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Physiological activity utilization laboratory (Sakuta Shohei laboratory)
Bioactive Substances Laboratory
(Shohei Sakuda Laboratory)

Shohei Sakuta

Bioactive substances produced by living organisms are the key to solving biological phenomena and are useful as medicines and agricultural chemicals. Microorganisms and plants produce a variety of bioactive substances, but their roles in the environment and their physiological actions are often unknown. In this laboratory, we conduct basic research to discover bioactive substances, elucidate their mechanisms of action, and search for new bioactivities, as well as applied research to develop methods to effectively utilize bioactivities for stable human life and environmental conservation.

Basic Information

Faculty name/Affiliation Shohei Sakuda / Department of Biosciences, Faculty of Science and Engineering
Specialized Fields ioorganic Chemistry, Environmental Natural Resources
Research theme We discover new bioactive substances with useful effects for agriculture and medicine from the metabolites of microorganisms, plants, and other sources, and conduct both basic and applied research on their mechanisms of action and physiological effects.
Faculty introduction URL https://www3.med.teikyo-u.ac.jp/profile/ja.cf5a1512010e8449.html

Our Research

Controlling mold poison (mycotoxins) contamination of food

Prevention of mycotoxin contamination of food
Molds accumulate substances (mycotoxins) that show toxicity to humans and livestock in crops. Mycotoxins in food are not broken down during cooking and can be harmful to humans and livestock. Aflatoxin, in particular, has a strong carcinogenic effect, and 5 billion people are exposed to the risk of aflatoxin. However, there are no practical methods to prevent aflatoxin contamination in crops, and its development is strongly desired. We are focusing on substances that specifically inhibit aflatoxin production. Such substances can help elucidate the mechanism of aflatoxin production in molds, and their practical use as aflatoxin contamination prevention agents can be expected. The figure shows the mechanism by which geosmin promotes the activity of the clpP protease, inhibits the expression of the transcriptional regulatory factor AflR, and suppresses aflatoxin production.

Utilization of microbial signaling substances

Application of Microbial Signaling Molecules
Aurozamine produced by soil actinomycetes is a signaling molecule that promotes chitinase production and growth of actinomycetes. Chitinase is essential for the degradation of chitin in soil, and the chitin degradation products promote plant growth and maintain a favorable state of the microbial community in soil for plant growth. We are conducting research on the application of aurozamine to agriculture and environmental conservation, focusing on elucidating the mechanism of action of aurozamine and its effects on soil microbial communities and plant growth. The figure shows the effect of aurozamine on the growth of actinomycetes, with more mycelia visible on the right side where aurozamine was added compared to the left side without aurozamine. The grains around the mycelia are chitin, and it can be seen that the degradation of chitin is promoted by the addition of aurozamine.

Papers and Conferences Presentation

Paper presentation

Title Journal title Laboratory Contents
Structural and Thermodynamic Signatures of Ligand Binding to the Enigmatic Chitinase D of Serratia proteamaculans Journal of Physical Chemistry B Physiological activity utilization laboratory detail
Development of Bioorganic Chemical Research on Microbial Metabolite Regulators Aurozamine and Aflastatin The Japanese Journal of Antibiotics Physiological activity utilization laboratory detail

 

Title Journal title Laboratory Contents
Inhibition of Aflatoxin Production by Paraquat and External Superoxide Dismutase in Aspergillus flavus Toxins Physiological activity utilization laboratory detail
Exploring an artificial metabolic route in Fusarium sporotrichioides: production and characterization of 7-hydroxy T-2 toxin. Journal of Natural Products Physiological activity utilization laboratory detail

 

Conference presentation

Title Society name Laboratory Contents
Studies on the mode of action of dioctatin that inhibits aflatoxin production of Aspergillus species 2nd Mycokey International Conference – Integrated Solutions for Mycotoxin Management Physiological activity utilization laboratory detail
Aflatoxin production inhibitors-two decades from aflastatin A The 3rd International Conference of Mycotoxicology and Food Security (ICM2019) Physiological activity utilization laboratory detail
The mode of action of dioctatin that inhibits aflatoxin production of Aspergillus flavus The 3rd International Conference of Mycotoxicology and Food Security (ICM2019) Physiological activity utilization laboratory detail
Recent advances in allosamidin research 14th International Chitin and Chitosan Conference (Invited Talk) Physiological activity utilization laboratory detail
Key molecules in primary metabolism for mycotoxin production 2nd Mycokey International Conference (Invited Talk) Physiological activity utilization laboratory detail

 

Introducing the FacultyThis section introduces details about the research and the passionate thoughts around the research.

Introduction of Professor Shohei Sakuta

Discover the fascinating and untold stories behind the cutting-edge research being conducted by our esteemed professors. Get an in-depth look at the motivations and passions driving their work, and learn how their findings are making a real impact on society. Don't miss the opportunity to gain a deeper understanding of the amazing work being done right here at our laboratory!

Introduction of Shohei Sakuda