Non‐canonical structure, function and phylogeny of the B sister MADS ‐box gene O s MADS 30 of rice ( O ryza sativa )

Summary B sister MADS ‐box genes play key roles in female reproductive organ and seed development throughout seed plants. This view is supported by their high conservation in terms of sequence, expression and function. In grasses, there are three subclades of B sister genes: the Os MADS 29 ‐, the Os MADS 30 ‐ and the Os MADS 31 ‐like genes. Here, we report on the evolution of the Os MADS 30 ‐like genes. Our analyses indicate that these genes evolved under relaxed purifying selection and are rather weakly expressed. Os MADS 30 , the representative of the Os MADS 30 ‐like genes from rice ( Oryza sativa ), shows strong sequence deviations in its 3′ region when compared to orthologues from other grass species. We show that this is due to a 2.4‐kbp insertion, possibly of a hitherto unknown helitron, which confers a heterologous C‐terminal domain to Os MADS 30 . This putative helitron is not present in the Os MADS 30 orthologues from closely related wild rice species, pointing to a relatively recent insertion event. Unlike other B sister mutants O. sativa plants carrying a T‐ DNA insertion in the Os MADS 30 gene do not show aberrant seed phenotypes, indicating that Os MADS 30 likely does not have a canonical ‘B sister function’. However, imaging‐based phenotyping of the T‐ DNA carrying plants revealed alterations in shoot size and architecture. We hypothesize that sequence deviations that accumulated during a period of relaxed selection in the gene lineage that led to Os MADS 30 and the alteration of the C‐terminal domain might have been a precondition for a potential neo‐functionalization of Os MADS 30 in O. sativa .