Hi-tech bacteria gene tool could prove productive
Bacteria could be used to produce large quantities of medicines and fuels using a new gene programming technique, research suggests.
The powerful method could enable bacteria to be used as cheap and environmentally friendly living factories that make a range of useful products.
It will allow researchers to target genes that are normally difficult to activate, including those involved in infections, or with industrial applications.
The advance could also make it easier to study how harmful strains of bacteria thrive and cause infections, researchers say.
Edinburgh scientists invented the new technique – known as programmable gene activation – which enables them to control a wider range of genes and increase product yields.
Until now, a lack of techniques that work well in bacteria has hindered research and limited their ability to be used to make useful products.
Using the new method, levels of gene activation are around 100 times higher than existing techniques, the team says. Current methods also mainly target basic genes involved in bacterial survival.
The team’s technique is adapted from an approach that uses scissor-like molecules – called CRISPR molecules – to make precise changes to the genetic code. They adapted the technology by attaching small guide molecules and proteins that target and switch on genes.
Their method was developed for a widely studied species called Escherichia coli and a soil bacterium with potential industry applications. The technique is also likely to work in many other species of bacteria, researchers say.
A reusable scanning platform was also developed by the team, which makes it faster and cheaper to find the best ways of activating multiple genes in a pattern that produces high yields of useful substances.
The study, published in the journal Nature Communications, was funded by the Biotechnology and Biological Sciences Research Council, UK Research and Innovation, Leverhulme Trust and Wellcome.
This new method has the potential to be a powerful tool for programing bacteria, with diverse applications for research and industry. It could help save a lot of time and money.