Hidden chemical patterns may reveal signs of alien life

May 12, 2026

由 AI 报道

Researchers have identified a statistical signature in organic molecules that distinguishes biological from nonbiological chemistry, offering a new tool for detecting extraterrestrial life. The approach analyzes the distribution of amino acids and fatty acids without needing specialized instruments. It could apply to data from ongoing and future space missions.

A study published in Nature Astronomy shows that living systems produce distinct organizational patterns in certain molecules. Amino acids from biological sources tend to be more varied and evenly distributed, while fatty acids from nonliving processes show greater uniformity. Scientists adapted statistical methods from ecology to measure richness and evenness in these compounds across nearly 100 datasets from microbes, meteorites, fossils, and lab samples.

New method uses amino acid reactivity to detect alien life

Scientists have developed a test based on the reactivity of amino acids that could identify alien life differing from Earth-based organisms. The approach analyzes molecular energy differences to distinguish living from non-living samples with high accuracy. This tool may aid future missions to Mars or Saturn's moons.

Scientists propose detecting alien life via planetary patterns

April 15, 2026 由 AI 报道

A team of researchers has introduced a new method to detect extraterrestrial life by identifying statistical patterns across multiple planets rather than focusing on individual worlds. Led by Harrison B. Smith and Lana Sinapayen, the approach relies on life's potential to spread between planets and alter their environments. This 'agnostic biosignature' could help prioritize observations amid limited telescope time.

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Researchers propose glow-in-the-polymer approach to track microplastics inside living organisms

Scientists discover protist with unusual genetic code

Researchers at the Earlham Institute have identified a previously unknown protist species that reassigns two genetic stop codons to code for amino acids instead, marking a rare departure from the standard rules of life.

UC Berkeley scientists discover microbe with ambiguous genetic code

February 28, 2026 由 AI 报道

Researchers at the University of California, Berkeley have identified a methane-producing archaeon that interprets a standard stop codon in two ways, challenging a core principle of biology. The microbe, Methanosarcina acetivorans, sometimes adds an amino acid called pyrrolysine instead of halting protein synthesis. This flexibility may aid in metabolizing compounds linked to human health.

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