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Small heat shock proteins (sHsps) are molecular chaperones of low molecular weight involved in an early association with misfolded proteins. In response to heat shock, B. emersonii induces the synthesis of a number of proteins. As sHsps are still poorly studied in B. emersonii and in fungi overall, the aim of this work was to carry out a in-depth characterization of sHsps during B. emersonni life cycle, as well as in response to thermal stress. We verified a strong induction of the hsp17 gene in cells exposed to heat shock both in germination and sporulation stages, and that Hsp17 protein levels show the same pattern of variation of its mRNA. Unlike hsp17 and hsp30, hsp16 gene is not significantly induced during heat shock, in germination or sporulation cells. However, at normal temperatures, the hsp16 gene presents high mRNA levels in sporulation cells, whereas the hsp30 gene presents high mRNA levels in germination cells. Interestingly, heat shock mRNA levels for hsp17 and hsp30 genes are 10 times higher in germination cells than in sporulation cells. Thus, our data show that the expression of these sHsp genes is quite distinct, both under normal temperature as during heat shock.

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Blastocladiella emersonii is an interesting model for studding the evolution of cell differentiation in eukaryotic cell because of its taxonomic position towards the base of the fungal phylogenetic tree and because it undergoes radical morphological and biochemical changes throughout its life cycle. In this work, we biochemically characterized a high alkaline phosphotyrosine phosphatase activity present on the cell surface (ectophosphatase) of B. emersonii. The ectophosphatase activity was strongly inhibited at acidic pH values as well as by specific phosphatase inhibitors, such as sodium orthovanadate and bpv-PHEN. In addition, the enzyme activity was modulated by the extracellular concentration of inorganic phosphate (Pi) present in both reaction mixture and culture medium. Phosphotyrosine was hydrolysed at the same extent of its analog, p-NPP, while the hydrolysis of phosphothreonine was 2-fold lower, suggesting that a phosphotyrosine ectophosphatase activity is present on the cell surface of B. emersonii. The ectophosphatase activity was also strongly inhibited by EGTA, indicating the participation of Ca2+ ions on catalysis. The hydrolysis of p-NPP was differentially regulated throughout the B. emersonii life cycle, suggesting that the ectophosphatase activity could be involved in cell differentiation processes. In support of this, the addition of bpv-PHEN or vanadate at the beginning of germination inhibited the differentiation of zoospores to germ cells, compared to control or tartrate-treated cells. On the other hand, if the inhibitors are added 15 or 30 min after initiation of germination the inhibitory effect on zoospore germination decreases significantly, suggesting that the phosphotyrosine ectophosphatase activity is important at the first minutes of germination. The addition of vanadate, molybdate and bpv-PHEN during vegetative growth inhibited the enlargement of the cells compared to control or tartrate-treated cells. Finally, vanadate or bpv-PHEN added during sporulation strongly inhibited zoospore biogenesis, indicating an important role of such ectophosphatases in this differentiation process. Taken together, these data show the existence of a high alkaline ectophosphotyrosine phosphatase activity in B. emersonii that is probably tied to cell differentiation processes of the fungus.

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The model yeast Saccharomyces cerevisiae elicits a transcriptional response to phosphate (Pi) depletion. To determine the origins of the phosphate response (PHO) system, we bioinformatically identified putative PHO components in the predicted proteomes of diverse fungi. Our results suggest that the PHO system is ancient; however, components have been expanded or lost in different fungal lineages. To show that a similar physiological response is present in deeply-diverging fungi we examined the transcriptional and physiological response of PHO genes to Pi depletion in the blastocladiomycete Blastocladiella emersonii. Our physiological experiments indicate that B. emersonii relies solely on high-affinity Na+-independent Pho84-like transporters. In response to Pi depletion, BePho84 paralogues were 4-8-fold transcriptionally upregulated, whereas several other PHO homologues like phosphatases and vacuolar transporter chaperone (VTC) complex components show 2-3-fold transcriptional upregulation. Since Pi has been shown to be important during the development of B. emersonii, we sought to determine if PHO genes are differentially regulated at different lifecycle stages. We demonstrate that a similar set of PHO transporters and phosphatases are upregulated at key points during B. emersonii development. Surprisingly, some genes upregulated during Pi depletion, including VTC components, are repressed at these key stages of development indicating that PHO genes are regulated by different pathways in different developmental and environmental situations. Overall, our findings indicate that a complex PHO network existed in the ancient branches of the fungi, persists in diverse extant fungi, and that this ancient network is likely to be involved in development and cell cycle regulation.

