Sustainable vaccines and fuels research boosted by computer breakthrough

Sustainable vaccines and fuels research boosted by computer breakthrough

Sustainable sources of fuels and new medicines and vaccines for a growing global population could be a step closer after the University of Aberdeen made an important breakthrough that will optimise a new and rapidly evolving biotechnology.

Synthetic biology, a new increasingly used biotechnology, uses living cells to create and enhance molecules that can be used in biofuels or as precursors to medical drugs.

However, when scientists use biotechnology processes to make the proteins used in many medicines, the process can work inefficiently.  Sometimes not enough key medicinal proteins are made, or the proteins don’t work properly. 

Now researchers at the University of Aberdeen have, for the first time, used computers to find out what goes wrong during the process, and correct it.

In addition, along with the University of Maryland and biotechnology firm Fujifilm Diosynth Biotechnologies, Aberdeen has been awarded £700,000 in funding by the Biotechnology and Biological Sciences Research Council (BBSRC) to advance the research further.

Biotechnology is already used to create a wide range of antibodies - the body’s natural response to disease or infection.  For example, the Hepatitis B vaccine is made by combining the gene from the virus with baker’s yeast. This creates the hepatitis protein which, when injected into humans as a vaccine, stimulates the body to create antibodies against it. Similarly, a human gene can be combined with E. coli to make insulin for treatment of diabetes.

This extremely complicated process, called recombinant protein expression, is not always reliable however. Sometimes an insufficient quantity of proteins is made, or the proteins are made inaccurately.

Now mathematicians, physicists and microbiologists from the University of Aberdeen have shown for the first time that mathematical models can replicate this process to understand the reasons why it goes wrong. This allowed them to show that small changes in the cell biochemistry could improve the manufacture of the proteins. The findings have been published in Nucleic Acids Research.

By understanding why the proteins aren’t being created correctly during biotechnology, microbiologists can use a process called synthetic biology to correct this process, and optimise the biotechnological production of medicines and vaccines.

Once corrected, the cell is able to ‘sense’ when the creation of these valuable proteins is becoming inaccurate, and will actively slow down their own production to improve the quality.

“Synthetic biology is going to become essential in the future for producing everything from new, sustainable medicines and treatments, to sustainable chemicals made from plant-derived raw materials,” explains Professor Ian Stansfield from the University of Aberdeen’s Institute of Medical Sciences.

“We are developing ways of optimising this process by simulating the ‘protein manufacturing process’ in a computer, which means we can tailor the genes to ensure the process is more efficient and more reliable." commented Dr Mamen Romano, co-project lead from the University of Aberdeen’s Institute of Complex Systems and Mathematical Biology.

Professor Stansfield explained: “Our latest paper shows for the first time that we can accurately simulate this process in a computer and our next project in conjunction with the University of Maryland and our industrial partners Fujifilm Diosynth Biotechnologies will advance this research even further.

“There is also an important public awareness and acceptance element that we, as scientists, along with other relevant authorities need to encourage. There are clearly misgivings in some people's minds concerning the production of genetically modified consumables and medicines – much of which, we believe, stems from a lack of accessible and reliable information on the subject. We hope to work to inform and reassure people of the benefits and potential of this exciting new area of science.”

Search News

Browse by Month

2024

  1. Jan
  2. Feb There are no items to show for February 2024
  3. Mar
  4. Apr
  5. May
  6. Jun There are no items to show for June 2024
  7. Jul
  8. Aug
  9. Sep
  10. Oct
  11. Nov
  12. Dec There are no items to show for December 2024

2023

  1. Jan There are no items to show for January 2023
  2. Feb There are no items to show for February 2023
  3. Mar There are no items to show for March 2023
  4. Apr There are no items to show for April 2023
  5. May There are no items to show for May 2023
  6. Jun There are no items to show for June 2023
  7. Jul There are no items to show for July 2023
  8. Aug There are no items to show for August 2023
  9. Sep There are no items to show for September 2023
  10. Oct
  11. Nov There are no items to show for November 2023
  12. Dec

2022

  1. Jan
  2. Feb There are no items to show for February 2022
  3. Mar
  4. Apr There are no items to show for April 2022
  5. May
  6. Jun There are no items to show for June 2022
  7. Jul
  8. Aug
  9. Sep There are no items to show for September 2022
  10. Oct
  11. Nov There are no items to show for November 2022
  12. Dec There are no items to show for December 2022

2021

  1. Jan There are no items to show for January 2021
  2. Feb
  3. Mar
  4. Apr
  5. May
  6. Jun
  7. Jul
  8. Aug
  9. Sep
  10. Oct
  11. Nov
  12. Dec

2020

  1. Jan
  2. Feb
  3. Mar
  4. Apr
  5. May
  6. Jun
  7. Jul
  8. Aug There are no items to show for August 2020
  9. Sep There are no items to show for September 2020
  10. Oct There are no items to show for October 2020
  11. Nov
  12. Dec

2019

  1. Jan
  2. Feb
  3. Mar There are no items to show for March 2019
  4. Apr
  5. May
  6. Jun
  7. Jul
  8. Aug
  9. Sep
  10. Oct
  11. Nov
  12. Dec

2018

  1. Jan There are no items to show for January 2018
  2. Feb There are no items to show for February 2018
  3. Mar There are no items to show for March 2018
  4. Apr There are no items to show for April 2018
  5. May There are no items to show for May 2018
  6. Jun There are no items to show for June 2018
  7. Jul
  8. Aug
  9. Sep
  10. Oct
  11. Nov
  12. Dec

2017

  1. Jan
  2. Feb There are no items to show for February 2017
  3. Mar
  4. Apr
  5. May
  6. Jun
  7. Jul
  8. Aug There are no items to show for August 2017
  9. Sep
  10. Oct There are no items to show for October 2017
  11. Nov
  12. Dec There are no items to show for December 2017

2016

  1. Jan
  2. Feb
  3. Mar
  4. Apr
  5. May
  6. Jun
  7. Jul
  8. Aug There are no items to show for August 2016
  9. Sep
  10. Oct
  11. Nov There are no items to show for November 2016
  12. Dec

2014

  1. Jan
  2. Feb
  3. Mar
  4. Apr
  5. May
  6. Jun
  7. Jul
  8. Aug
  9. Sep There are no items to show for September 2014
  10. Oct
  11. Nov
  12. Dec

2012

  1. Jan There are no items to show for January 2012
  2. Feb There are no items to show for February 2012
  3. Mar There are no items to show for March 2012
  4. Apr There are no items to show for April 2012
  5. May There are no items to show for May 2012
  6. Jun There are no items to show for June 2012
  7. Jul There are no items to show for July 2012
  8. Aug There are no items to show for August 2012
  9. Sep
  10. Oct
  11. Nov There are no items to show for November 2012
  12. Dec There are no items to show for December 2012