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5. GeneBrowser: an approach for integration and functional classification of genomic data

Author

Arrais Joel, Santos Bruno, Fernandes João, Carreto Laura, Santos Manuel A.S., and Oliveira José Luis

Subjects
Biotechnology, TP248.13-248.65
Abstract

The achievements coming from genome analysis depend greatly on the quality of computational and processing methods. Tools for functional mRNA profiling and for gene information integration have become essential to this task. We have developed GeneBrowser as a novel approach that combines the advantages of mRNA profiling tools, at genome-scale experiments, with the features provided by data integration systems. For a given set of genes, GeneBrowser integrates bibliography information with functional annotations, using Gene Ontology, Entrez Gene, KEGG Orthology and KEGG Pathways. The result is a comprehensive and easy to use web application that helps researchers to extract knowledge from large data sets and to speed up the discovery process.

Published
2007
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8. Activation of Laminin γ2 by Helicobacter pylori Promotes Invasion and Survival of Gastric Cancer Cells With E-Cadherin Defects.

Author

Ferreira, Rui M, Figueiredo, Joana, Pinto-Ribeiro, Ines, Gullo, Irene, Sgouras, Dionyssios N, Carreto, Laura, Castro, Patricia, Santos, Manuel A, Carneiro, Fatima, Seruca, Raquel, and Figueiredo, Ceu

Subjects
STOMACH cancer, HELICOBACTER pylori, CADHERINS, CANCER cells, HELICOBACTER pylori infections, EXTRACELLULAR matrix, DISEASE eradication
Abstract

Background Helicobacter pylori infection induces cellular phenotypes relevant for cancer progression, namely cell motility and invasion. We hypothesized that the extracellular matrix (ECM) could be involved in these deleterious effects. Methods Microarrays were used to uncover ECM interactors in cells infected with H. pylori. LAMC2 , encoding laminin γ2, was selected as a candidate gene and its expression was assessed in vitro and in vivo. The role of LAMC2 was investigated by small interference RNA (siRNA) combined with a set of functional assays. Laminin γ2 and E-cadherin expression patterns were evaluated in gastric cancer cases. Results Laminin γ2 was found significantly overexpressed in gastric cancer cells infected with H. pylori. This finding was validated in vitro by infection with clinical isolates and in vivo by using gastric biopsies of infected and noninfected individuals. We showed that laminin γ2 overexpression is dependent on the bacterial type IV secretion system and on the CagA. Functionally, laminin γ2 promotes cell invasion and resistance to apoptosis, through modulation of Src, JNK, and AKT activity. These effects were abrogated in cells with functional E-cadherin. Conclusions These data highlight laminin γ2 and its downstream effectors as potential therapeutic targets, and the value of H. pylori eradication to delay gastric cancer onset and progression. [ABSTRACT FROM AUTHOR]

Published
2022
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14. Burkholderia pseudomallei transcriptional adaptation in macrophages

Author

Chieng Sylvia, Carreto Laura, and Nathan Sheila

Subjects
Burkholderia pseudomallei, Macrophage, Transcriptome analysis, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Burkholderia pseudomallei is a facultative intracellular pathogen of phagocytic and non-phagocytic cells. How the bacterium interacts with host macrophage cells is still not well understood and is critical to appreciate the strategies used by this bacterium to survive and how intracellular survival leads to disease manifestation. Results Here we report the expression profile of intracellular B. pseudomallei following infection of human macrophage-like U937 cells. During intracellular growth over the 6 h infection period, approximately 22 % of the B. pseudomallei genome showed significant transcriptional adaptation. B. pseudomallei adapted rapidly to the intracellular environment by down-regulating numerous genes involved in metabolism, cell envelope, motility, replication, amino acid and ion transport system and regulatory function pathways. Reduced expression in catabolic and housekeeping genes suggested lower energy requirement and growth arrest during macrophage infection, while expression of genes encoding anaerobic metabolism functions were up regulated. However, whilst the type VI secretion system was up regulated, expression of many known virulence factors was not significantly modulated over the 6hours of infection. Conclusions The transcriptome profile described here provides the first comprehensive view of how B. pseudomallei survives within host cells and will help identify potential virulence factors and proteins that are important for the survival and growth of B. pseudomallei within human cells.

