The role of ABC genes in shaping perianth phenotype in the basal angiosperm Magnolia

• Published in: Plant biology (Stuttgart, Germany) Vol. 18; no. 2; pp. 230 - 238
• Main Authors: Wroblewska, M, Dozbasz, A, Zagorska-Marek, B
• Format: Journal Article
• Language: English
• Published: England Blackwell Publishing Ltd 01.03.2016
• Subjects: ABC model; basal angiosperms; Flowers - anatomy & histology; Flowers - genetics; Gene Expression Regulation, Plant; Genes, Plant; MADS-box genes; Magnolia; Magnolia - anatomy & histology; Magnolia - genetics; Magnolia acuminata; Models, Genetic; Organ Specificity - genetics; Phenotype; Plant Stomata - physiology; MADS-box genes; basal angiosperms; Magnolia; ABC model
• ISSN: 1435-8603; 1438-8677
• DOI: 10.1111/plb.12392

It is generally accepted that the genus Magnolia is characterised by an undifferentiated perianth, typically organised into three whorls of nearly identical tepals. In some species, however, we encountered interesting and significant perianth modifications. In Magnolia acuminata, M. liliiflora and M. stellata the perianth elements of the first whorl are visually different from the others. In M. stellata the additional, spirally arranged perianth elements are present above the first three whorls, which suggests that they have been formed within the domain of stamen primordia. In these three species, we analysed expression patterns of the key flower genes (AP1, AGL6, AP3, PI, AG) responsible for the identity of flower elements and correlated them with results of morphological and anatomical investigations. In all studied species the elements of the first whorl lacked the identity of petals (lack of AP3 and PI expression) but also that of leaves (presence of AGL6 expression), and this seems to prove their sepal character. The analysis of additional perianth elements of M. stellata, spirally arranged on the elongated floral axis, revealed overlapping and reduced activity of genes involved in specification of the identity of the perianth (AGL6) but also of generative parts (AG), even though no clear gradient of morphological changes could be observed. In conclusion, Magnolia genus is capable of forming, in some species, a perianth differentiated into a calyx (sepals) and corolla (petals). Spirally arranged, additional perianth elements of M. stellata, despite activity of AG falling basipetally, resemble petals.