Tag Archives: Non-ionising UV light increases the optical density of hygroscopic self assembled DNA crystal films

DNA sunscreen: the longer you wear it, the better it gets due to its sacrificial skin

Using this new sunscreen does mean slathering on salmon sperm, more or lees, (read the Methods section of the academic paper cited later in this post). Considering that you’ve likely eaten (insect parts in chocolate) and slathered on more discomfiting stuff already and this development gives you access to an all natural, highly effective sunscreen, if it ever makes its way out of the laboratory, it might not be so bad. From a July 26, 2017 article by Sarah Knapton for The Telegraph,

Sunscreen made from DNA [deoxyribonucleic acid] which acts like a second skin to prevent sun damage is on the horizon.

Scientists in the US have developed a film from the DNA of salmon which gets better at protecting the skin from ultraviolet light the more it is exposed to the Sun.

It also helps lock in moisture beneath the surface which is usually lost during tanning.

Exciting, yes? A July 27, 2017 Binghamton University news release (also on EurekAlert but dated July 26, 2017) provides more detail,

“Ultraviolet (UV) light can actually damage DNA, and that’s not good for the skin,” said Guy German, assistant professor of biomedical engineering at Binghamton University. “We thought, let’s flip it. What happens instead if we actually used DNA as a sacrificial layer? So instead of damaging DNA within the skin, we damage a layer on top of the skin.”

German and a team of researchers developed thin and optically transparent crystalline DNA films and irradiated them with UV light. They found that the more they exposed the film to UV light, the better the film got at absorbing it.

“If you translate that, it means to me that if you use this as a topical cream or sunscreen, the longer that you stay out on the beach, the better it gets at being a sunscreen,” said German.

As an added bonus, the DNA coatings are also hygroscopic, meaning that skin coated with the DNA films can store and hold water much more than uncoated skin. When applied to human skin, they are capable of slowing water evaporation and keeping the tissue hydrated for extended periods of time.

German intends to see next if these materials might be good as a wound covering for hostile environments where 1) you want to be able to see the wound healing without removing the dressing, 2) you want to protect the wound from the sun and 3) you want to keep the wound in a moist environment, known to promote faster wound healing rates.

“Not only do we think this might have applications for sunscreen and moisturizers directly, but if it’s optically transparent and prevents tissue damage from the sun and it’s good at keeping the skin hydrated, we think this might be potentially exploitable as a wound covering for extreme environments,” he said.

Here’s a link to and a citation for the paper,

Non-ionising UV light increases the optical density of hygroscopic self assembled DNA crystal films by Alexandria E. Gasperini, Susy Sanchez, Amber L. Doiron, Mark Lyles & Guy K. German. Scientific Reports 7, Article number: 6631 (2017) doi:10.1038/s41598-017-06884-8 Published online: 26 July 2017

This paper is open access.