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Blastocladiomycota fungi form motile zoospores that are guided by sensory photoreceptors to areas of optimal light conditions. We showed that the microbial rhodopsin of Blastocladiella emersonii is a rhodopsin-guanylyl cyclase (RhGC), a member of a previously uncharacterized rhodopsin class of light-activated enzymes that generate the second messenger cyclic guanosine monophosphate (cGMP). Upon application of a short light flash, recombinant RhGC converted within 8 ms into a signaling state with blue-shifted absorption from which the dark state recovered within 100 ms. When expressed in Xenopus oocytes, Chinese hamster ovary cells, or mammalian neurons, RhGC generated cGMP in response to green light in a light dose-dependent manner on a subsecond time scale. Thus, we propose RhGC as a versatile tool for the optogenetic analysis of cGMP-dependent signaling processes in cell biology and the neurosciences.

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Sensing light is the fundamental property of visual systems, with vision in animals being based almost exclusively on opsin photopigments [1]. Rhodopsin also acts as a photoreceptor linked to phototaxis in green algae [2, 3] and has been implicated by chemical means as a light sensor in the flagellated swimming zoospores of the fungus Allomyces reticulatus [4]; however, the signaling mechanism in these fungi remains unknown. Here we use a combination of genome sequencing and molecular inhibition experiments with light-sensing phenotype studies to examine the signaling pathway involved in visual perception in the closely related fungus Blastocladiella emersonii. Our data show that in these fungi, light perception is accomplished by the function of a novel gene fusion (BeGC1) of a type I (microbial) rhodopsin domain and guanylyl cyclase catalytic domain. Photobleaching of rhodopsin function prevents accumulation of cGMP levels and phototaxis of fungal zoospores exposed to green light, whereas inhibition of guanylyl cyclase activity negatively affects fungal phototaxis. Immunofluorescence microscopy localizes the BeGC1 protein to the external surface of the zoospore eyespot positioned close to the base of the swimming flagellum [4, 5], demonstrating this is a photoreceptive organelle composed of lipid droplets. Taken together, these data indicate that Blastocladiomycota fungi have a cGMP signaling pathway involved in phototaxis similar to the vertebrate vision-signaling cascade but composed of protein domain components arranged as a novel gene fusion architecture and of distant evolutionary ancestry to type II rhodopsins of animals.

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The cell cycle is controlled by numerous mechanisms that ensure correct cell division. If growth is not possible, cells may eventually promote autophagy, differentiation, or apoptosis. Microorganisms interrupt their growth and differentiate under general nutrient limitation. We analyzed the effects of phosphate limitation on growth and sporulation in the chytridiomycete Blastocladiella emersonii using kinetic data, phase-contrast, and laser confocal microscopy. Under phosphate limitation, zoospores germinated and subsequently formed 2-4 spores, regardless of the nutritional content of the medium. The removal of phosphate at any time during growth induced sporulation of vegetative cells. If phosphate was later added to the same cultures, growth was restored if the cells were not yet committed to sporulation. The cycles of addition and withdrawal of phosphate from growth medium resulted in cycles of germination-growth, germination-sporulation, or germination-growth-sporulation. These results show that phosphate limitation is sufficient to interrupt cell growth and to induce complete sporulation in B. emersonii. We concluded that the determination of growth or sporulation in this microorganism is linked to phosphate availability when other nutrients are not limiting. This result provides a new tool for the dissection of nutrient-energy and signal pathways in cell growth and differentiation.

