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Genetic Variations in the Skin Can Create a Natural Sunscreen
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Genetic Variations in the Skin Can Create a Natural Sunscreen

Genetic Variations in the Skin Can Create a Natural Sunscreen
News

Genetic Variations in the Skin Can Create a Natural Sunscreen

Credit: Daoudi Aissa on Unsplash.
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Genetic variations in the skin can create a natural sunscreen, according to Queensland Brain Institute researchers investigating the genes linked with vitamin D.

Professor John McGrath said this was one of a number of ways vitamin D affected the body in a collaborative study that looked at the genomes of more than half a million people from the United Kingdom.

“This study has implicated several new skin-related genes that impact on our vitamin D status — distinct from skin colour which affects our ability to make vitamin D depending on the concentration of the pigment melanin in the skin,” Professor McGrath said.

“Vitamin D is the sunshine hormone and we need bright sunshine on the skin to make it, but variations in our genes also influence how efficient we are at doing that.

“Our findings suggest that genetic variants in the HAL (histidine ammonia-lyase) gene can vary the concentration of a small molecule in the skin which acts like an internal Sun Protection Factor, or SPF.

This molecule soaks up UVB light – the light our bodies use to make vitamin D — and the amount of it in our skin influences how much of the vitamin we can make.

Professor Naomi Wray from UQ’s Institute for Molecular Bioscience and Queensland Brain Institute said the team found 143 gene locations linked to vitamin D concentration.

“Previously we only knew about six regions, so these findings will provide new insights into how our body handles vitamin D,” Professor Wray said.

“The study has found many interesting new candidates that can help our understanding of factors that influence vitamin D concentration.

“Our findings are a treasure trove of clues which will keep researchers busy for a long time.”

The study supports the hypothesis that low vitamin D may be the consequence of poor health, rather than contributing to the risk.

Reference: Revez et al. (2020). Genome-wide association study identifies 143 loci associated with 25 hydroxyvitamin D concentration. Nature. DOI: https://doi.org/10.1038/s41467-020-15421-7. 


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