Date: 25.8.2017
Far from being a load of rubbish, landfill sites should be considered one of the great untapped resources in the search for new enzymes for biotechnology, and could fuel more efficient biofuel production.
A new research paper in mSphere by biologists at Bangor and Liverpool universities has for the first time identified the enzymes which degrade natural materials such as paper and clothing in landfill sites.
James McDonald, from Bangor University's School of Biological Sciences, who led the research said: "There is a current impetus to search for new enzymes to improve biomass conversion processes. Our hypothesis is that, due to the volume of waste materials they hold, landfill sites represent a repository of unexplored biomass-degrading diversity. There is significant potential to identify new enzymes of ecological and biological significance."
Cellulose and lignin occur naturally in plant-based materials and take longer to decompose than other waste products. As a result of this, the majority of landfill waste consists of lignin and cellulose. In their plant form, they can be used as the basis for biofuel production, and identifying more effective enzymes for this process would improve the yield from this source.
Scientists have been searching for a number of years for the most effective enzymes which break down the cellulose and lignin within the residual natural fibres. The obvious place to search has been in the rumen of sheep and cows, who eat grasses, and the guts of also other plant eaters such as elephants and termites.
Surprisingly perhaps, landfill sites share many of the same characteristics as the digestive systems of these animals: they are dark, anoxic or un-oxygenated spaces, with a high content of cellulose. It was therefore to landfill sites, which are artificially created 'systems', that this group of scientists turned to find new plant-degrading enzymes.
Gate2Biotech - Biotechnology Portal - All Czech Biotechnology information in one place.
ISSN 1802-2685
This website is maintained by: CREOS CZ
© 2006 - 2024 South Bohemian Agency for Support to Innovative Enterprising (JAIP)
Interesting biotechnology content:
DNA - Deoxyribonucleic acid (DNA) at Wikipedia
Science Daily - Science Magazine
AI-designed DNA switches flip genes on and off, allowing precise activation or repression
Sea sponge-inspired microlenses offer new possibilities in optics