
Humans began sleeping as a way to partly help reduce DNA damage in nerve cells, scientists at Bar-Ilan University in Israel discovered while studying jellyfish and sea anemones.
Researchers reached this conclusion by observing restful behaviors in the upside-down jellyfish Cassiopea andromeda and the starlet sea anemone Nematostella vectensis. The animals are known to have sleep patterns similar to humans, according to a study published in Nature Communications on Jan. 6."These results demonstrate that DNA damage accumulates during wakefulness and decreases during sleep," the researchers added. "Furthermore, these findings suggest that decreasing DNA damage during sleep is an evolutionarily conserved cellular function that may have contributed to the emergence of sleep in early metazoans."
More: How many hours of sleep do I need? The real numbers to know.
Both species sleep for about one-third of the day, irrespective of the timing of daily sleep. Melatonin also promoted sleep in the animals and scientists observed them sleeping at night and taking midday naps.
Though neither species has a brain, they do have neurons and react to light and when presented with food. The animals were observed sleeping in a dark-light environment and awake during the day.
How could scientists determine when the animals were asleep?
To determine when the animals were asleep, researchers measured their pulsation rates. To do that, an infrared camera was used to track the simultaneous behavior of multiple jellyfish during the day and night. The motions were recorded by monitoring the changes in pixel intensity.
Researchers found that when jellyfish pulsed fewer than 37 times per minute for more than 3 minutes, they responded more slowly to stimuli. Based on the biometric data, they used the pulsation rate as an indicator of when the animals were asleep.
What happened when the animals were sleep-deprived?
Sleep deprivation, ultraviolet radiation and mutagens increased neuronal DNA damage and sleep pressure, the study notes. Scientists later found that the sleep-deprived animals slept more than those that had not been sleep-deprived.
More: Scientists plan to save whales by collecting their snot
However, spontaneous and induced sleep promoted genome stability, suggesting that the evolution of sleep may have occurred to repair DNA damage and reduce cellular stress in simple nerve nets.
Researchers discovered that the light/dark cycle and the need to maintain stable conditions regulate sleep in jellyfish, whereas the circadian clock and internal timings primarily regulate sleep in sea anemones.
“We suggest that sleep may have evolved to enable consolidated periods of neural maintenance,” the researchers wrote.
Michelle Del Rey is a trending news reporter at USA TODAY. Reach her at [email protected]
This article originally appeared on USA TODAY: Jellyfish and humans may have one thing in common, new study says
LATEST POSTS
- 1
What happened in 'Wicked' part 1 and will there be a 3rd movie? Recap and what Ariana Grande, Jon M. Chu have said about a sequel. - 2
Cyprus urges hotels to open up, pours funding into tourism - 3
2025 Was Another Exceptionally Hot Year - 4
New Gaza militia declares war on Hamas: 'Your dirty shoes are more honorable' - 5
Figure out How to Explore the Infotainment Framework in the Slam 1500.
Creative Do-It-Yourself Ventures for Each Expertise Level
Becoming the best at Discussion: Individual Procedures
Israel intensifies Lebanon attacks and hits areas not in Hezbollah's control
Exploring the Gig Economy: Illustrations from Consultants
Divorce filings, feuds and legal trouble: The 'Mormon Wives' drama keeps piling up
France to build new nuclear aircraft carrier, Macron says
Vaccine makers raise concerns over US panel's shift away from hepatitis B shots for newborns
One lightly wounded after Iranian missile barrage targets northern Israel
Tech for Wellbeing: Applications and Devices for a Better You













