Could the food we eat affect our genes? Study in yeast suggests this may be the case

Almost all of our genes may be influenced by the food we eat, according to new research published in the journal Nature Microbiology.

 

In many cases the effects were so strong, that changing a cell’s metabolic profile could make some of its genes behave in a completely different manner.
   - Markus Ralser

The study, carried out in yeast – which can be used to model some of the body’s fundamental processes – shows that while the activity of our genes influences our metabolism, the opposite is also true and the nutrients available to cells influence our genes.

The behaviour of our cells is determined by a combination of the activity of its genes and the chemical reactions needed to maintain the cells, known as metabolism. Metabolism works in two directions: the breakdown of molecules to provide energy for the body and the production of all compounds needed by the cells.

Knowing the genome – the complete DNA ‘blueprint’ of an organism – can provide a substantial amount of information about how a particular organism will look. However, this does not give the complete picture: genes can be regulated by other genes or regions of DNA, or by ‘epigenetic’ modifiers – small molecules attached to the DNA that act like switches to turn genes on and off.

Previous studies have suggested that another player in gene regulation may exist: the metabolic network – the biochemical reactions that occur within an organism. These reactions mainly depend on the nutrients a cell has available – the sugars, amino acids, fatty acids and vitamins that are derived from the food we eat.

To examine the scale at which this happens, an international team of researchers, led by Dr Markus Ralser at the University of Cambridge and the Francis Crick Institute, London, addressed the role of metabolism in the most basic functionality of a cell. They did so using yeast cells. Yeast is an ideal model organism for large scale experiments at it is much simpler to manipulate than animal models, yet many of its important genes and fundamental cellular mechanisms are the same as or very similar to those in animals and humans.



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Image: Fruits & Vegetables
Credit: Global Panorama



Reproduced courtesy of the University of Cambridge

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