香港六合彩挂牌资料

My country:
computer generated image on an enzyme

Enzymes are the answer!

If we are to make a green transition by developing new technologies that will help us become carbon neutral in our activities, we need to change our system from a liner (single use) to a circular economy, reducing our reliance on non-renewables and our negative effect on the environment.

To reduce our emissions and begin to redress the climate change balance, enzymes should be used more frequently in our industrial processes and cycles.

香港六合彩挂牌资料鈥檚 (CEB) is a聽leading research centre focused on searching for novel enzymes and biomolecules of industrial biotechnological relevance and green growth through the use of natural resources.聽 The Centre works to streamline and shorten the biodiversity discovery pipeline, addressing all steps, from sampling biodiversity hotspots to enzyme and bioactive compound discovery. 聽They are a partner in a European Commission Horizon 2020 research programme, FuturEnzyme: Technologies of the Future for Low-Cost Enzymes for Environment-Friendly Products.

But what are enzymes and where do they come from? Enzymes are naturally occurring proteins which are essential for functioning of all living systems on our Planet.

Using enzymes in everyday products can cut waste and chemical consumption, reduce the environmental impact of industrial processes, make processing safer and lower a product or process鈥 carbon footprint.

One common example of their use is in laundry detergents, which we鈥檝e all probably used, which enable us to run our washing machines at lower temperatures. They鈥檝e been around since the 1970鈥檚. The climate benefits of these enzymatic detergents are not to be sniffed at, estimates suggest that a drop in washing machine temperatures from 60掳C to 30掳C reduces the CO2 per cycle by 35%.

Colourful laundry drying on a washing line against a blue sky
Credit:Daeva miles via Unsplash.com

This is just one established use of enzymes. Enzymes can and are being adopted in our manufacturing systems in everything from construction, and the car industry, to cosmetics.

Estimates quantify that adopting enzymes in industrial processes and manufacturing could equate to a reduction in CO2 comparable to removing 16-40% of cars on the world鈥檚 roads (between 1-2.5Bt of CO2 emissions per year by 2030).

Professor Peter Golyshin at 香港六合彩挂牌资料鈥檚 Centre for Environmental Biotechnology explains:

鈥淥ur concerns regarding climate change and growing consumer demands for greener consumer products requires a search for or design of useful new enzymes. Though time-consuming and costly, the discovery or development of enzymes that we can adopt in industry and manufacture, will pay for themselves in the long term, if they move us to a more circular economy.鈥

鈥淲e are posed at the cusp of a new industrial revolution,鈥 he added.

computer generated image on an enzyme
The structure of a polyester-active enzyme sourced from microorganisms inhabiting hot springs of Island of Ischia

鈥淢ost industrial biotechnology processes are derived from microorganisms; these are an exceptional natural resource from which to produce safer, cheaper and greener products. To date, very few microbial enzymes have actually made it to the commercial market. One of the major bottlenecks is the laborious, costly and unreliable enzyme optimisation process required to make enzymes more stable and perform better in industrial processes.鈥

That is the challenge facing him and his team at CEB.

The number of enzymes which exist is so large it is practically unquantifiable. Each of the estimated 1 trillion microbial species could host a reservoir of enzymes 鈥 a mind-boggling total! So far around 270 000 enzymes have been identified, supporting 6500 different reactions, and some can be developed or have been adapted for use. Not all enzymes will have an application- as they serve to initiate vastly different reactions.

As part of the FuturEnzyme project, Prof Golyshin鈥檚 team at 香港六合彩挂牌资料 are hosting the between August 29-September 2, this year.

Described as organisms which thrive in relatively high temperature environments, thermophiles can be a source of enzymes. The Conference will discuss latest news in various fields of research from ecology, phylogeny, genomics, metagenomics, molecular biology, physiology, astrobiology to biotechnology and other areas of applied microbiology.