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[ARTICLE · art-45955] src=arxiv.org ↗ pub= topic=machine-learning verified=true sentiment=↑ positive

ReactionAtlas: Ab origine exploration of chemical reaction networks with machine learning

Researchers introduced ReactionAtlas, a machine learning framework that autonomously constructs chemical reaction networks from seed molecules without hand-crafted rules. Starting from eight pre-biotic seeds, it discovered ~47,000 reactions among ~12,000 compounds, mapping small carbohydrate chemistry up to C4H8O4 with high accuracy. The tool enables novel insights into reaction pathways like the formose cycle, relevant to the origin of life.

read1 min views1 publishedJul 1, 2026

arXiv:2606.30778v1 Announce Type: new Abstract: Mapping a chemical reaction network, the graph of minima and transition states (TS) and the elementary reactions connecting them, is the natural language of chemistry, from catalysis to combustion to the origin of life. Constructing such a reaction network for a given chemistry has been impractical: it requires finding and characterizing tens of thousands of TS, a task for which traditional methods such as density functional theory (DFT) are typically prohibitively slow and require reactant and product as input. We introduce ReactionAtlas, which builds a reaction network $\textit{ab origine}$ from a handful of seed molecules and without hand-crafted rules. Specifically, our machine-learned generative model proposes reactions from kinetically sampled candidate compounds and a DFT-trained machine learned force field (MLFF) filters them to valid TS, the resulting products of which enter the search as new seeds. Starting from eight pre-biotic seeds (CH$_2$O, H$_2$O, OH$^-$, H$_3$O$^+$, CO$_2$, H$_2$CO$_3$, HCO$_3^-$, H), ReactionAtlas discovers $\sim$47,000 reactions among $\sim$12,000 compounds. The MLFF TSs match the PBE0 references within 0.5 \r{A} RMSD in 85% of the cases and can be easily brought to the PBE0 level. Thus, ReactionAtlas maps small carbohydrate chemistry up to C$_4$H$_8$O$_4$ at unprecedented scale and accuracy, including charge and stereo information. It enables novel insights into many well-studied reaction paths, including the formose cycle, which we highlight for its centrality to the chemical origins of life. Notably, our framework also allows establishing alternative reaction pathways for formose chemistry.

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