DTU BIOSUSTAIN Novo Nordisk Foundation Center for Biosustainability
Søltofts Plads
Building 220, room 318F
2800 Kgs. Lyngby
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New research suggests that the diversity of the microbial community involved in sugarcane ethanol fermentation processes plays a significant role in its performance. Selecting the right bacteria could increase ethanol production by more than a billion liters per year, considering Brazil alone.
It is possible to fight resistant E. coli bacteria by combining two widely known antibiotics.
The drug Niclosamide will now be clinically tested for treating coronavirus. DTU Professor Morten Sommer is looking forward to testing the drug in collaboration with a Korean research institute.
Scientists from The Novo Nordisk Foundation Center for Biosustainability (DTU) have discovered that a combination of two common antibiotics is able to eliminate multi-drug resistant E. coli causing urinary tract infections. This combination treatment could become an effective measure against clinically relevant antibiotic resistant urinary...
Scientists from the Novo Nordisk Foundation Center for Biosustainability (DTU) have found four new anti-CRISPR proteins that are distributed across different environments. The new study published in Cell Host & Microbe suggests that some anti-CRISPR proteins are more widespread in nature than previously anticipated. These anti-CRISPRs...
Ultra-deep DNA sequencing of thousands of cells uncovers many competing mechanisms of evolution as a threat to efficient scale-up of biobased chemicals production. Evolution plays an underestimated role in bioprocesses and limits yields much more than previously anticipated.
Circumventing evolution in cell factories can pave the way for commercializing new biobased chemicals to large-scale.
A new study published in Nature Communications will help to predict antibiotic resistance evolution and thus guide future drug development.
A new study published in Cell Press finds that antibiotic treatment of chronic infections can be optimized by targeting vulnerabilities of antibiotic-resistant pathogens paving the way for more effective treatment strategies.
Scientists have revealed that certain disease-causing bacteria get their resistance genes in a complex process involving bacterial ‘sex’. This new knowledge can potentially lead to a more targeted effort in counteracting the spread of antibiotic resistance
Harmless intestinal bacteria may transfer resistance genes to pathogenic bacteria, making the dangerous bacteria resistant to antimicrobial agents. A new method makes it possible to locate resistance genes quickly and thus choose the most effective type of treatment with antimicrobial agents.
A new cutting edge biological sensor have led to the discovery of 25 transporter proteins in bacteria. Transporters control bacterial communication and their uptake of different compounds such as drugs and vitamins. This discovery points towards new antibiotics and more efficient biological production of vitamins.
DTU researchers receive two out of 11 Danish ERC Starting Grants. The grants will be used for research in multidrug resistance and an improved method for the dating of sediments.