BACKGROUND AND AIMS: Pyroloids, forest sub-shrubs of the Ericaceae family, are an important model for their mixotrophic nutrition, which mixes carbon from photosynthesis and from their mycorrhizal fungi. They have medical uses but are difficult to cultivate ex situ; in particular, their dust seeds contain undifferentiated, few-celled embryos, whose germination is normally fully supported by fungal partners. Their germination and early ontogenesis thus remain elusive. METHODS: An optimized in vitro cultivation system of five representatives from the subfamily Pyroloideae was developed to study the strength of seed dormancy and the effect of different media and conditions (including light, gibberellins and soluble saccharides) on germination. The obtained plants were analysed for morphological, anatomical and histochemical development. KEY RESULTS: Thanks to this novel cultivation method, which breaks dormancy and achieved up to 100 % germination, leafy shoots were obtained in vitro for representatives of all pyroloid genera (Moneses, Orthilia, Pyrola and Chimaphila). In all cases, the first post-germination stage is an undifferentiated structure, from which a root meristem later emerges, well before formation of an adventive shoot. CONCLUSIONS: This cultivation method can be used for further research or for ex situ conservation of pyroloid species. After strong seed dormancy is broken, the tiny globular embryo of pyroloids germinates into an intermediary zone, which is functionally convergent with the protocorm of other plants with dust seeds such as orchids. Like the orchid protocorm, this intermediary zone produces a single meristem: however, unlike orchids, which produce a shoot meristem, pyroloids first generate a root meristem.

Department of Experimental Plant Biology Faculty of Science Charles University Viničná Prague Czech Republic

Department of Experimental Plant Biology Faculty of Science Charles University Viničná Prague Czech Republic Institut de Systématique Évolution Biodiversité Muséum national d'Histoire naturelle CNRS Sorbonne Université EPHE Paris France

Department of Experimental Plant Biology Faculty of Science Charles University Viničná Prague Czech Republic Prague Botanical Garden Trojská Prague Czech Republic

Institut de Systématique Évolution Biodiversité Muséum national d'Histoire naturelle CNRS Sorbonne Université EPHE Paris France Department of Plant Taxonomy and Nature Conservation University of Gdańsk Wita Stwosza Gdańsk Poland

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