Molecular mechanisms of sexual development in basidiomycetes: exploring connections with lifestyles

Dissertação para obtenção do Grau de Doutor em BiologiaThis work concerns the investigation of the molecular mechanisms of sexual reproduction in fungi and their possible implication for fungal lifestyles (parasitic vs. saprobic) and for the emergence of asexual fungal lineages. The association between pathogenicity and sexuality is well-known in the basidiomycete plant parasite Ustilago maydis (subphylum Ustilaginomycotina), an economically important smut fungus. However, Ustilago species are phylogenetically interspersed with species of the genus Pseudozyma, which are considered saprobic and asexual. In this work, a study focused on genes involved in determining sexual identity (mating type or MAT genes), showed that Pseudozyma prolifica retains full sexual competence and pathogenicity, being therefore indistinguishable from U. maydis. For other Pseudozyma species, molecular analyses of PRF1, a gene that encodes a master regulator of sexual reproduction in U. maydis, showed no substantial evidence of loss of sexual reproduction. However, some clues were also found suggesting that some Pseudozyma species may be evolving towards a saprobic lifestyle. The earliest derived lineage of Basidiomycota (subphylum Pucciniomycotina) includes also important plant pathogens (rust and anther smut fungi) as well as lineages composed solely of saprobic organisms. Among the latter, the red yeasts of the order Sporidiobolales have the advantage of completing their life cycle in culture media, but have remained very little explored concerning the characterization of mating systems, the identification of MAT genes and the evolutionary relationships between sexual and asexual species. A comprehensive analysis of more than 200 strains belonging to 32 species of the Sporidiobolales indicated that asexuality seems to originate frequently from sexual lineages, but does not seem to persist long enough to form truly asexual species devoid of MAT genes. A more in-depth investigation of the red yeasts Rhodosporidium toruloides and Sporidiobolus salmonicolor allowed the identification for the first time in the Pucciniomycotina of the complete set of MAT genes. A detailed and multidisciplinary characterization of the mating system in the latter species yielded surprising results. A novel mating system that differs substantially from the two mating paradigms in basidiomycetes, the bipolar and tetrapolar systems, was brought to light. Given the basal phylogenetic position of the Pucciniomycotina within the Basidiomycota, this new system designated pseudo-bipolar, constitutes a significant contribution to the study of the evolution of MAT systems in fungi.Fundação para a Ciência e a Tecnologia - PhD grant(SFRH/BD/29580/2006

Identification of AtHD2C as a novel regulator of ABA signaling in Arabidopsis thaliana

This report describes AtHD2C as a regulator of the ABA controlled events. AtHD2C is a member of the HD2-type histone deacetylase family. Results indicated an overall physiological significance for the HD2 proteins as well as a possible involvement in embryo development. In continuum with this, seeds overexpressing AtHD2C were insensitive to ABA, NaCl and mannitol at germination. This phenotype was supported by ABA-responsive gene expression patterns in the transgenic plants that implicated a negative role for AtHD2C in ABA response regulation in this developmental window. Additionally, the AtHD2C transcript accumulation was down-regulated by ABA that was reflected by the down-regulation of AtHD2C promoter driven GUS. In contrast to its function in the germination-post germination phase, AtHD2C seemed to play a positive role in ABA response regulation during the vegetative stage. AtHD2C overexpressing mature plants were able to survive extreme osmotic shock and drought conditions. The expression of AtHD2C promoter driven GUS in all vegetative tissues confirmed the presence of AtHD2C in this stage. The predominantly closed stomata and up-regulated ABA-responsive genes support the stress-tolerant phenotype of the 35S:AtHD2C transgenic plants. The information obtained from this investigation delineates a dual role for the AtHD2C in the regulation of the ABA response signaling in two developmental stages. (Abstract shortened by UMI.)

Transcriptional Regulation: a Genomic Overview

The availability of the Arabidopsis thaliana genome sequence allows a comprehensive analysis of transcriptional regulation in plants using novel genomic approaches and methodologies. Such a genomic view of transcription first necessitates the compilation of lists of elements. Transcription factors are the most numerous of the different types of proteins involved in transcription in eukaryotes, and the Arabidopsis genome codes for more than 1,500 of them, or approximately 6% of its total number of genes. A genome-wide comparison of transcription factors across the three eukaryotic kingdoms reveals the evolutionary generation of diversity in the components of the regulatory machinery of transcription. However, as illustrated by Arabidopsis, transcription in plants follows similar basic principles and logic to those in animals and fungi. A global view and understanding of transcription at a cellular and organismal level requires the characterization of the Arabidopsis transcriptome and promoterome, as well as of the interactome, the localizome, and the phenome of the proteins involved in transcription

The Mating Type Locus (MAT) and Sexual Reproduction of Cryptococcus heveanensis: Insights into the Evolution of Sex and Sex-Determining Chromosomal Regions in Fungi

