Scientists at The University of Manchester have made an important discovery that forms the basis for the development of new applications in biofuels and the sustainable manufacturing of chemicals.
Based at the Manchester Institute of Biotechnology (MIB), researchers have identified the exact mechanism and structure of two key enzymes isolated from yeast moulds that together provide a new, cleaner route to the production of hydrocarbons.
Published in Nature, the research offers the possibility of replacing the need for oil in current industrial processes with a greener and more sustainable natural process.
Lead investigator Professor David Leys, explains the importance of his work: “One of the main challenges our society faces is the dwindling level of oil reserves that we not only depend upon for transport fuels, but also plastics, lubricants, and a wide range of petrochemicals. Solutions that seek to reduce our dependency on fossil oil are urgently needed.”
He adds: “Whilst the direct production of fuel compounds by living organisms is an attractive process, it is currently not one that is well understood, and although the potential for large-scale biological hydrocarbon production exists, in its current form it would not support industrial application, let alone provide a valid alternative to fossil fuels.”
Professor Leys and his team investigated in detail the mechanism whereby common yeast mould can produce kerosene-like odours when grown on food containing the preservative sorbic acid. They found that these organisms use a previously unknown modified form of vitamin B2 (flavin) to support the production of volatile hydrocarbons that caused the kerosene smell. Their findings also revealed the same process is used to support synthesis of vitamin Q10 (ubiquinone).
Using the Diamond synchrotron source at Harwell, they were able to provide atomic level insights into this bio catalytic process, and reveal it shares similarities with procedures commonly used in chemical synthesis but previously thought not to occur in nature.
Professor David Leys says: “Now that we understand how yeast and other microbes can produce very modest amounts of fuel-like compounds through this modified vitamin B2-dependent process, we are in a much better position to try to improve the yield and nature of the compounds produced.”
In this particular study, published in the journal Nature, researchers focussed on the production of alpha-olefins; a high value, industrially crucial intermediate class of hydrocarbons that are key chemical intermediates in a variety of applications, such as flexible and rigid packaging and pipes, synthetic lubricants used in heavy duty motor and gear oils, surfactants, detergents and lubricant additives.
Read more: Mould unlocks new route to biofuels
The Latest on: Mould for biofuel
[google_news title=”” keyword=”Mould for biofuel” num_posts=”10″ blurb_length=”0″ show_thumb=”left”]
via Google News
The Latest on: Mould for biofuel
- Carbon-capturing concrete alternative driven by photosynthesison July 23, 2024 at 5:47 am
A new material tackles the carbon problem of concrete production and usage by employing a pretty unusual workforce: cyanobacteria. The bio-cement these micro-organisms help to produce harnesses a ...
- Amanda Freshwater, Valtris Specialty Chemicals | Women Breaking the Mold 2024on July 22, 2024 at 9:21 am
Before deciding to change her career choice to chemistry, Amanda Freshwater was working on becoming a medical doctor. She completed a Ph.D. in macromolecular science and engineering at Case Western ...
- Akanksha Patel | Women Breaking the Mold 2024on July 21, 2024 at 10:01 pm
The mold that Akanksha Patel is breaking is the traditional career ... Patel currently works as a polymer scientist at CJ Biomaterials Inc., a global manufacturer that specializes in bio-based ...
- This Comfy, Celeb-loved Brand Dropped a New Twist on a Beloved Sneaker, and It's Perfect for Summer Travelon July 18, 2024 at 9:00 pm
Your travel packing list is never complete without a reliable pair of comfortable sneakers, and the celeb-loved shoe brand Cariuma has continuously delivered on crafting supportive shoes that go with ...
- How Bio-Safe by BioSecurity Technology is Setting the New Standard of Cleanon July 18, 2024 at 5:00 pm
Bio-Safe created an oxidizing solution, destroying 99.999% of all pathogens that it comes in contact with, including viruses, bacteria, molds, and more. An entirely organic solution devoid of toxins, ...
- How an Arctic rock inspired this Texas couple to develop a new way to capture carbonon July 18, 2024 at 12:30 am
Steve McDaniel was on a research trip to the Arctic studying cold climates as an analog to Mars. One day, as he scanned the frosted landscape, a splash of bright orange crossed his vision. He trudged ...
- Composites end markets: Automotive (2024)on July 17, 2024 at 5:00 pm
These have included: Beyond a focus on electrification, the automotive industry also continues to innovate toward more sustainable material solutions for many components, from natural fiber composites ...
- West Sacramento's Origin Materials seeks quick revenue boost with recyclable bottle closureson July 12, 2024 at 6:47 am
PET tends to break if you pull it off the mold. Origin got around the problems by using different ... and that its first products would be biofuel, rather than renewable plastic. The company’s shares ...
- Foam Insulation Market Size Is Set To Grow By USD 20.26 Billion From 2024-2028, Increasing Demand For Foam Insulation Boost The Market, Technavioon July 9, 2024 at 11:40 am
The global foam insulation market is projected to expand significantly, with an estimated growth of USD 20.26 billion ...
- Reality check for circularity at Future Fabrics Expo 24on July 4, 2024 at 4:22 am
Future Fabrics Expo showcased next gen materials and alternative dyeing methods, while providing a platform to discuss the path to circularity. 4th July 2024. Anne Prahl \| London.
via Bing News