A Floricaula/Leafy gene homolog is preferentially expressed in developing female cones of the tropical pine Pinus caribaea var. caribaea

Dornelas, Marcelo Carnier; Martinelli, Adriana Pinheiro

doi:10.1590/s1415-47572005000200021

Cited by 39 publications

(18 citation statements)

References 40 publications

(71 reference statements)

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“…LEAFY has been identified primarily with the specification of floral meristems in angiosperms, since loss-of-function alleles result in a partial loss of floral meristem identity and gain-of-function alleles cause inflorescence meristems to differentiate as floral meristems (Coen et al 1990;Weigel et al 1992;Weigel and Nilsson 1995). Thus, in angiosperms, LEAFY is thought to regulate the transition from vegetative growth to reproductive growth by directly or indirectly regulating the transcription of the ABC floral organ identity genes in angiosperms, and its expression pattern in gymnosperms is consistent with a similar role in these taxa (Lee et al 1997;Mouradov et al 1998a;Parcy et al 1998;Busch et al 1999;Frohlich and Parker 2000;Shindo et al 2001;Dornelas and Rodriguez 2005). In a limited phylogenetic context, LEAFY also regulates complexity of leaf development in some legumes (Hofer et al 1997).…”

Section: Leafymentioning

confidence: 94%

The Ancestral Developmental Tool Kit of Land Plants

Floyd

Bowman

2007

International Journal of Plant Sciences

245

206

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JSTOR is a not-for-profit service that helps scholars, researchers, and students discover, use, and build upon a wide range of content in a trusted digital archive. We use information technology and tools to increase productivity and facilitate new forms of scholarship. For more information about JSTOR, please contact support@jstor.org.. The University of Chicago Press is collaborating with JSTOR to digitize, preserve and extend access to International Journal of Plant Sciences.The origin of land plants from aquatic ancestors and their subsequent evolutionary radiation was due to major modifications in an ancestral developmental program allowing for plants of increasing complexity and stature. By comparing the developmental programs in different kinds of plants, we can understand how developmental differences lead to morphological differences. The ability to dissect the developmental genetic pathways of model angiosperm taxa such as Arabidopsis and maize has revealed many important developmental gene families that comprise the tool kit for flowering plant growth, patterning, and differentiation. This knowledge has been used to a limited extent as the basis for candidate gene approaches to explore the distribution and expression/function of a few developmental gene families in other flowering plants, gymnosperms, and to some extent, more distantly related plants. With the addition of nearly complete sequenced genomes for the moss Physcomitrella and the lycophyte Selaginella, comparisons of many more gene families are becoming possible. We performed searches of the unassembled Physcomitrella and Selaginella genomic sequences for some key developmental families. We combine these new data with information available in the literature from candidate gene approaches and present a first estimate of a suite of developmental genes that may have comprised the ancestral patterning tool kit of land plants. We conclude that the genome of the earliest embryophytes encoded homologues of many of the important developmental genes that have been identified in model angiosperm taxa, but the roles of these were probably somewhat different than the roles attributed to them in Arabidopsis and maize. Developmental gene families have diversified during land plant evolution, and genome complexity may correlate well with phylogenetic position.

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Section: Leafymentioning

confidence: 94%

The Ancestral Developmental Tool Kit of Land Plants

Floyd

Bowman

2007

International Journal of Plant Sciences

245

206

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“…Species of Pinus, Welwitschia, and Ginkgo contain two LEAFY homologues, and early data suggested that the angiosperm sequence was most similar to a male-specific gymnosperm copy. However, more recent data have shown that both gymnosperm genes can have mixed expression patterns (Dornelas and Rodriguez 2005;Vázquez-Lobo et al 2007;Shindo et al 2010). Although further analysis has not supported the molecular genetic basis of the mostly male hypothesis, it is an important example of an early effort to use comparative developmental genetic data to inform evolutionary theory.…”

Section: The Origin Of the Flower Itselfmentioning

confidence: 99%

How Have Advances in Comparative Floral Development Influenced Our Understanding of Floral Evolution?

Glover¹,

Airoldi²,

Fernández‐Mazuecos³

et al. 2015

International Journal of Plant Sciences

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Editor: Patrick S. HerendeenEvolutionary developmental biology has come to prominence in the past two decades, in both the plant kingdom and the animal kingdom, particularly following the description of homeotic genes linked to key morphological transitions. A primary goal of evolutionary developmental biology ("evo-devo") is to define how developmental programs are modified to generate novel or labile morphologies. This requires an understanding of the molecular genetic basis of these programs and of the evolutionary changes they have undergone. The past decade has seen the establishment of a common language and common standards, and these changes have greatly improved the integration of evo-devo. Recently, a more comparative approach has been added to mechanistic developmental biology. In this review we attempt to show how, by using this "next-generation evo-devo" approach, insights into both developmental biology and evolutionary biology can be gained. Although the concepts we discuss are more broadly applicable, we have focused our examples on traits of the angiosperm flower, a structure that has undergone enormous morphological and developmental evolution since its relatively recent appearance in the fossil record.

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“…LFY ‐like genes are expressed in the developing GRS of all gymnosperms studied to date, consistent with a role for these genes in reproductive development (Mellerowicz et al ., ; Mouradov et al ., ; Shindo et al ., ; Carlsbecker et al ., ; Dornelas & Rodriguez, ; Guo et al ., ; Shiokawa et al ., ). A recent study in Norway spruce provides further support for a role of LFY‐like proteins in reproductive initiation: in the acrocona mutant, vegetative shoots can develop into female cones and this vegetative‐to‐reproductive transition correlates with an upregulation of LFY ‐like genes (Carlsbecker et al ., ).…”

Section: Introductionmentioning

confidence: 99%

A link between LEAFY and B‐gene homologues in Welwitschia mirabilis sheds light on ancestral mechanisms prefiguring floral development

et al. 2017

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Flowering plants evolved from an unidentified gymnosperm ancestor. Comparison of the mechanisms controlling development in angiosperm flowers and gymnosperm cones may help to elucidate the mysterious origin of the flower. We combined gene expression studies with protein behaviour characterization in Welwitschia mirabilis to test whether the known regulatory links between LEAFY and its MADS-box gene targets, central to flower development, might also contribute to gymnosperm reproductive development. We found that WelLFY, one of two LEAFY-like genes in Welwitschia, could be an upstream regulator of the MADS-box genes APETALA3/PISTILLATA-like (B-genes). We demonstrated that, even though their DNA-binding domains are extremely similar, WelLFY and its paralogue WelNDLY exhibit distinct DNA-binding specificities, and that, unlike WelNDLY, WelLFY shares with its angiosperm orthologue the capacity to bind promoters of Welwitschia B-genes. Finally, we identified several cis-elements mediating these interactions in Welwitschia and obtained evidence that the link between LFY homologues and B-genes is also conserved in two other gymnosperms, Pinus and Picea. Although functional approaches to investigate cone development in gymnosperms are limited, our state-of-the-art biophysical techniques, coupled with expression studies, provide evidence that crucial links, central to the control of floral development, may already have existed before the appearance of flowers.

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A Floricaula/Leafy gene homolog is preferentially expressed in developing female cones of the tropical pine Pinus caribaea var. caribaea

Cited by 39 publications

References 40 publications

The Ancestral Developmental Tool Kit of Land Plants

The Ancestral Developmental Tool Kit of Land Plants

How Have Advances in Comparative Floral Development Influenced Our Understanding of Floral Evolution?

A link between LEAFY and B‐gene homologues in Welwitschia mirabilis sheds light on ancestral mechanisms prefiguring floral development

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