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BIO FUEL
Artificial cyanobacterial biofilm can sustain green ethylene production for over a month
by Staff Writers
Turku, Finland (SPX) Oct 16, 2020

Cyanobacteria has several limitations for efficient production, as they primarily accumulate biomass, not the desired products.

The great global challenges of our time, including climate change, energy security and scarcity of natural resources, promote a transition from the linear fossil-based economy to the sustainable bio-based circular economy. Taking this step requires further development of emerging technologies for production of renewable fuels and chemicals.

Photosynthetic microorganisms, such as cyanobacteria and algae, show a great potential for satisfying our demand for renewable chemicals and reducing the global dependence on fossil fuels. These microorganisms have the ability to utilise solar energy in converting CO2 into biomass and a variety of different energy-rich organic compounds. Cyanobacteria are also capable of holding novel synthetic production pathways that allow them to function as living cell factories for the production of targeted chemicals and fuels.

Ethylene is one of the most important organic commodity chemicals with an annual global demand of more than 150 million tons. It is the main building block in the production of plastics, fibres and other organic materials.

"In our research, we employed the genetically engineered cyanobacterium Synechocystis sp. PCC 6803 that expresses the ethylene-forming enzyme (EFE) acquired from the plant pathogen, Pseudomonas syringae. The presence of EFE in cyanobacterial cells enables them to produce ethylene using solar energy and CO2 from air," says Associate Professor Allahverdiyeva-Rinne.

Ethylene has a high energy density that makes it an attractive fuel source. Currently, ethylene is produced via steam cracking of fossil hydrocarbon feedstocks leading to a huge emission of CO2 into the environment. Therefore, it is important to develop green approaches for synthesising ethylene.

"Although very promising results have been reported on ethylene-producing recombinant cyanobacteria, the overall efficiency of the available photoproduction systems is still very low for industrial applications. The ethylene productivity of engineered cyanobacteria is the most critical variable for reducing the costs and improving efficiency," says Postdoctoral Researcher Sindhujaa Vajravel.

However, cyanobacteria have several limitations for efficient production, as they primarily accumulate biomass, not the desired products.

"They possess a giant photosynthetic light-harvesting antenna that leads to self-shading and limited light distribution in suspension cultures, which decreases productivity. The greatest limitation is that the production period of the cells is short, only a few days," explains Associate Professor Allahverdiyeva-Rinne.

To solve these two problems, researchers entrapped ethylene-producing cyanobacterial cells within thin-layer alginate polymer matrix. This approach limits cell growth strongly, thus engaging efficient flux of photosynthetic metabolites for ethylene biosynthesis. It also improves light utilisation under low-light conditions and strongly promotes cell fitness. As a result, the artificial biofilms achieved sustainable photoproduction of ethylene for up to 40 days with a light-to-ethylene conversion efficiency that is 3.5 fold higher than in conventional suspension cultures.

These findings open up new possibilities for the further development of efficient solid-state photosynthetic cell factories for ethylene production and scaling up the process to the industrial level.

Research paper


Related Links
University Of Turku
Bio Fuel Technology and Application News


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BIO FUEL
Hungary chlorine gas leak injures 28 at refinery
Budapest (AFP) Oct 9, 2020
Twenty-eight workers at a bioethanol refinery in central Hungary were injured Friday after a chlorine leak, the company that owns the facility said in a statement. The workers became ill after the accident at the Irish-owned Pannonia Bio plant at Dunafoldvar, 80 kilometres (50 miles) south of Budapest. Emergency services told local media that 13 staff were seriously injured, suffering from shortage of breath. A further 15 reported minor symptoms of poisoning such as irritated throats and ey ... read more

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