Origin & Evolution of Life

Persistent Nitrogenase Isotope Signatures Over Two Billion Years Of Engineered Evolution

By Keith Cowing

Status Report

biorxiv.org

June 28, 2025

Filed under biochemistry, biorxiv.org, Biosignatures, enzymes, evolution, genomics, Nitrogenase

Persistent Nitrogenase Isotope Signatures Over Two Billion Years Of Engineered Evolution — N-isotope fractionation values observed in this study compared to the sedimentary δ15N record a, and known ranges of extant microbial biomass b, The sedimentary database includes bulk rock δ15N (dark grey) and kerogen δ15N (light grey), from both marine and nonmarine rocks across a range of very low to moderate metamorphic grades22,39,40. The purple bar in a and b represents the average fractionation signature of all ancestors in this study and is largely coincident with the minimum d15N values seen in the rock record which are presumed to record nitrogen-fixation unaffected by subsequent nitrogen cycling. The partial range of bacterial and fractionation signatures are labeled as the modern range of N-isotopic values41 (see Figure S3 for extended range). — biorxiv.org

Nitrogen isotope fractionation (ε¹⁵N) in sedimentary rocks has provided evidence for biological nitrogen fixation, and thus primary productivity, on the early Earth.

However, the extent to which molecular evolution has influenced the isotopic signatures of nitrogenase, the enzyme that catalyzes the conversion of atmospheric nitrogen (N₂) to bioavailable ammonia, remains unresolved.

Here, we reconstruct and experimentally characterize a library of synthetic ancestral nitrogenase genes, spanning over 2 billion years of evolutionary history. By engineering modern microbes to express these ancient nitrogenases, we assess the resulting ε¹⁵N values under controlled laboratory conditions.

All engineered strains exhibit ε¹⁵N values within a narrow range comparable to that of modern microbes, suggesting that molybdenum (Mo)-dependent nitrogenase has been largely invariant throughout evolutionary time since the origins of this pathway.

These results confirm the robustness of N-isotope biosignatures in the ancient rock record and bolster their utility in the search for life in extraterrestrial environments.

Persistent nitrogenase isotope signatures over two billion years of engineered evolution, biorxiv.org

Astrobiology

Keith Cowing

Explorers Club Fellow, ex-NASA Space Station Payload manager/space biologist, Away Teams, Journalist, Lapsed climber, Synaesthete, Na’Vi-Jedi-Freman-Buddhist-mix, ASL, Devon Island and Everest Base Camp veteran, (he/him) 🖖🏻

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