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Agrobacterium tumefaciens is widely used for plant DNA transformation and more recently, has also been used to transform yeast, filamentous fungi and even human cells. Using this technique, we developed the first transformation protocol for the saprobic aquatic fungus Blastocladiella emersonii, a Blastocladiomycete localized at the base of fungal phylogenetic tree, which has been shown as a promising and interesting model of study of cellular function and differentiation. We constructed binary T-DNA vectors containing hygromycin phosphotransferase (hph) or enhanced green fluorescent protein (egfp) genes, under the control of Aspergillus nidulans trpC promoter and terminator sequences. 24 h of co-cultivation in induction medium (IM) agar plates, followed by transfer to PYG-agar plates containing cefotaxim to kill Agrobacterium tumefsciens and hygromycin to select transformants, resulted in growth and sporulation of resistant transformants. Genomic DNA from the pool o resistant zoospores were shown to contain T-DNA insertion as evidenced by PCR amplification of hph gene. Using a similar protocol we could also evidence the expression of enhanced green fluorescent protein (EGFP) in zoospores derived from transformed cells. This protocol can also open new perspectives for other non-transformable closely related fungi, like the Chytridiomycete class.

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Global gene expression analysis was carried out with Blastocladiella emersonii cells subjected to oxygen deprivation (hypoxia) using cDNA microarrays. In experiments of gradual hypoxia (gradual decrease in dissolved oxygen) and direct hypoxia (direct decrease in dissolved oxygen), about 650 differentially expressed genes were observed. A total of 534 genes were affected directly or indirectly by oxygen availability, as they showed recovery to normal expression levels or a tendency to recover when cells were reoxygenated. In addition to modulating many genes with no putative assigned function, B. emersonii cells respond to hypoxia by readjusting the expression levels of genes responsible for energy production and consumption. At least transcriptionally, this fungus seems to favor anaerobic metabolism through the upregulation of genes encoding glycolytic enzymes and lactate dehydrogenase and the downregulation of most genes coding for tricarboxylic acid (TCA) cycle enzymes. Furthermore, genes involved in energy-costly processes, like protein synthesis, amino acid biosynthesis, protein folding, and transport, had their expression profiles predominantly downregulated during oxygen deprivation, indicating an energy-saving effort. Data also revealed similarities between the transcriptional profiles of cells under hypoxia and under iron(II) deprivation, suggesting that Fe(2+) ion could have a role in oxygen sensing and/or response to hypoxia in B. emersonii. Additionally, treatment of fungal cells prior to hypoxia with the antibiotic geldanamycin, which negatively affects the stability of mammalian hypoxia transcription factor HIF-1alpha, caused a significant decrease in the levels of certain upregulated hypoxic genes.

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BACKGROUND: Exposure of cells to environmental stress conditions can lead to the interruption of several intracellular processes, in particular those performed by macromolecular complexes such as the spliceosome. RESULTS: During nucleotide sequencing of cDNA libraries constructed using RNA isolated from B. emersonii cells submitted to heat shock and cadmium stress, a large number of ESTs with retained introns was observed. Among the 6,350 ESTs obtained through sequencing of stress cDNA libraries, 181 ESTs presented putative introns (2.9%), while sequencing of cDNA libraries from unstressed B. emersonii cells revealed only 0.2% of ESTs containing introns. These data indicate an enrichment of ESTs with introns in B. emersonii stress cDNA libraries. Among the 85 genes corresponding to the ESTs that retained introns, 19 showed more than one intron and three showed three introns, with intron length ranging from 55 to 333 nucleotides. Canonical splicing junctions were observed in most of these introns, junction sequences being very similar to those found in introns from genes previously characterized in B. emersonii, suggesting that inhibition of splicing during stress is apparently a random process. Confirming our observations, analyses of gpx3 and hsp70 mRNAs by Northern blot and S1 protection assays revealed a strong inhibition of intron splicing in cells submitted to cadmium stress. CONCLUSION: In conclusion, data indicate that environmental stresses, particularly cadmium treatment, inhibit intron processing in B. emersonii, revealing a new adaptive response to cellular exposure to this heavy metal.