Published
2012
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15. Low level genome mistranslations deregulate the transcriptome and translatome and generate proteotoxic stress in yeast

Author

Paredes João A, Carreto Laura, Simões João, Bezerra Ana R, Gomes Ana C, Santamaria Rodrigo, Kapushesky Misha, Moura Gabriela R, and Santos Manuel AS

Subjects
Yeast, mistranslation, tRNA, protein synthesis, mRNA profiling, stress, proteotoxic stress, protein misfolding, unfolded protein response, Biology (General), QH301-705.5
Abstract

Abstract Background Organisms use highly accurate molecular processes to transcribe their genes and a variety of mRNA quality control and ribosome proofreading mechanisms to maintain intact the fidelity of genetic information flow. Despite this, low level gene translational errors induced by mutations and environmental factors cause neurodegeneration and premature death in mice and mitochondrial disorders in humans. Paradoxically, such errors can generate advantageous phenotypic diversity in fungi and bacteria through poorly understood molecular processes. Results In order to clarify the biological relevance of gene translational errors we have engineered codon misreading in yeast and used profiling of total and polysome-associated mRNAs, molecular and biochemical tools to characterize the recombinant cells. We demonstrate here that gene translational errors, which have negligible impact on yeast growth rate down-regulate protein synthesis, activate the unfolded protein response and environmental stress response pathways, and down-regulate chaperones linked to ribosomes. Conclusions We provide the first global view of transcriptional and post-transcriptional responses to global gene translational errors and we postulate that they cause gradual cell degeneration through synergistic effects of overloading protein quality control systems and deregulation of protein synthesis, but generate adaptive phenotypes in unicellular organisms through activation of stress cross-protection. We conclude that these genome wide gene translational infidelities can be degenerative or adaptive depending on cellular context and physiological condition.

Published
2012
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17. Comparative genomics of wild type yeast strains unveils important genome diversity

Author

Pereira Patrícia M, Gomes Ana C, Eiriz Maria F, Carreto Laura, Schuller Dorit, and Santos Manuel AS

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Genome variability generates phenotypic heterogeneity and is of relevance for adaptation to environmental change, but the extent of such variability in natural populations is still poorly understood. For example, selected Saccharomyces cerevisiae strains are variable at the ploidy level, have gene amplifications, changes in chromosome copy number, and gross chromosomal rearrangements. This suggests that genome plasticity provides important genetic diversity upon which natural selection mechanisms can operate. Results In this study, we have used wild-type S. cerevisiae (yeast) strains to investigate genome variation in natural and artificial environments. We have used comparative genome hybridization on array (aCGH) to characterize the genome variability of 16 yeast strains, of laboratory and commercial origin, isolated from vineyards and wine cellars, and from opportunistic human infections. Interestingly, sub-telomeric instability was associated with the clinical phenotype, while Ty element insertion regions determined genomic differences of natural wine fermentation strains. Copy number depletion of ASP3 and YRF1 genes was found in all wild-type strains. Other gene families involved in transmembrane transport, sugar and alcohol metabolism or drug resistance had copy number changes, which also distinguished wine from clinical isolates. Conclusion We have isolated and genotyped more than 1000 yeast strains from natural environments and carried out an aCGH analysis of 16 strains representative of distinct genotype clusters. Important genomic variability was identified between these strains, in particular in sub-telomeric regions and in Ty-element insertion sites, suggesting that this type of genome variability is the main source of genetic diversity in natural populations of yeast. The data highlights the usefulness of yeast as a model system to unravel intraspecific natural genome diversity and to elucidate how natural selection shapes the yeast genome.

