Simon Schröder hat Biochemie an der Ruhr-Universität Bochum studiert und seine Masterarbeit in der Arbeitsgruppe Mikrobielle Biotechnologie Anfang 2023 erfolgreich abgeschlossen. © Privat

Biotechnology Study Award for a New Building Block in the Drug Toolbox

Simon Schröder has worked out how enzymes can be used to more easily form the desired bond between two nitrogen atoms.

The building blocks for new drugs that help fight bacteria that are resistant to known antibiotics, for example, should be as cost-effective and environmentally friendly as possible. Enzymes are ideal for this purpose. For example, they can produce or combine different components of active substances. In his master’s thesis in the Microbial Biotechnology group at Ruhr University Bochum, Simon Schröder characterized an enzyme in more detail that is capable to form a desired nitrogen-nitrogen bond in molecules. He also found other enzymes that can do this. The work was awarded the DECHEMA Study Award and published in the journal Molecular Catalysis on December, 4, 2023.

Building blocks limit the design of new active substances

Researchers are in constant competition with harmful microorganisms that develop antibiotic resistances. In the search for new active substances, they traditionally try to isolate microorganisms from nature that exhibit antibiotic behavior. They then identify the substances responsible and study their function. Today, this process is complemented by computer-aided methods that make it possible to design tailor-made new molecules that have specific effects on organisms and their metabolic processes.

“However, the design and production of such artificial compounds is often limited by which precursor molecules or building blocks are available for their production,“ explains Simon Schröder. Ideally, their production process should be economical and ecological, for example by using microorganisms or their catalytic enzymes. The expansion of the modular system of available molecules to produce new drugs is therefore correspondingly important and interesting.

Making the desired bond more easily accessible

“We are working on the production of a specific type of such molecules,“ explains Schröder. In 2017, an enzyme was isolated that can form the nitrogen-nitrogen bond in molecules, which is rarely found in nature. However, very little is still known about this enzyme with the systematic name “KtzT“: How does it work? In which compounds can it form this bond? Is it suitable to produce pharmaceutically relevant molecules?

“Initially, we were able to improve the production and isolation of this enzyme in the laboratory by a factor of 35,“ reports Simon Schröder. “This enabled us to characterize KtzT, i.e. to identify its optimal reaction conditions: At what temperature, what pH value does it work best and how stable is it under a wide range of conditions?“

The research team has also found and isolated KtzT-like enzymes and shown that they are also able to catalyze the reaction. “We were also able to implement a multi-step reaction with several enzymes, making the nitrogen-nitrogen bond even easier to access,“ says Simon Schröder. Among other things, he used bioinformatic methods to develop a structural model of the enzyme, which enables hypotheses to be made regarding the reaction mechanism and the enzyme to be specifically modified so that it can also form the nitrogen-nitrogen bond in other compounds.

Since 2023, the Bochum team has been part of the EU-wide “BiodeCCodiNNg“ network, which focuses on research into nitrogen-nitrogen bond-forming enzymes, among other things.

Original publication

Simon Schröder, Artur Maier, Sandy Schmidt, Carolin Mügge, Dirk Tischler: Enhancing Biocatalytical N-N Bond Formation With The Actinobacterial Piperazate Synthase KtzT, in: Molecular Catalysis, 2024, DOI: 10.1016/j.mcat.2023.113733

Press contact

Prof. Dr. Dirk Tischler
Microbial Biotechnology Group
Faculty of Biology and Biotechnology
Ruhr University Bochum
Germany
Tel.: +49 234 32 22656
E-Mail: dirk.tischler@ruhr-uni-bochum.de

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Published

Friday
08 December 2023
9:27 am

By

Meike Drießen (md)

Translated by

Dirk Tischler

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