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Thorén MH, Olsson B, Vonk PJ, Siljestam M, Reimegård J, Ryberg M, Johannesson H
Science 389 (6761) 720-723 [2025-08-14; online 2025-08-14]
In sexual organisms, inheritance of new mutations is highly dependent on the timing of germline definition. Here, we used the fairy ring-forming fungus Marasmius oreades to challenge the general assumption of a late germline separation in the Fungi. We collected mushrooms from different parts of rings over a 7-year period and identified new mutations in different tissues by whole-genome sequencing. We found evidence that fertile and sterile tissues had accumulated different mutations, suggesting that the germ line, destined for spore production, is already defined in the mycelium in this species. Moreover, the germ line carried fewer mutations than sterile tissues, indicating a lower mutation rate. Our findings suggest that early germline sequestration is more widespread than previously considered across multicellular life.
Bioinformatics (NBIS) [Collaborative]
Bioinformatics Support, Infrastructure and Training [Collaborative]
PubMed 40811541
DOI 10.1126/science.adu8580
Crossref 10.1126/science.adu8580