Published
2008
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18. Codon-triplet context unveils unique features of the Candida albicans protein coding genome

Author

Oliveira José L, Silva Raquel M, Carreto Laura, Pinheiro Miguel, Lousado José P, Moura Gabriela R, and Santos Manuel AS

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background The evolutionary forces that determine the arrangement of synonymous codons within open reading frames and fine tune mRNA translation efficiency are not yet understood. In order to tackle this question we have carried out a large scale study of codon-triplet contexts in 11 fungal species to unravel associations or relationships between codons present at the ribosome A-, P- and E-sites during each decoding cycle. Results Our analysis unveiled high bias within the context of codon-triplets, in particular strong preference for triplets of identical codons. We have also identified a surprisingly large number of codon-triplet combinations that vanished from fungal ORFeomes. Candida albicans exacerbated these features, showed an unbalanced tRNA population for decoding its pool of codons and used near-cognate decoding for a large set of codons, suggesting that unique evolutionary forces shaped the evolution of its ORFeome. Conclusion We have developed bioinformatics tools for large-scale analysis of codon-triplet contexts. These algorithms identified codon-triplets context biases, allowed for large scale comparative codon-triplet analysis, and identified rules governing codon-triplet context. They could also detect alterations to the standard genetic code.

Published
2007
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19. The role of the Yap5 transcription factor in remodeling gene expression in response to Fe bioavailability

Author

Pimentel, Catarina, Vicente, Cristina, Menezes, Regina Andrade, Caetano, Soraia, Carreto, Laura, Rodrigues-Pousada, Claudina, and Tsuji, Yoshiaki

Subjects
Iron Overload, Saccharomyces cerevisiae Proteins, Iron, Science, DNA transcription, Nuclear Localization Signals, Saccharomyces cerevisiae, Gene Identification and Analysis, Gene Expression, Yeast and Fungal Models, Molecular Genetics, 03 medical and health sciences, Model Organisms, Gene Expression Regulation, Fungal, Glutaredoxin, Molecular Cell Biology, Gene expression, Genetics, Genome-Wide Association Studies, Homeostasis, Gene Regulation, Cation Transport Proteins, Gene, Transcription factor, Biology, Glutaredoxins, Cellular Stress Responses, 030304 developmental biology, Regulation of gene expression, 0303 health sciences, Multidisciplinary, biology, 030302 biochemistry & molecular biology, Genomics, biology.organism_classification, Molecular biology, Cell biology, Basic-Leucine Zipper Transcription Factors, Medicine, Human medicine, Gene Function, DNA microarray, Genome Expression Analysis, Nuclear localization sequence, Research Article, Transcription Factors
Abstract

The budding yeast Saccharomyces cerevisiae has developed several mechanisms to avoid either the drastic consequences of iron deprivation or the toxic effects of iron excess. In this work, we analysed the global gene expression changes occurring in yeast cells undergoing iron overload. Several genes directly or indirectly involved in iron homeostasis showed altered expression and the relevance of these changes are discussed. Microarray analyses were also performed to identify new targets of the iron responsive factor Yap5. Besides the iron vacuolar transporter CCC1, Yap5 also controls the expression of glutaredoxin GRX4, previously known to be involved in the regulation of Aft1 nuclear localization. Consistently, we show that in the absence of Yap5 Aft1 nuclear exclusion is slightly impaired. These studies provide further evidence that cells control iron homeostasis by using multiple pathways. published

Published
2012

20. Genetic characterization of commercial Saccharomyces cerevisiae isolates recovered from vineyard environments using comparative genome hybridization on array (aCGH)

Author

Duarte, Ricardo Franco, Carreto, Laura, Cambon, Brigitte, Dequin, Sylvie, Santos, Manuel A. S., Casal, Margarida, Schuller, Dorit Elisabeth, and Universidade do Minho

Subjects
Saccharomyces cerevisiae, ArrayCGH
Abstract

The use of commercial S. cerevisiae wine strains as fermentation starters has been extensively generalized over the past two decades. Within our previous work we showed that such strains are disseminated from the winery and their permanence in nature induced genetic changes in comparison to the commercial “mother” strain. The objective of the present study was to evaluate genome variations among four isolates of the commercial strain Zymaflore VL1 that were re-isolated from vineyards close the wineries, in comparison to the commercial “mother” strain by the use of comparative genome hybridization on array (aCGH). Hierarchical cluster analysis showed some genome variability between both groups. Using one-way ANOVA we identified more than 50 genes with significant differences. Multi-class significance analysis revealed a group of 130 genes with reduced fold changes in the recovered strains, being the most relevant the PAU family, involved in the adaptation of yeast cells to stress during alcoholic fermentations. Our studies showed that genetic changes occur among isogenic strains of the commercial yeast Zymaflore VL1 that were re-isolated from environments. The depletion of several genes may reflect adaptive mechanisms that strains undergo as response to the conditions of vineyards that are very distinct from must fermentation environments., Fundação para a Ciência e a Tecnologia (FCT)