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Blastocladiella emersonii is an aquatic fungus of the Chytridiomycete class. During germination, the zoospore, a motile nongrowing cell, goes through a cascade of morphological changes that culminates with its differentiation into the germling cell, capable of coenocytic vegetative growth. Transcriptome analyses of B. emersonii cells were carried out during germination induced under various environmental conditions. Microarray data analyzing 3,563 distinct B. emersonii genes revealed that 26% of them are differentially expressed during germination in nutrient medium at at least one of the time points investigated. Over 500 genes are upregulated during the time course of germination under those conditions, most being related to cell growth, including genes involved in protein biosynthesis, DNA transcription, energetic metabolism, carbohydrate and oligopeptide transport, and cell cycle control. On the other hand, several transcripts stored in the zoospores are downregulated during germination in nutrient medium, such as genes involved in signal transduction, amino acid transport, and chromosome organization. In addition, germination induced in the presence of nutrients was compared with that triggered either by adenine or potassium ions in inorganic salt solution. Several genes involved in cell growth, induced during germination in nutrient medium, do not show increased expression when B. emersonii zoospores germinate in inorganic solution, suggesting that nutrients exert a positive effect on gene transcription. The transcriptome data also revealed that most genes involved in cell signaling show the same expression pattern irrespective of the initial germination stimulus.

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Neste trabalho realizamos a análise das variações na expressão gênica global do fungo aquático Blastocladiella emersonii submetido ao estresse de carência de oxigênio (hipóxia), utilizando a técnica de microarranjos de cDNA em lâminas contendo 3773 genes distintos. Nos experimentos de hipóxia gradual (diminuição gradual da concentração de oxigênio dissolvido, seguido de reoxigenação) e hipóxia direta (diminuição direta da concentração de oxigênio dissolvido, seguido de reoxigenação) observamos que 650 genes foram diferencialmente expressos em pelo menos uma das condições de estresse e que 534 deles mostraram-se afetados (direta ou indiretamente) pela disponibilidade de oxigênio, uma vez que apresentaram recuperação (ou tendência à recuperação) da sua expressão aos níveis normais, quando as células foram reoxigenadas. Além de modular a expressão de diversos genes sem função conhecida, B. emersonii responde à hipóxia reajustando a expressão de genes responsáveis pela produção e consumo de energia. Pelo menos transcricionalmente, este fungo favorece o metabolismo anaeróbico, através da indução de genes que codificam enzimas da via glicolítica e lactato desidrogenase, ao passo que no ciclo do ácido cítrico, a maioria dos genes encontram-se reprimidos ou não sofrem alteração na expressão. Processos dispendiosos em energia como síntese protéica, metabolismo de aminoácidos, enovelamento de proteínas e transporte por membrana apresentaram perfis predominantemente de repressão gênica quando em carência de oxigênio. Ainda utilizando a técnica de microarranjos, mostramos semelhanças entre os perfis transcricionais nos experimentos hipóxia e de carência de Fe2+ (tratamento com quelante de Fe2+ 2,2´-dipyridyl) sugerem que estes estresses estão de alguma forma relacionados, fornecendo bons indícios de que o íon Fe2+ possa ter um papel importante no mecanismo sensor de oxigênio e/ou de resposta a hipóxia em B. emersonii. Além disso, o tratamento prévio de células...

