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Netherlands The Project Notice - Heterologous Expression Of Natural Products From Microbes Living In A Self-Sustaining Environment


Project Notice

PNR 65310
Project Name Heterologous expression of natural products from microbes living in a self-sustaining environment
Project Detail Characterising novel metabolites produced by lichen in natural environments Isolated microbes represent only a very small percentage of the microbial diversity in the natural environment. While their study has led to interesting compounds urgently needed for new antimicrobial drugs, the discovery of such compounds has been declining over the last few decades. With the support of the Marie Sklodowska-Curie Actions programme, the FungalHetEx project will investigate lichens, a microbial community including fungi, green algae, cyanobacteria and bacteria. A recent study harnessed high-throughput technologies and multiomics analyses to facilitate the challenging study of lichens in their natural environment. Building on this knowledge, FungalHetEx aims to apply synthetic biotechnology, bioinformatics, chemistry, and microbiology techniques to characterise novel metabolites produced from symbiosis in lichen communities. The increases in antimicrobial resistance and infections caused by microbes, such as mucormycosis (black fungus disease) on Covid-19 patients, highlight the urgent need for new antimicrobial drugs. Most drugs approved for clinical use are based or inspired by natural products. The recurrent re-discovery of compounds when studying isolated microbes, declined the research on natural products in the last decades. However, isolated microbes represent a small percentage of the true microbial diversity living in the environment. Lichens are a microbial community formed by different partners (fungi, green algae, cyanobacteria, bacteria) and their metabolites present diverse biological activities including antimicrobial. Furthermore, many of these molecules have vibrant colours and can be used as natural colorants. Due their slow growth and difficulties in the laboratory cultivation, little is known about natural products biosynthetic genes of the multiple partners living in symbiosis. The improvement in high-throughput technology and the current affordable prices for multi-omics analysis (meta-genomics, -transcriptomics and -bolomics), are allowing a deeper study on natural environmental samples. This project aims to use the knowledge obtained in a recent multi-omics study and apply synthetic biotechnology, bioinformatics, chemistry and microbiology techniques to study novel metabolites from lichen. Polyketide synthase biosynthetic gene clusters have been selected and they will be cloned, transformed and heterologously expressed using Aspergillus oryzae. The optimisation of the polyketides biosynthesis by the heterologous host will be performed and different fermentation conditions will be tested. Novel molecules will be chemically and biologically characterized. During FungalHetExt, I will study novel molecules produced under symbiosis using a multidisciplinary approach with the focus to discovery new molecules and improve my science communication and leadership skills.
Funded By European Union (EU)
Sector Electronics
Country Netherlands The , Central Europe
Project Value EUR 254,330

Contact Information

Company Name KONINKLIJKE NEDERLANDSE AKADEMIE VAN WETENSCHAPPEN - KNAW
Web Site https://cordis.europa.eu/project/id/101107873

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