Published
2011

21. Comparative genomics of commercial Saccharomyces cerevisiae isolates recovered from vineyard environments

Author

Duarte, Ricardo Franco, Carreto, Laura, Cambon, Brigitte, Dequin, Sylvie, Santos, Manuel A. S., Casal, Margarida, Schuller, Dorit Elisabeth, and Universidade do Minho

Subjects
Commercial yeast, Comparative genomics, Saccharomyces cerevisiae
Abstract

Apresentação efetuada nas 36.ª Jornadas Portuguesas de Genética, Coimbra, 2011, The use of commercial Saccharomyces cerevisiae wine yeast strains as fermentation starters has been extensively generalised over the past two decades. These strains are used by wineries every year at the harvest time in large quantities. Within our previous work we showed that such strains are disseminated from the winery and can be recovered from locations in close proximity (10-200m) (Valero et al., 2005). Their permanence in natural environments induced genetic changes such as loss of heterozygosity, microsatellite expansion and size variations of chromosomes III and/or VI. These changes were not found among a group of isolates that were used as a control and that derived from the commercial “mother” strain (Schuller et al., 2007). The objective of the present study was to evaluate genome variations among four isolates of the commercial strain S. cerevisiae Zymaflore VL1 that were re-isolated from vineyards surrounding the wineries where this strain was applied, in comparison to the commercial “mother” strain by the use of comparative genome hybridization on array (aCGH). These approaches were carried out as previously described (Carreto, et al., 2008). Hierarchical cluster analysis showed some genome variability between isolates recovered from the environment and the commercial VL1 reference strain. Using one-way ANOVA we identified more than 50 genes with significant differences between the environmental isolates and the original VL1 strain. Multi-class significance analysis (SAM) for two-class unpaired comparisons revealed a group of 130 genes with significantly reduced fold changes in the recovered strains. The most relevant genes (PAU2, PAU3 and PAU5) belonged to the seripauperin family. They are located in subtelomeric chromosomal regions, where gene families are maintained that serve for adaptive purposes. These genes are involved in the adaptation of yeast cells to stress during alcoholic fermentations and are highly upregulated during early stages of wine fermentation. Our studies showed that genetic changes occur among isogenic strains of the commercial yeast S. cerevisiae Zymaflore VL1 that were re-isolated from environments close to vineyards where this strain is used as starter yeast. The depletion of several genes may reflect adaptive mechanisms that strains undergo as response to the ecological conditions of vineyards that are very distinct from must fermentation environments., Fundação para a Ciência e a Tecnologia (FCT)

Published
2011

22. Comparative genomics of yeast strains isolated from diverse ecological niches unveils important genome diversity

Author

Eiriz, Maria Francisca, Carreto, Laura, Gomes, Ana Catarina, Pereira, Patrícia, Schuller, Dorit Elisabeth, Santos, Manuel A. S., and Universidade do Minho

Subjects
Ty-element insertion, aCGH, Intraspecific genome diversity, Genome variability, Comparative genome hybridization, Saccharomyces cerevisiae
Abstract