Mating in basidiomycetous fungi is often controlled by two unlinked, multiallelic loci encoding homeodomain transcription factors or pheromones/pheromone receptors. In contrast to this tetrapolar organization, Cryptococcus neoformans/Cryptococcus gattii have a bipolar mating system, and a single biallelic locus governs sexual reproduction. The C. neoformans MAT locus is unusually large (>100 kb), contains >20 genes, and enhances virulence. Previous comparative genomic studies provided insights into how this unusual MAT locus might have evolved involving gene acquisitions into two unlinked loci and fusion into one contiguous locus, converting an ancestral tetrapolar system to a bipolar one. Here we tested this model by studying Cryptococcus heveanensis, a sister species to the pathogenic Cryptococcus species complex. An extant sexual cycle was discovered; co-incubating fertile isolates results in the teleomorph (Kwoniella heveanensis) with dikaryotic hyphae, clamp connections, septate basidia, and basidiospores. To characterize the C. heveanensis MAT locus, a fosmid library was screened with C. neoformans/C. gattii MAT genes. Positive fosmids were sequenced and assembled to generate two large probably unlinked MAT gene clusters: one corresponding to the homeodomain locus and the other to the pheromone/receptor locus. Strikingly, two divergent homeodomain genes (SXI1, SXI2) are present, similar to the bE/bW Ustilago maydis paradigm, suggesting one or the other homeodomain gene was recently lost in C. neoformans/C. gattii. Sequencing MAT genes from other C. heveanensis isolates revealed a multiallelic homeodomain locus and at least a biallelic pheromone/receptor locus, similar to known tetrapolar species. Taken together, these studies reveal an extant C. heveanensis sexual cycle, define the structure of its MAT locus consistent with tetrapolar mating, and support the proposed evolutionary model for the bipolar Cryptococcus MAT locus revealing transitions in sexuality concomitant with emergence of a pathogenic clade. These studies provide insight into convergent processes that independently punctuated evolution of sex-determining loci and sex chromosomes in fungi, plants, and animals

A Deviation from the Bipolar-Tetrapolar Mating Paradigm in an Early Diverged Basidiomycete

In fungi, sexual identity is determined by specialized genomic regions called MAT loci which are the equivalent to sex chromosomes in some animals and plants. Usually, only two sexes or mating types exist, which are determined by two alternate sets of genes (or alleles) at the MAT locus (bipolar system). However, in the phylum Basidiomycota, a unique tetrapolar system emerged in which four different mating types are generated per meiosis. This occurs because two functionally distinct molecular recognition systems, each encoded by one MAT region, constrain the selection of sexual partners. Heterozygosity at both MAT regions is a pre-requisite for mating in both bipolar and tetrapolar basidiomycetes. Tetrapolar mating behaviour results from the absence of genetic linkage between the two regions bringing forth up to thousands of mating types. The subphylum Pucciniomycotina, an early diverged lineage of basidiomycetes encompassing important plant pathogens such as the rusts and saprobes like Rhodosporidium and Sporidiobolus, has been so far poorly explored concerning the content and organization of MAT loci. Here we show that the red yeast Sporidiobolus salmonicolor has a mating system unlike any previously described because occasional disruptions of the genetic cohesion of the bipolar MAT locus originate new mating types. We confirmed that mating is normally bipolar and that heterozygosity at both MAT regions is required for mating. However, a laboratory cross showed that meiotic recombination may occur within the bipolar MAT locus, explaining tetrapolar features like increased allele number and evolution rates of some MAT genes. This pseudo-bipolar system deviates from the classical bipolar–tetrapolar paradigm and, to our knowledge, has never been observed before. We propose a model for MAT evolution in the Basidiomycota in which the pseudo-bipolar system may represent a hitherto unforeseen gradual form of transition from an ancestral tetrapolar system to bipolarity

Evidence for maintenance of sex determinants but not of sexual stages in red yeasts, a group of early diverged basidiomycetes

<p>Abstract</p> <p>Background</p> <p>The red yeasts are an early diverged group of basidiomycetes comprising sexual and asexual species. Sexuality is based on two compatible mating types and sexual identity is determined by <it>MAT </it>loci that encode homeodomain transcription factors, peptide pheromones and their receptors. The objective of the present study was to investigate the presence and integrity of <it>MAT </it>genes throughout the phylogenetic diversity of red yeasts belonging to the order Sporidiobolales.</p> <p>Results</p> <p>We surveyed 18 sexual heterothallic and self-fertile species and 16 asexual species. Functional pheromone receptor homologues (<it>STE3.A1 </it>and <it>STE3.A2</it>) were found in multiple isolates of most of the sexual and asexual species. For each of the two mating types, sequence comparisons with whole-genome data indicated that synteny tended to be conserved along the pheromone receptor region. For the homeodomain transcription factor, likelihood methods suggested that diversifying selection acting on the self/non-self recognition region promotes diversity in sexual species, while rapid evolution seems to be due to relaxed selection in asexual strains.</p> <p>Conclusions</p> <p>The majority of both sexual and asexual species of red yeasts have functional pheromone receptors and homeodomain homologues. This and the frequent existence of asexual strains within sexual species, makes the separation between sexual and asexual species imprecise. Events of loss of sexuality seem to be recent and frequent, but not uniformly distributed within the Sporidiobolales. Loss of sex could promote speciation by fostering the emergence of asexual lineages from an ancestral sexual stock, but does not seem to contribute to the generation of exclusively asexual lineages that persist for a long time.</p

Fungal Sex: The Basidiomycota

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Epigenetic aspects of sexual and asexual seed development.

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