Orthrus: a Pumilio-family gene involved in fruiting body and dark stipe development in Coprinopsis cinerea
Benedek Szathmári, Balázs Bálint, Botond Hegedüs, Máté Virágh, Zhihao Hou, Xiao-Bin Liu, Hongli Wu, Csenge Földi, Julien Gagneur, Johann Promeuschel, Árpád Csernetics, László G. Nagy

TL;DR
This paper identifies a gene, ort2, in fungi that plays a role in the development of dark stipes, a light-dependent feature of mushroom fruiting bodies.
Contribution
The study discovers a novel conserved RNA-binding protein, ort2, involved in fruiting body development in fungi.
Findings
Disrupting ort2 in Coprinopsis cinerea leads to a deficiency in dark stipe formation.
Overexpression of ort2 results in significantly more dark stipes and rare branching fruiting body phenotypes.
Phylogenetic analysis shows high conservation of ort2 subfamilies within Agaricomycetes fungi.
Abstract
Fruiting bodies of mushroom-forming fungi (Agaricomycetes) are complex multicellular structures whose formation is regulated by a developmental program that dynamically responds to environmental changes, such as light intensity. However, the genetic architecture and regulation of this developmental program are poorly known. Here, we characterize a novel Pumilio family gene, ort2, which influences fruiting body development, particularly the formation of dark stipes, a light-dependent alternative developmental trajectory. Phylogenetic analysis of this RNA-binding protein family in fungi revealed a distinct subfamily structure, with high conservation of each subfamily within Agaricomycetes. Reverse genetics experiments in the model species Coprinopsis cinerea revealed that ort2 disruptants produced fruiting bodies, but were deficient in dark stipe formation, whereas the overexpression…
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Taxonomy
TopicsFungal Biology and Applications · Protist diversity and phylogeny · Fungal and yeast genetics research