Background: Genome variability generates phenotypic heterogeneity and is of relevance for adaptation to environmental change, but the extent of such variability in natural populations is still poorly understood. For example, selected Saccharomyces cerevisiae strains are variable at the ploidy level, have gene amplifications, changes in chromosome copy number, and gross chromosomal rearrangements. This suggests that genome plasticity provides important genetic diversity upon which natural selection mechanisms can operate. Results: In this study, we have used wild-type S. cerevisiae (yeast) strains to investigate genome variation in natural and artificial environments. We have used comparative genome hybridization on array (aCGH) to characterize the genome variability of 16 yeast strains, of laboratory and commercial origin, isolated from vineyards and wine cellars, and from opportunistic human infections. Interestingly, sub-telomeric instability was associated with the clinical phenotype, while Ty element insertion regions determined genomic differences of natural wine fermentation strains. Copy number depletion of ASP3 and YRF1 genes was found in all wild-type strains. Other gene families involved in transmembrane transport, sugar and alcohol metabolism or drug resistance had copy number changes, which also distinguished wine from clinical isolates. Conclusion: We have isolated and genotyped more than 1000 yeast strains from natural environments and carried out an aCGH analysis of 16 strains representative of distinct genotype clusters. Important genomic variability was identified between these strains, in particular in subtelomeric regions and in Ty-element insertion sites, suggesting that this type of genome variability is the main source of genetic diversity in natural populations of yeast. The data highlights the usefulness of yeast as a model system to unravel intraspecific natural genome diversity and to elucidate how natural selection shapes the yeast genome., The authors wish to thank Adega Cooperativa da Bairrada, Cantanhede, Portugal, for providing the commercial strains. The clinical strains were a kind gift of Prof. Mick Tuite from the University of Kent-UK. This work was funded by Fundação para a Ciência e Tecnologia through projects FEDER/FCT, POCI/AGR/56102/2004 and CONC-REEQ/737/2001.

Published
2008

23. Transcriptome variability in yeast strains

Author

Carreto, Laura, Schuller, Dorit Elisabeth, Santos, Manuel A. S., and Universidade do Minho

Subjects
Comparative genome hybridization on array, Clinical infections, Natural isolates, Transcriptome variability, Genome variability, Saccharomyces cerevisiae, mRNA profiling
Abstract

In order to understand yeast natural genome and transcriptome variability and evaluate whether such variability correlates with phenotypic diversity, we have isolated approximately 1000 yeast strains from Portuguese vineyards, namely from the Bairrada and Minho wine regions, genotyped them and selected the most divergent ones for genome and transcriptome characterization, using comparative genome hybridization on array (aCGH) and mRNA profiling, respectively. For comparative purposes, strains isolated from opportunistic clinical infections and commercial strains used by the wine industry were also included in the study. Approximately 3 % of the ORFeome showed copy number alterations relative to the reference strain S288C, which was associated with sub-telomeric instability and Ty element transposition. Interestingly, one third of the Ty elements identified in the genome of the reference laboratory strain (S288C) were absent in the wine strains, but were present in the clinical isolates. Distinct gene functional classes were affected by copy number changes in wine and clinical strains. However, no correlation was found between genome alterations and geographical origin. Transcriptome profiling of the same strains grown in synthetic must, using a common reference design, showed important variation in mRNA levels during fermentation, in particular in the wine isolates. Some genes showed patterns of activation that were consistent with gene copy number differences, while others pointed to strain specific regulation. Substantial variability in expression levels were detected among genes associated with fermentation in the wine strains. Therefore, transcriptome variability is relevant to understand yeast adaptation to new ecological niches, yeast evolution, and also to design strategies to select strains with particular phenotypes., National Facility for DNA, Institute of Electronics and Telecommunications of the University of Aveiro (IEETA), Microarray - projecto Ref: CTS 12 (Instituto de Investigação da Universidade de Aveiro), Fundação para a Ciência e a Tecnologia (FCT) - Bolsas CONC-REEQ/737/200, POCI/SAU-MMO/55476/2004, FEDER/POCI/BIA-PRO/55472/2004, Biocant Institute, Cantanhede, Portugal.

Published
2008

24. Transcriptome variability of yeast strains

Author

Carreto, Laura, Schuller, Dorit Elisabeth, Santos, Manuel A. S., and Universidade do Minho

Subjects
Clinical isolates, Comparative genome hybridization on array, Natural isolates, Saccharomyces cerevisiae, Transcriptome
Abstract

Comunicação em forma de painel, apresentado por Laura Carreto, This work was supported by the National Facility for DNA Microarrays, The University of Aveiro and Biocant.

