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05/09/2025 11:03

Bacterium Produces “Organic Dishwashing Liquid” to Degrade Oil

Katrin Piecha Dezernat 8 - Hochschulkommunikation
Rheinische Friedrich-Wilhelms-Universität Bonn

    The marine bacterium Alcanivorax borkumensis feeds on oil, multiplying rapidly in the wake of oil spills, and thereby accelerating the elimination of the pollution, in many cases. It does this by producing an “organic dishwashing liquid” which it uses to attach itself to oil droplets. Researchers from the University of Bonn, RWTH Aachen University, Heinrich Heine University Düsseldorf and research center Forschungszentrum Jülich have now discovered the mechanism by which this “organic dishwashing liquid” is synthesized. Published in the prominent international journal Nature Chemical Biology, the research findings could allow the breeding of more efficient strains of oil-degrading bacteria.

    Loosely translated into English, the Latin name of the bacterium is “alkane eaters from Borkum.” Indeed, the name says it all, for alkanes are chains of hydrocarbons that exist in petroleum in large quantities. A. borkumensis feeds on energy-rich chains which occur naturally in the sea—and on non-naturally-occurring chains like those dispersed in oil spills. In many cases the bacteria multiply rapidly, thereby accelerating the pollution-clearing process.

    Oil and water don’t mix

    Because of the well-known fact that oil and water don’t mix, in order to eat its favorite food, the microscopic sea creature requires a chemical aid. It makes it for itself, producing a kind of natural dishwashing liquid. This “detergent” is a compound consisting of the amino acid glycine and a sugar-fatty acid compound. “The molecules have a water-soluble part and a fat-soluble part,” explains Professor Peter Dörmann, who is a biochemist at the University of Bonn's IMBIO institute (Institute of Molecular Physiology and Biotechnology of Plants). “The bacteria settle on the surface of the oil droplets, where they form a biofilm.”

    The mechanism by which the alkane eater synthesizes this detergent was not understood until a working group led by Professor Karl-Erich Jaeger of Forschungszentrum Jülich and the Heinrich Heine University Düsseldorf intensively studied the bacterium’s genome. “In our research we identified a gene cluster which we believed could play a role in production of the molecule,” Professor Jaeger relates. And indeed, when the genes of this cluster were “switched off”, the bacteria were impaired in their ability to attach to oil droplets. “As a result they absorbed less oil, and grew much more slowly,” said Professor Lars Blank of RWTH Aachen University.

    Potential biotech applications

    A doctoral student of Professor Dörmann, Jiaxin Cui, ultimately succeeded in elaborating the synthetic pathway by which A. borkumensis produces the detergent. Three enzymes are involved in this process, in which the molecule is assembled step by step. The three genes contain the instructions for building these biocatalysts, without which the bonding process cannot efficiently proceed. “We successfully transferred the genes involved to a different bacterium, which then produced the detergent as well,” Cui explains.

    Bacteria like A. borkumensis are important for degrading oil pollution, thus these findings are of significant interest, possibly leading to the development of new, more effective strains. “This natural detergent could have biotech applications as well, such as for microbial production of key chemical compounds from hydrocarbons," says Dörmann, who is a member of the University of Bonn Transdisciplinary Research Area (TRA) “Sustainable Futures.”

    Institutions involved and funding secured:

    The University of Bonn, RWTH Aachen University, the Heinrich Heine University Düsseldorf and Forschungszentrum Jülich were involved in the research study, which was funded by the German Research Foundation (DFG) and the Federal Ministry of Education and Research (BMBF).


    Contact for scientific information:

    Prof. Dr. Peter Dörmann
    Institute of Molecular Physiology and Biotechnology of Plants (IMBIO)
    University of Bonn
    Phone: +49 228 73-2830
    Email: doermann@uni-bonn.de


    Original publication:

    Cui J., Fassl M., Vasanthakumaran V., Dierig M.M., Hölzl G., Karmainski T., Tiso T., Kubicki S., Thies S., Blank L.M., Jaeger K.-E., Peter Dörmann (2025) Biosurfactant biosynthesis by Alcanivorax borkumensis and its role in oil biodegradation. Nat. Chem. Biol.
    DOI: 10.1038/s41589-025-01908-1
    https://www.nature.com/articles/s41589-025-01908-1


    Images

    The red-marked bacteria with the gene cluster switched off were no longer able to synthesize the detergent. The bacteria were then unable to attach to the surface of oil droplets (left) the way they usually do (right).
    The red-marked bacteria with the gene cluster switched off were no longer able to synthesize the det ...
    Dr. Dörmann’s working group
    Dr. Dörmann’s working group / University of Bonn


    Criteria of this press release:
    Journalists, all interested persons
    Biology, Environment / ecology
    transregional, national
    Research results
    English


     

    The red-marked bacteria with the gene cluster switched off were no longer able to synthesize the detergent. The bacteria were then unable to attach to the surface of oil droplets (left) the way they usually do (right).


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