In this work we analyzed global gene expression changes in the aquatic fungus Blastocladiella emersonii submitted to oxygen deprivation (hypoxia), using cDNA microarrays containing 3,773 distinct genes. In gradual hypoxia (gradual decrease in dissolved oxygen concentration, followed by reoxygenation) and direct hypoxia (direct decrease of dissolved oxygen concentration, followed by reoxygenation) we observed 650 differentially expressed genes in at least one of the stress conditions tested, 534 of them being affected (directly or indirectly) by oxygen availability, since they showed recovery of normal expression levels or a tendency to recover, when cells were reoxygenated. Besides modulating many genes with no previously assigned function, B. emersonii responds to hypoxia by readjusting the expression levels of genes responsible for energy production and consumption. At least transcriptionally, this fungus seems to favour anaerobic metabolism through the induction of genes encoding glycolytic enzymes and lactate dehydrogenase, while in the TCA-cycle, most genes were repressed or unchanged. Energy-costly processes like protein synthesis, amino acid metabolism, protein folding and transport had their gene expression profiles predominantly repressed during oxygen deprivation. Microarray experiments also showed similarities between the transcriptional profile of genes in hypoxia and iron (II) deprivation (treatment with the iron (II) chelator 2,2/'-dipyridyl), suggesting that these stresses are somehow related, giving good evidence that Fe2+ ion could have a role in the mechanism of oxygen sensing and/or response to hypoxia in B. emersonii. Furthermore, pretreatment of cells subjected to hypoxia with the antibiotic geldanamycin, a known inhibitor of the heat shock protein HSP90, caused a significant decrease in the induction of certain hypoxic genes, indicating that this fungus could have a mechanism similar to that of the mammalian hypoxia transcription factor...

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The mitochondrial genome of the chytrid Blastocladiella emersonii was sequenced and annotated, revealing the complete set of oxidative phosphorylation genes and tRNAs/rRNAs necessary for the translation process. Phylogenetic reconstructions reinforce the proposal of the new phylum Blastocladiomycota. Evidences of gene duplication due to inserted elements suggest shared susceptibility to gene invasion/exchange between chytrids and zygomycetes. The gene content of B. emersonii is very similar to Allomyces macrogynus but the content of intronic and changeable elements is much lower suggesting a stronger resistance to this kind of exchange. In addition, a total of 401 potential nuclear transcripts encoding mitochondrial proteins were obtained after B. emersonii EST database scanning using Saccharomyces cerevisiae, Homo sapiens and Arabidopsis thaliana data as probes and TargetP tool to find N-terminal mitochondrial signal in translated sequences.

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HSP90 proteins are important molecular chaperones involved in multiple cellular processes. This work reports the characterization of cDNAs encoding two distinct HSP90 proteins (named HSP90A and HSP90B) from the chytridiomycete Blastocladiella emersonii. Deduced amino acid sequences of HSP90A and HSP90B exhibit signatures of the cytosolic and endoplasmic reticulum (ER) HSP90 proteins, respectively. A genomic clone encoding HSP90A was also characterized indicating the presence of a single intron of 184 bp interrupting the coding region, located near the amino-terminus of the protein. Expression of both HSP90A and HSP90B genes increases significantly during heat shock at 38 degrees C, with highest induction ratios observed in cells stressed during germination of the fungus. Changes in the amount of HSP90A transcript were also evaluated during B. emersonii life cycle at physiological temperature (27 degrees C), and its levels were found to increase both during germination and sporulation of the fungus. HSP90A protein levels were analyzed during B. emersonii life cycle and significant changes were observed only during sporulation. Furthermore, during heat stress a large increase in the amount of HSP90A protein was observed. Induction of HSP90A and HSP90B genes during heat stress indicates the importance of both genes in the response to high temperature in B. emersonii.