Published
2008

25. Synthetic microparticles conjugated with VEGF165 improve the survival of endothelial progenitor cells via microRNA-17 inhibition.

Author

Aday, Sezin, Zoldan, Janet, Besnier, Marie, Carreto, Laura, Saif, Jaimy, Fernandes, Rui, Santos, Tiago, Bernardino, Liliana, Langer, Robert, Emanueli, Costanza, and Ferreira, Lino

Subjects
ENDOTHELIAL cells, VASCULAR endothelial growth factors, TREATMENT effectiveness, PROGENITOR cells
Abstract

Several cell-based therapies are under pre-clinical and clinical evaluation for the treatment of ischemic diseases. Poor survival and vascular engraftment rates of transplanted cells force them to work mainly via time-limited paracrine actions. Although several approaches, including the use of soluble vascular endothelial growth factor (sVEGF)--VEGF165, have been developed in the last 10 years to enhance cell survival, they showed limited efficacy. Here, we report a pro-survival approach based on VEGF-immobilized microparticles (VEGF-MPs). VEGF-MPs prolong VEGFR-2 and Akt phosphorylation in cord blood-derived late outgrowth endothelial progenitor cells (OEPCs). In vivo, OEPC aggregates containing VEGF-MPs show higher survival than those treated with sVEGF. Additionally, VEGF-MPs decrease miR-17 expression in OEPCs, thus increasing the expression of its target genes CDKN1A and ZNF652. The therapeutic effect of OEPCs is improved in vivo by inhibiting miR-17. Overall, our data show an experimental approach to improve therapeutic efficacy of proangiogenic cells for the treatment of ischemic diseases. [ABSTRACT FROM AUTHOR]

Published
2017
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27. The influence of Dekkera bruxellensis on the transcriptome of Saccharomyces cerevisiae and on the aromatic profile of synthetic wine must.

Author

Kosel, Janez, Čadež, Neža, Schuller, Dorit, Carreto, Laura, Franco-Duarte, Ricardo, and Raspor, Peter

Subjects
SACCHAROMYCETACEAE, WINES, MICROBIAL aggregation, AMINO acid amides, AROMATIC amines
Abstract

A double compartment membrane system was constructed in order to systematically study possible microbial interactions between yeasts Saccharomyces cerevisiae and Dekkera bruxellensis and their impact on wine aroma. The presence of D. bruxellensis induced 77 transcripts of S. cerevisiae. These were mostly of unknown function; however, some were involved in thiamine biosynthesis and in amino acid and polyamine transport, suggesting a competitive relationship between the two yeast species. Among the transcripts with no biological function, 14 of them were found to be the members of the PAU gene family that is associated with response to anaerobiosis stress. In separated cultures, S. cerevisiae produced glycerol which was subsequently consumed by D. bruxellensis. The concentration of ethylphenols was reduced and we assume that they were absorbed onto the surfaces of S. cerevisiae yeast walls. Also in separated cultures, D. bruxellensis formed a typical profile of aromatic esters with decreased levels of acetate esters and increased level of ethyl esters. [ABSTRACT FROM AUTHOR]

Published
2017
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29. In Vitro Ischemia Triggers a Transcriptional Response to Down-Regulate Synaptic Proteins in Hippocampal Neurons.

Author

Fernandes, Joana, Vieira, Marta, Carreto, Laura, Santos, Manuel A. S., Duarte, Carlos B., Carvalho, Ana Luísa, and Santos, Armanda E.

