Characterization of an AGAMOUS homologue from the conifer black spruce ( Picea mariana ) that produces floral homeotic conversions when expressed in Arabidopsis

Advances in elucidating the molecular processes controlling flower initiation and development have provided unique opportunities to investigate the developmental genetics of non-flowering plants. In addition to providing insights into the evolutionary aspects of seed plants, identification of genes regulating reproductive organ development in gymnosperms could help determine the level of homology with current models of flower induction and floral organ identity. Based upon this, we have searched for putative developmental regulators in conifers with amino acid sequence homology to MADS-box genes. PCR cloning using degenerate primers targeted to the MADS-box domain revealed the presence of over 27 MADS-box genes within black spruce (Picea mariana), including several with extensive homology to either AP1 or AGAMOUS, both known to regulate flower development in Arabidopsis. This indicates that like angiosperms, conifers contain a large and diverse MADS-box gene family that probably includes regulators of reproductive organ development. Confirmation of this was provided by the characterization of an AGAMOUS-like cDNA clone called SAG1, whose conservation of intron position and tissue-specific expression within reproductive organs indicate that it is a homologue of AGAMOUS. Functional homology with AGAMOUS was demonstrated by the ability of SAG1 to produce homeotic conversions of sepals to carpels and petals to stamens when ectopically expressed in transgenic Arabidopsis. This suggests that some of the genetic pathways controlling flower and cone development are homologous, and antedate the 300-million-year-old divergence of angiosperms and gymnosperms.     

Expression of floral MADS-box genes in Sinofranchetia chinensis (Lardizabalaceae): implications for the nature of the nectar leaves

Background and Aims

The perianths of the Lardizabalaceae are diverse. The second-whorl floral organs of Sinofranchetia chinensis (Lardizabalaceae) are nectar leaves. The aim of this study was to explore the nature of this type of floral organ, and to determine its relationship to nectar leaves in other Ranunculales species, and to other floral organs in Sinofranchetia chinensis.

Methods

Approaches of evolutionary developmental biology were used, including 3′ RACE (rapid amplification of cDNA ends) for isolating floral MADS-box genes, phylogenetic analysis for reconstructing gene evolutionary history, in situ hybridization and tissue-specific RT-PCR for identifying gene expression patterns and SEM (scanning electron microscopy) for observing the epidermal cell morphology of floral organs.

Key Results

Fourteen new floral MADS-box genes were isolated from Sinofranchetia chinensis and from two other species of Lardizabalaceae, Holboellia grandiflora and Decaisnea insignis. The phylogenetic analysis of AP3-like genes in Ranunculales showed that three AP3 paralogues from Sinofranchetia chinensis belong to the AP3-I, -II and -III lineages. In situ hybridization results showed that SIchAP3-3 is significantly expressed only in nectar leaves at the late stages of floral development, and SIchAG, a C-class MADS-box gene, is expressed not only in stamens and carpels, but also in nectar leaves. SEM observation revealed that the adaxial surface of nectar leaves is covered with conical epidermal cells, a hallmark of petaloidy.

Conclusions

The gene expression data imply that the nectar leaves in S. chinensis might share a similar genetic regulatory code with other nectar leaves in Ranunculales species. Based on gene expression and morphological evidence, it is considered that the nectar leaves in S. chinensis could be referred to as petals. Furthermore, the study supports the hypothesis that the nectar leaves in some Ranunculales species might be derived from stamens.     

The PI/GLO-like locus in orchids: duplication and purifying selection at synonymous sites within Orchidinae (Orchidaceae)

Positive selection and relaxation of purifying constraints after duplication events have driven the functional diversification of gene families involved in development. One example of this occurred within the plant MADS-box genes. The evolution of the orchid flower was driven by duplication events followed by sub- and neo-functionalization of class B DEF-like MADS-box genes, which are present at three to four copies in the orchid genome. In contrast, the orchid PI/GLO-like class B MADS-box genes have been reported thus far as single-copy loci, with the only exception of Habenaria radiata.We isolated a novel PI/GLO-like gene (OrcPI2) in Orchis italica, which is different than the previously characterized OrcPI locus. The presence of two functional paralogs of PI/GLO-like genes in orchids is detectable only within the tribe Orchidinae. Evolutionary analyses revealed an apparent relaxation of purifying selection acting on the two PI/GLO-like paralogs of the Orchidinae when compared to the single-copy PI/GLO-like genes found in other orchid species. Furthermore, by measuring dN/dS (ω) ratios, we show that a high percentage of sites between the two PI/GLO-like paralogs have different evolutionary pressures. Interestingly, the apparent relaxation of selective constraints on the two PI/GLO-like paralogs is due to strong purifying selection at synonymous sites rather than to a high value of nonsynonymous substitution rate. This peculiar evolutionary pattern might be related to molecular processes such as mRNA folding and/or translational efficiency control. These processes could potentially be involved in or predate the functional diversification of the two PI/GLO-like paralogs within Orchidinae.     

芒果MSOC1基因的克隆与表达分析

MADS-box转录因子在多种植物的发育过程、特别是花器官的发育过程中发挥着重要的作用。为研究MADS-box转录因子在芒果花器官发育中的作用,利用RT-PCR和RACE技术分离到1个芒果的SOC1基因,命名为MSOC1(GenBank登录号为KP404094)。MSOC1编码区为733bp,编码223个氨基酸,蛋白质相对分子质量为25.6kD,理论等电点为8.96。序列比对和系统进化树分析表明,MSOC1具有保守的MADS-box及半保守的K区,属于MADS-box家族SOC1/TM3亚家族。组织特异性表达分析表明,MSOC1基因在芒果各个组织部位均有表达,但在茎、叶和花芽中表达量高,而在根和花中表达量低。