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← Back to Discoveries | PubMed → · research article 2026-03-25 synthesized

A novel and evolutionarily distinct flavoprotein monooxygenase drives skatole degradation in

Meng N, Li G, Zhang J, Zhu J, Kang X

Soil Health

Skatole accumulates in manure-treated soils and can stunt plant roots and harm soil microbes — understanding how nature already breaks it down could lead to better composting practices, healthier garden soils, and reduced chemical runoff into the places we grow our food.

Skatole is a smelly, harmful chemical that builds up in soils from animal waste and can poison plants and the tiny organisms that keep soil healthy. Researchers found a brand-new kind of protein in a microorganism that can latch onto skatole and break it apart — something no known protein quite like it can do. This discovery opens the door to using or engineering microbes that clean contaminated soils naturally.

Key Findings

1

A flavoprotein monooxygenase enzyme was identified that degrades skatole (3-methylindole) and is evolutionarily distinct from all previously characterized enzymes in its family.

2

Skatole is described as persistent and toxic, highlighting a gap in known biodegradation pathways that this enzyme helps explain.

3

The enzyme's evolutionary distinctiveness suggests an independent origin, meaning nature has developed at least one novel biochemical solution specifically for breaking down this compound.

chevron_right Technical Summary

Scientists discovered a new type of enzyme — never seen before in nature — that breaks down skatole, a toxic, foul-smelling compound found in manure and degrading organic matter. This enzyme works differently from all known relatives, suggesting life evolved a unique chemical toolkit for cleaning up this persistent pollutant.

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Abstract Preview

Skatole (3-methylindole), a persistent and toxic

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Abstract copyright held by the original publisher.

hub This connects to 8 other discoveries — soil-health, phytoremediation, crop-improvement 5 related articles
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