan

doi:10.3389/fmicb.2024.1336143

Front. Microbiol.

2024

DOI: 10.3389/fmicb.2024.1336143

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Analysis of Whole-Genome facilitates rapid and precise identification of fungal species

Guihong Qi,

Lijun Hao,

Tianyi Xin

et al.

Abstract: Fungal identification is a cornerstone of fungal research, yet traditional molecular methods struggle with rapid and accurate onsite identification, especially for closely related species. To tackle this challenge, we introduce a universal identification method called Analysis of whole GEnome (AGE). AGE includes two key steps: bioinformatics analysis and experimental practice. Bioinformatics analysis screens candidate target sequences named Targets within the genome of the fungal species and determines specifi… Show more

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Cited by 2 publications

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A Comprehensive Review of the Diversity of Fungal Secondary Metabolites and Their Emerging Applications in Healthcare and Environment

Wadhwa,

Kapoor,

Kaur

et al. 2024

Mycobiology

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A Comprehensive Review of the Diversity of Fungal Secondary Metabolites and Their Emerging Applications in Healthcare and Environment

Wadhwa,

Kapoor,

Kaur

et al. 2024

Mycobiology

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Analysis of Whole-Genome for Identification of Seven Penicillium Species with Significant Economic Value

Huang,

Fu,

Gan

et al. 2024

IJMS

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The Penicillium genus exhibits a broad global distribution and holds substantial economic value in sectors including agriculture, industry, and medicine. Particularly in agriculture, Penicillium species significantly impact plants, causing diseases and contamination that adversely affect crop yields and quality. Timely detection of Penicillium species is crucial for controlling disease and preventing mycotoxins from entering the food chain. To tackle this issue, we implement a novel species identification approach called Analysis of whole GEnome (AGE). Here, we initially applied bioinformatics analysis to construct specific target sequence libraries from the whole genomes of seven Penicillium species with significant economic impact: P. canescens, P. citrinum, P. oxalicum, P. polonicum, P. paneum, P. rubens, and P. roqueforti. We successfully identified seven Penicillium species using the target we screened combined with Sanger sequencing and CRISPR-Cas12a technologies. Notably, based on CRISPR-Cas12a technology, AGE can achieve rapid and accurate identification of genomic DNA samples at a concentration as low as 0.01 ng/µL within 30 min. This method features high sensitivity and portability, making it suitable for on-site detection. This robust molecular approach provides precise fungal species identification with broad implications for agricultural control, industrial production, clinical diagnostics, and food safety.

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Analysis of Whole-Genome facilitates rapid and precise identification of fungal species

Cited by 2 publications

References 48 publications

A Comprehensive Review of the Diversity of Fungal Secondary Metabolites and Their Emerging Applications in Healthcare and Environment

A Comprehensive Review of the Diversity of Fungal Secondary Metabolites and Their Emerging Applications in Healthcare and Environment

Analysis of Whole-Genome for Identification of Seven Penicillium Species with Significant Economic Value

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