Subjects
ISCHEMIA treatment, GENETIC transcription, NEUROPLASTICITY, HIPPOCAMPUS (Brain), NEURONS, NEUROBIOLOGY
Abstract

Transient global cerebral ischemia induces profound changes in the transcriptome of brain cells, which is partially associated with the induction or repression of genes that influence the ischemic response. However, the mechanisms responsible for the selective vulnerability of hippocampal neurons to global ischemia remain to be clarified. To identify molecular changes elicited by ischemic insults, we subjected hippocampal primary cultures to oxygen-glucose deprivation (OGD), an in vitro model for global ischemia that resulted in delayed neuronal death with an excitotoxic component. To investigate changes in the transcriptome of hippocampal neurons submitted to OGD, total RNA was extracted at early (7 h) and delayed (24 h) time points after OGD and used in a whole-genome RNA microarray. We observed that at 7 h after OGD there was a general repression of genes, whereas at 24 h there was a general induction of gene expression. Genes related with functions such as transcription and RNA biosynthesis were highly regulated at both periods of incubation after OGD, confirming that the response to ischemia is a dynamic and coordinated process. Our analysis showed that genes for synaptic proteins, such as those encoding for PICK1, GRIP1, TARPγ3, calsyntenin-2/3, SAPAP2 and SNAP-25, were down-regulated after OGD. Additionally, OGD decreased the mRNA and protein expression levels of the GluA1 AMPA receptor subunit as well as the GluN2A and GluN2B subunits of NMDA receptors, but increased the mRNA expression of the GluN3A subunit, thus altering the composition of ionotropic glutamate receptors in hippocampal neurons. Together, our results present the expression profile elicited by in vitro ischemia in hippocampal neurons, and indicate that OGD activates a transcriptional program leading to down-regulation in the expression of genes coding for synaptic proteins, suggesting that the synaptic proteome may change after ischemia. [ABSTRACT FROM AUTHOR]

Published
2014
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30. Participation of Candida albicans Transcription Factor RLM1 in Cell Wall Biogenesis and Virulence.

Author

Delgado-Silva, Yolanda, Vaz, Catarina, Carvalho-Pereira, Joana, Carneiro, Catarina, Nogueira, Eugénia, Correia, Alexandra, Carreto, Laura, Silva, Sónia, Faustino, Augusto, Pais, Célia, Oliveira, Rui, and Sampaio, Paula

Subjects
CANDIDA albicans, TRANSCRIPTION factors, MICROBIAL virulence, FUNGAL cell walls, ORIGIN of life, CHITIN, MOLECULAR genetics
Abstract

Candida albicans cell wall is important for growth and interaction with the environment. RLM1 is one of the putative transcription factors involved in the cell wall integrity pathway, which plays an important role in the maintenance of the cell wall integrity. In this work we investigated the involvement of RLM1 in the cell wall biogenesis and in virulence. Newly constructed C. albicans Δ/Δrlm1 mutants showed typical cell wall weakening phenotypes, such as hypersensitivity to Congo Red, Calcofluor White, and caspofungin (phenotype reverted in the presence of sorbitol), confirming the involvement of RLM1 in the cell wall integrity. Additionally, the cell wall of C. albicans Δ/Δrlm1 showed a significant increase in chitin (213%) and reduction in mannans (60%), in comparison with the wild-type, results that are consistent with cell wall remodelling. Microarray analysis in the absence of any stress showed that deletion of RLM1 in C. albicans significantly down-regulated genes involved in carbohydrate catabolism such as DAK2, GLK4, NHT1 and TPS1, up-regulated genes involved in the utilization of alternative carbon sources, like AGP2, SOU1, SAP6, CIT1 or GAL4, and genes involved in cell adhesion like ECE1, ALS1, ALS3, HWP1 or RBT1. In agreement with the microarray results adhesion assays showed an increased amount of adhering cells and total biomass in the mutant strain, in comparison with the wild-type. C. albicans mutant Δ/Δrlm1 strain was also found to be less virulent than the wild-type and complemented strains in the murine model of disseminated candidiasis. Overall, we showed that in the absence of RLM1 the modifications in the cell wall composition alter yeast interaction with the environment, with consequences in adhesion ability and virulence. The gene expression findings suggest that this gene participates in the cell wall biogenesis, with the mutant rearranging its metabolic pathways to allow the use of alternative carbon sources. [ABSTRACT FROM AUTHOR]

Published
2014
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31. Involvement of Yeast HSP90 Isoforms in Response to Stress and Cell Death Induced by Acetic Acid.