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The global transcriptional response of the chytridiomycete Blastocladiella emersonii to environmental stress conditions was explored by sequencing a large number of expressed sequence tags (ESTs) from three distinct cDNA libraries, constructed with mRNA extracted from cells exposed to heat shock and different concentrations of cadmium chloride. A total of 6,350 high-quality EST sequences were obtained and assembled into 2,326 putative unigenes, 51% of them not previously described in B. emersonii. To approximately 59% of the unigenes it was possible to assign an orthologue in another organism, whereas 41% of them remained without a putative identification, with transcripts related to protein folding and antioxidant activity being highly enriched in the stress libraries. A microarray chip was constructed encompassing 3,773 distinct ESTs from the B. emersonii transcriptome presently available, which correspond to a wide range of biological processes. Global gene expression analysis of B. emersonii cells exposed to stress conditions revealed a large number of differentially expressed genes: 122 up- and 60 downregulated genes during heat shock and 189 up- and 110 downregulated genes during exposure to cadmium. The main functional categories represented among the upregulated genes were protein folding and proteolysis, proteins with antioxidant properties, and cellular transport. Interestingly, in response to cadmium stress, B. emersonii cells induced genes encoding six different glutathione S-transferases and six distinct metacaspases, as well as genes coding for several proteins of sulfur amino acid metabolism, indicating that cadmium causes oxidative stress and apoptosis in this fungus. All sequences described in this study have been submitted to the GenBank EST section with the accession numbers EE 730389 to EE 736848.

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Sequencing of a large number of expressed sequence tags from Blastocladiella emersonii revealed the presence of ten distinct putative members of the 70 kDa-heat shock protein (Hsp70) family in this fungus. The amino acid sequence deduced from eight of these cDNAs showed significant similarity to members of the Saccharomyces cerevisiae Hsp70 family, and the remaining displayed high sequence homology with hsp70 gene products from other organisms. The hsp70-3 gene was the most highly expressed at normal temperatures and was poorly induced during heat shock. Except for hsp70-4 and hsp70-6, all other hsp70 genes were induced to different degrees upon exposure of B. emersonii cells to heat shock, with hsp70-1 gene presenting the highest transcript levels. Phylogenetic analysis of complete B. emersonii putative Hsp70 protein sequences indicated that Hsp70-1 and Hsp70-3 corresponded to cytosolic proteins, whereas Hsp70-7 and Hsp70-9 are probably localized in the endoplasmic reticulum and mitochondria, respectively.

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BACKGROUND: Blastocladiella emersonii is an aquatic fungus of the Chytridiomycete class, which is at the base of the fungal phylogenetic tree. In this sense, some ancestral characteristics of fungi and animals or fungi and plants could have been retained in this aquatic fungus and lost in members of late-diverging fungal species. To identify in B. emersonii sequences associated with these ancestral characteristics two approaches were followed: (1) a large-scale comparative analysis between putative unigene sequences (uniseqs) from B. emersonii and three databases constructed ad hoc with fungal proteins, animal proteins and plant unigenes deposited in Genbank, and (2) a pairwise comparison between B. emersonii full-length cDNA sequences and their putative orthologues in the ascomycete Neurospora crassa and the basidiomycete Ustilago maydis. RESULTS: Comparative analyses of B. emersonii uniseqs with fungi, animal and plant databases through the two approaches mentioned above produced 166 B. emersonii sequences, which were identified as putatively absent from other fungi or not previously described. Through these approaches we found: (1) possible orthologues of genes previously identified as specific to animals and/or plants, and (2) genes conserved in fungi, but with a large difference in divergence rate in B. emersonii. Among these sequences, we observed cDNAs encoding enzymes from coenzyme B12-dependent propionyl-CoA pathway, a metabolic route not previously described in fungi, and validated their expression in Northern blots. CONCLUSION: Using two different approaches involving comparative sequence analyses, we could identify sequences from the early-diverging fungus B. emersonii previously considered specific to animals or plants, and highly divergent sequences from the same fungus relative to other fungi.

