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RNA base in asteroid samples suggests origins of life on Earth: Study

The black particles from an asteroid some 300 million kilometres away look unremarkable, but they hold a component of life itsel
The black particles from an asteroid some 300 million kilometres away look unremarkable, but they hold a component of life itself.

The black particles from an asteroid some 300 million kilometers away look unremarkable, like pieces of charcoal, but they hold a component of life itself.

Scientists have discovered the chemical compound uracil, one of the building blocks of RNA, in just 10 milligrams of material from the asteroid Ryugu, according to new research published on Tuesday.

The finding lends weight to a longstanding theory that life on Earth may have been seeded from outer space when asteroids crashed into our planet carrying fundamental elements.

It is some of the latest research from analysis of 5.4 grams of rocks and dust gathered by the Hayabusa-2 probe from the asteroid Ryugu.

Hayabusa-2 was launched in 2014 and returned to Earth's orbit in late 2020 with a capsule containing the sample from the asteroid.

The precious cargo was divided between international research teams and has already yielded several insights, including that some of life's building blocks, amino acids, may have been formed in space.

The first drop of water discovered in a near-Earth asteroid has also been found among the samples.

The new research, published Tuesday in the journal Nature Communications, went looking for another foundation of life: the nucleobases of RNA.

While DNA, the famed double helix, functions as a genetic blueprint, single-strand RNA is an all-important messenger, converting the instructions contained in DNA for implementation.

Like DNA, it is made up of bases: adenine, guanine, cytosine, and uracil.

Scientists have previously found some or all of these bases in different asteroids that landed on Earth as meteorites. However, they could not be sure the chemicals came from outer space or were contaminated when they landed.

"Since every meteorite has landed on the surface of the Earth where microorganisms are ubiquitously present everywhere, it always makes the interpretation on the origin of such biologically important molecules in meteorites more complex," said Yasuhiro Oba, associate professor at Hokkaido University and an author of the research.

A long exposure shows the light trail of a re-entry capsule carrying samples from an asteroid on December 6, 2020
A long exposure shows the light trail of a re-entry capsule carrying samples from an asteroid on December 6, 2020.

'Like brewing coffee'

Testing the Ryugu samples was a multi-phase process that began by putting them in hot water, like "brewing coffee or tea", Oba said.

Acid was then applied to extract molecules that were analyzed by extremely sensitive tools capable of detecting the minute quantities of uracil present.

The discovery offers "strong evidence that one of the RNA components has been provided to the Earth even before the emergence of life", Oba told AFP.

"We expect it plays a role for prebiotic evolution and possibly the emergence of the first life," he said.

RNA's other bases were not found in the sample, though Oba believes they could be present at levels too low to be detected with the method used to find uracil.

He hopes to analyze new samples collected from space in coming years, including Osiris-REx's material from the asteroid Bennu, expected to arrive this year.

Yoshinori Takano, a scientist at the Japan Agency for Marine-Earth Science and Technology and author of the Ryugu research, said he was also keenly awaiting the Martian Moons eXploration project, set to launch from Japan next year and return around 2029.

It will collect samples from Phobos, one of the moons of Mars.

"I am sure it will be very hotly watched by organic cosmochemists for the next 10 years," said Takano.

More information: Yasuhiro Oba, Uracil in the carbonaceous asteroid (162173) Ryugu, Nature Communications (2023). DOI: 10.1038/s41467-023-36904-3. www.nature.com/articles/s41467-023-36904-3

Journal information: Nature Communications

© 2023 AFP

Citation: RNA base in asteroid samples suggests origins of life on Earth: Study (2023, March 25) retrieved 7 March 2024 from https://phys.org/news/2023-03-rna-base-asteroid-samples-life.html
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RNA molecule uracil found in asteroid Ryugu samples

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