Cosmic building blocks of life discovered through the electron microscope

Cosmic building blocks of life discovered through the electron microscope

SEM-BSE (back-scattered electron) micrographs at low magnification of typical organic particle morphologies in Winchcombe. Credit: Nature Communications (2024). DOI: 10.1038/s41467-024-45064-x

A team of researchers has examined the Winchcombe meteorite and demonstrated the existence in it of nitrogen compounds such as amino acids and heterocyclic hydrocarbons—without applying any chemical treatment and by using a new type of detector design.

Meteorites are fragments of asteroids that find their way to Earth as shooting stars and provide information on the origins of our solar system. These cosmic sediments have frozen the primordial soup from which our solar system emerged—preserving it just like a . These rocks help researchers to get to the bottom of the origins of matter and of life on Earth.

Working together with British colleagues, Dr. Christian Vollmer from the Institute of Mineralogy at Münster University has examined one of these time capsules, and a very special one—the Winchcombe meteorite. The team of researchers is now the first to demonstrate, to a high degree of precision, the existence of some important in this meteorite with amino acids and heterocyclic hydrocarbons—without applying any chemical treatment, and by using a new type of detector design. The results have been published in the journal Nature Communications.

The Winchcombe meteorite was observed by a camera network in England in February 2021, and it was collected within just a few days. “Normally, meteorites are tracked down in the cold and hot deserts on Earth, where the dry climate means that they don’t weather very fast, but they do change as a result of humidity,” says Christian Vollmer.

“If a meteorite fall is observed soon after the event and the meteorite is quickly collected, as was the case in Winchcombe, they are important ‘witnesses’ for us regarding the birth of our solar system—which makes them especially interesting for research purposes.”

The origins of life on our planet are still shrouded in mystery, and some researchers assume that the first biologically relevant matter was transported to Earth in meteorites over four billion years ago. This matter includes for example complex organic compounds such as or hydrocarbons. However, these molecules have only very low concentrations, and the experts generally have to separate them out from the meteorite by using solvents or acids and then enrich them for analytical purposes.

Christian Vollmer’s team was now the first to be able to demonstrate the existence of these biologically relevant nitrogen compounds in the Winchcombe meteorite without first treating them chemically—although here too the concentrations of these substances are very low. In their work, the researchers used a modern, high-resolution electron microscope such as is found at only a few locations worldwide.

This “super-microscope” at the SuperSTEM laboratory in Daresbury, England not only depicts high-carbon compounds at atomic resolution—it can also analyze the samples chemically by means of a new type of detector.

“Demonstrating the existence of these biologically relevant organic compounds in an untreated is a significant achievement for research,” says Vollmer. “It shows that these building blocks of life can be characterized in these cosmic sediments even without chemical extraction.”

The development is also of great importance because chemical treatment includes the risk of these fragile substances being changed. This is why the applied here to solid matter are potentially also valuable for research on small, extraterrestrial specimens brought back to Earth from —such as the from asteroids recently brought back by the Japanese Space Agency (Hayabusa2) and NASA (OSIRIS-REx).

More information:
Christian Vollmer et al, High-spatial resolution functional chemistry of nitrogen compounds in the observed UK meteorite fall Winchcombe, Nature Communications (2024). DOI: 10.1038/s41467-024-45064-x

Cosmic building blocks of life discovered through the electron microscope (2024, January 29)
retrieved 29 January 2024

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