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SpotWhatR is a user-friendly microarray data analysis tool that runs under a widely and freely available R statistical language (http://www.r-project.org) for Windows and Linux operational systems. The aim of SpotWhatR is to help the researcher to analyze microarray data by providing basic tools for data visualization, normalization, determination of differentially expressed genes, summarization by Gene Ontology terms, and clustering analysis. SpotWhatR allows researchers who are not familiar with computational programming to choose the most suitable analysis for their microarray dataset. Along with well-known procedures used in microarray data analysis, we have introduced a stand-alone implementation of the HTself method, especially designed to find differentially expressed genes in low-replication contexts. This approach is more compatible with our local reality than the usual statistical methods. We provide several examples derived from the Blastocladiella emersonii and Xylella fastidiosa Microarray Projects. SpotWhatR is freely available at http://blasto.iq.usp.br/~tkoide/SpotWhatR, in English and Portuguese versions. In addition, the user can choose between "single experiment" and "batch processing" versions.

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SpotWhatR is a user-friendly microarray data analysis tool that runs under a widely and freely available R statistical language (http://www.r-project.org) for Windows and Linux operational systems. The aim of SpotWhatR is to help the researcher to analyze microarray data by providing basic tools for data visualization, normalization, determination of differentially expressed genes, summarization by Gene Ontology terms, and clustering analysis. SpotWhatR allows researchers who are not familiar with computational programming to choose the most suitable analysis for their microarray dataset. Along with well-known procedures used in microarray data analysis, we have introduced a stand-alone implementation of the HTself method, especially designed to find differentially expressed genes in low-replication contexts. This approach is more compatible with our local reality than the usual statistical methods. We provide several examples derived from the Blastocladiella emersonii and Xylella fastidiosa Microarray Projects. SpotWhatR is freely available at http://blasto.iq.usp.br/~tkoide/SpotWhatR, in English and Portuguese versions. In addition, the user can choose between [quot ]single experiment[quot ] and [quot ]batch processing[quot ] versions.

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Centrins are members of the calcium-binding EF-hand protein superfamily which can be divided into two subfamilies, probably associated with different functions: one related to Chlamydomonas reinhardtii centrin, CrCenp, and the other, represented by Saccharomyces cerevisiae isoform, ScCdc31p. ESTs encoding the two isoforms (BeCen1 and BeCen3) from the chytridiomycete Blastocladiella emersonii were isolated, and expression of the CrCenp-type centrin, BeCen1, was analyzed throughout the fungus life cycle. Becen1 mRNA levels increase transiently during sporulation and protein levels present a similar pattern. Immunolocalization studies seem to localize BeCen1 at the basal body zone and in the cytoplasm surrounding the nuclear cap, a zoospore organelle.

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Blastocladiella emersonii is an aquatic fungus of the chytridiomycete class which diverged early from the fungal lineage and is notable for the morphogenetic processes which occur during its life cycle. Its particular taxonomic position makes this fungus an interesting system to be considered when investigating phylogenetic relationships and studying the biology of lower fungi. To contribute to the understanding of the complexity of the B. emersonii genome, we present here a survey of expressed sequence tags (ESTs) from various stages of the fungal development. Nearly 20,000 cDNA clones from 10 different libraries were partially sequenced from their 5' end, yielding 16,984 high-quality ESTs. These ESTs were assembled into 4,873 putative transcripts, of which 48% presented no matches with existing sequences in public databases. As a result of Gene Ontology (GO) project annotation, 1,680 ESTs (35%) were classified into biological processes of the GO structure, with transcription and RNA processing, protein biosynthesis, and transport as prevalent processes. We also report full-length sequences, useful for construction of molecular phylogenies, and several ESTs that showed high similarity with known proteins, some of which were not previously described in fungi. Furthermore, we analyzed the expression profile (digital Northern analysis) of each transcript throughout the life cycle of the fungus using Bayesian statistics. The in silico approach was validated by Northern blot analysis with good agreement between the two methodologies.

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