Your search keyword '"Gunnerales"' showing total 2 results

1. Gamma Paleohexaploidy in the Stem Lineage of Core Eudicots: Significance for MADS-Box Gene and Species Diversification

Author

Dries Vekemans, Koen Geuten, Sebastian Proost, Philip Ruelens, Yves Van de Peer, Steven Maere, Heleen Coenen, Tom Viaene, and Kevin Vanneste

Subjects

Lineage (evolution), Molecular Sequence Data, MADS Domain Proteins, Evolution, Molecular, Polyploidy, Magnoliopsida, Open Reading Frames, Phylogenetics, Gunnerales, Botany, Genetics, Cloning, Molecular, Inflorescence, Eudicots, Molecular Biology, Phylogeny, Ecology, Evolution, Behavior and Systematics, Buxales, MADS-box, DNA Primers, Likelihood Functions, Base Sequence, Models, Genetic, biology, Phylogenetic tree, Gene Expression Profiling, Sequence Analysis, DNA, biology.organism_classification, Paleopolyploidy, Evolutionary biology, Sequence Alignment, Genome, Plant

Abstract

Comparative genome biology has unveiled the polyploid origin of all angiosperms and the role of recurrent polyploidization in the amplification of gene families and the structuring of genomes. Which species share certain ancient polyploidy events, and which do not, is ill defined because of the limited number of sequenced genomes and transcriptomes and their uneven phylogenetic distribution. Previously, it has been suggested that most, but probably not all, of the eudicots have shared an ancient hexaploidy event, referred to as the gamma triplication. In this study, detailed phylogenies of subfamilies of MADS-box genes suggest that the gamma triplication has occurred before the divergence of Gunnerales but after the divergence of Buxales and Trochodendrales. Large-scale phylogenetic and K(S)-based approaches on the inflorescence transcriptomes of Gunnera manicata (Gunnerales) and Pachysandra terminalis (Buxales) provide further support for this placement, enabling us to position the gamma triplication in the stem lineage of the core eudicots. This triplication likely initiated the functional diversification of key regulators of reproductive development in the core eudicots, comprising 75% of flowering plants. Although it is possible that the gamma event triggered early core eudicot diversification, our dating estimates suggest that the event occurred early in the stem lineage, well before the rapid speciation of the earliest core eudicot lineages. The evolutionary significance of this paleopolyploidy event may thus rather lie in establishing a species lineage that was resilient to extinction, but with the genomic potential for later diversification. We consider that the traits generated from this potential characterize extant core eudicots both chemically and morphologically.

Published

2012

2. Intra-individual variation of flowers inGunnerasubgenusPanke(Gunneraceae) and proposed apomorphies for Gunnerales

Author

María Angélica Bello and Favio González

Subjects

Gunneraceae, Pseudanthium, biology, Gunnerales, Botany, Merosity, Petal, Plant Science, Perianth, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Sepal, Gunnera

Abstract

A study of inflorescence and flower development in 12 species from four of the six subgenera of Gunnera (Gunneraceae) was carried out. In the species of subgenus Panke, initiation of floral apices along the partial inflorescences is acropetal but ends up in the late formation of a terminal flower, forming a cyme at maturity. The terminal flower is the largest and the most complete in terms of merosity and number of whorls and thus it is the most diagnostic in terms of species-level taxonomy. The lateral flowers undergo a basipetal gradient of organ reduction along the inflorescence, ranging from bisexual flowers (towards the distal region) to functionally (i.e. with staminodia) and structurally female flowers (towards the proximal region). Our results show that the terminal structure in Gunnera is a flower rather than a pseudanthium. The terminal flower is disymmetric, dimerous and bisexual, representing the common bauplan for Gunnera flowers. It has a differentiated perianth with two sepals and two alternate petals, the latter opposite the stamens and carpels. Comparisons with other members of the core eudicots with labile floral construction are addressed. We propose vegetative and floral putative synapomorphies for the sister-group relationship between Gunneraceae and Myrothamnaceae. © 2009 The Linnean Society of London, Botanical Journal of the Linnean Society, 2009, 160, 262–283.

Published

2009