Abstract
BackgroundThe important phytohormone gibberellins (GAs) play key roles in various developmental processes. GA oxidases (GAoxs) are critical enzymes in GA synthesis pathway, but their classification, evolutionary history and the forces driving the evolution of plant GAox genes remain poorly understood.ResultsThis study provides the first large-scale evolutionary analysis of GAox genes in plants by using an extensive whole-genome dataset of 41 species, representing green algae, bryophytes, pteridophyte, and seed plants. We defined eight subfamilies under the GAox family, namely C19-GA2ox, C20-GA2ox, GA20ox,GA3ox, GAox-A, GAox-B, GAox-C and GAox-D. Of these, subfamilies GAox-A, GAox-B, GAox-C and GAox-D are described for the first time. On the basis of phylogenetic analyses and characteristic motifs of GAox genes, we demonstrated a rapid expansion and functional divergence of the GAox genes during the diversification of land plants. We also detected the subfamily-specific motifs and potential sites of some GAox genes, which might have evolved under positive selection.ConclusionsGAox genes originated very early—before the divergence of bryophytes and the vascular plants and the diversification of GAox genes is associated with the functional divergence and could be driven by positive selection. Our study not only provides information on the classification of GAox genes, but also facilitates the further functional characterization and analysis of GA oxidases.Electronic supplementary materialThe online version of this article (doi:10.1186/s12862-015-0490-2) contains supplementary material, which is available to authorized users.
Highlights
The important phytohormone gibberellins (GAs) play key roles in various developmental processes
Identification and distribution of GA oxidase (GAox) genes in plants Our BLAST search results revealed 854 sequences of GAox homologs from the 41 species with whole genome sequencing data; these represent the main lineages of green plants (Additional file 2: Table S2)
6 putative GAox homologs were found based on the catalytic core amino acid sequences of 2-oxoglutarate-dependent dioxygenase (2OGD) in the carboxyl terminus (Fig. 3)
Summary
The important phytohormone gibberellins (GAs) play key roles in various developmental processes. GAoxs are ubiquitous in vascular plants, but no GAs has ever been isolated and chemically identified from bryophytes [25,26,27,28]. Those authors hypothesized that GAs may have first appeared in ancient pteridophytes and that the hormonal signaling pathway developed later during the evolution of land plants. The pathways leading to production of bioactive GAs have been studied in plants [31,32,33], the evolutionary history of the GA synthetic pathway and its catalyzing enzyme genes, especially of GAox genes remains unclear
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