Sulfur molecules from space may have seeded early life on Earth

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Sulfur molecules from space may have seeded early life on Earth


Alkylsulfonic acids detected in room-temperature residues of the irradiated ices by two-dimensional gas chromatography coupled to time-of-flight mass spectrometry. Gas chromatogram analyses from the a 100 nA SO2/CH4, b 1000 nA SO2/CH4, c 5000 nA SO2/CH4, d 100 nA SO2/CH4/H2O, e 1000 nA SO2/CH4/H2O, and the f 5000 nA SO2/CH4/H2O experiments are shown. The peaks in the chromatograms have been scaled for clarity. Credit: Nature Communications (2024). DOI: 10.1038/s41467-024-48684-5

Important nutrients for the first living organisms on Earth may have come from space, according to new research from the University of Hawaiʻi at Mānoa.

Department of Chemistry scientists discovered that certain sulfur-containing , called alkylsulfonic acids, can form naturally in space without the presence of life and were delivered to Earth by comets and asteroids.

Sulfur-containing organic molecules are essential for life on Earth as they are crucial for many , such as and function, , and cellular respiration to incorporate sulfur.

These organic molecules were created in laboratory simulations that mimic the conditions of interstellar ices found in space. The study also discusses how this discovery could help scientists detect these molecules on comets and asteroids, such as the carbonaceous asteroid Ryugu, providing insights into the that might contribute to the origins of life on Earth.

The work is published in the journal Nature Communications.

“Our discovery highlights the creativity and persistence of scientists in solving long-standing mysteries about life’s beginnings, inspiring curiosity and interest in scientific exploration and research,” said UH Mānoa Professor Ralf I. Kaiser who is one of the study’s authors. “Understanding this process can ignite imaginations about our place in the universe and the origins of life itself.”

“Life as we know it requires sulfur, and ancient water-soluble alkylsulfonic acids are a plausible way to incorporate sulfur into early organisms,” added Mason McAnally, a UH Mānoa chemistry Ph.D. student and lead author.

More information:
Mason McAnally et al, Abiotic formation of alkylsulfonic acids in interstellar analog ices and implications for their detection on Ryugu, Nature Communications (2024). DOI: 10.1038/s41467-024-48684-5

Citation:
Sulfur molecules from space may have seeded early life on Earth (2024, May 30)
retrieved 3 June 2024
from https://phys.org/news/2024-05-sulfur-molecules-space-seeded-early.html

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