Extremely acidophilic filamentous fungi are more prevalent in diverse ecosystems than previously documented

Extremely acidophilic filamentous fungi are more prevalent in diverse ecosystems than previously documented

Abstract The study of extremophiles can lead to the discovery of highly tolerant enzymes of value to biotechnology, and extreme environments are typically sampled to facilitate their discovery. Here, we show that extreme acidotolerant filamentous fungi, able to grow at pH < 1, can be found when s...

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Main Authors: Nguyen Thanh Thuy, Tom Coleman, Meera Christopher, Nguyen Bao Chau, Cao Xuan Bach, La Thi My Hanh, Efstratios Nikolaivits, Johan Larsbrink, Lisbeth Olsson, Vu Nguyen Thanh
Format: Article
Language:English
Published: Nature Portfolio 2025-08-01
Series:Scientific Reports
Subjects:
New fungal taxa
Acidophile
Acidotolerant
Extremophile
Ascomycota
Penicillium
Online Access:https://doi.org/10.1038/s41598-025-06321-1
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Summary:Abstract The study of extremophiles can lead to the discovery of highly tolerant enzymes of value to biotechnology, and extreme environments are typically sampled to facilitate their discovery. Here, we show that extreme acidotolerant filamentous fungi, able to grow at pH < 1, can be found when sampling highly diverse environments, from industrial sites with low pH to typical non-acidic plant and soil samples. Over 100 fungal strains were isolated from over 2,000 samples taken from across Vietnam, and many of the strains were able to grow over wide pH ranges, displaying either acidotolerance or clear acidophilicity. ITS sequencing revealed that 63 isolates represent 12 previously undescribed species, with the majority from the Talaromyces or Penicillium genera. We furthermore report the rediscovery of the previously lost, historically significant acidophile Acontium velatum. Screening of selected fungal secretomes for polysaccharide-cleaving activity revealed that many show broad tolerance to harsh conditions (pH, temperature, organic solvents). Our work greatly expands on the diversity of identified extreme acidotolerant and acidophilic filamentous fungi, which can serve as sources of industrially relevant enzymes. For most species identified, acid tolerance or acidophilicity has not previously been reported, and our results showcase that acidophilicity is more widespread than previously appreciated.
ISSN:2045-2322

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