Author

Silva, Alexandra, Sampaio-Marques, Belém, Fernandes, Ângela, Carreto, Laura, Rodrigues, Fernando, Holcik, Martin, Santos, Manuel A. S., and Ludovico, Paula

Subjects
HEAT shock proteins, YEAST, STIMULUS & response (Biology), CELL death, ACETIC acid, PROTEIN synthesis, MOLECULAR chaperones
Abstract

Acetic acid-induced apoptosis in yeast is accompanied by an impairment of the general protein synthesis machinery, yet paradoxically also by the up-regulation of the two isoforms of the heat shock protein 90 (HSP90) chaperone family, Hsc82p and Hsp82p. Herein, we show that impairment of cap-dependent translation initiation induced by acetic acid is caused by the phosphorylation and inactivation of eIF2α by Gcn2p kinase. A microarray analysis of polysome-associated mRNAs engaged in translation in acetic acid challenged cells further revealed that HSP90 mRNAs are over-represented in this polysome fraction suggesting preferential translation of HSP90 upon acetic acid treatment. The relevance of HSP90 isoform translation during programmed cell death (PCD) was unveiled using genetic and pharmacological abrogation of HSP90, which suggests opposing roles for HSP90 isoforms in cell survival and death. Hsc82p appears to promote survival and its deletion leads to necrotic cell death, while Hsp82p is a pro-death molecule involved in acetic acid-induced apoptosis. Therefore, HSP90 isoforms have distinct roles in the control of cell fate during PCD and their selective translation regulates cellular response to acetic acid stress. [ABSTRACT FROM AUTHOR]

Published
2013
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32. Analysis of the Effects of Sex Hormone Background on the Rat Choroid Plexus Transcriptome by cDNA Microarrays.

Author

Quintela, Telma, Gonçalves, Isabel, Carreto, Laura C., Santos, Manuel A. S., Marcelino, Helena, Patriarca, Filipa M., and Santos, Cecília R. A.

Subjects
SEX hormones, LABORATORY rats, CHOROID plexus, GENETIC transcription, ANTISENSE DNA, DNA microarrays, PROTEIN structure, CEREBROSPINAL fluid
Abstract

The choroid plexus (CP) are highly vascularized branched structures that protrude into the ventricles of the brain, and form a unique interface between the blood and the cerebrospinal fluid (CSF), the blood-CSF barrier, that are the main site of production and secretion of CSF. Sex hormones are widely recognized as neuroprotective agents against several neurodegenerative diseases, and the presence of sex hormones cognate receptors suggest that it may be a target for these hormones. In an effort to provide further insight into the neuroprotective mechanisms triggered by sex hormones we analyzed gene expression differences in the CP of female and male rats subjected to gonadectomy, using microarray technology. In gonadectomized female and male animals, 3045 genes were differentially expressed by 1.5-fold change, compared to sham controls. Analysis of the CP transcriptome showed that the top-five pathways significantly regulated by the sex hormone background are olfactory transduction, taste transduction, metabolism, steroid hormone biosynthesis and circadian rhythm pathways. These results represent the first overview of global expression changes in CP of female and male rats induced by gonadectomy and suggest that sex hormones are implicated in pathways with central roles in CP functions and CSF homeostasis. [ABSTRACT FROM AUTHOR]

Published
2013
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33. Quercetin Protects Saccharomyces cerevisiae against Oxidative Stress by Inducing Trehalose Biosynthesis and the Cell Wall Integrity Pathway.

Author

Vilaça, Rita, Mendes, Vanda, Mendes, Marta Vaz, Carreto, Laura, Amorim, Maria Amélia, De Freitas, Victor, Moradas.-Ferreira, Pedro, Mateus, Nuno, Costa, Vítor, and Kowaltowski, Alicia J.

Subjects
QUERCETIN, GENE expression, OXIDATIVE stress, COMPUTER software, RNA metabolism, RIBOSOMES
Abstract

Background: Quercetin is a naturally occurring flavonol with antioxidant, anticancer and anti-ageing properties. In this study we aimed to identify genes differentially expressed in yeast cells treated with quercetin and its role in oxidative stress protection. Methods: A microarray analysis was performed to characterize changes in the transcriptome and the expression of selected genes was validated by RT-qPCR. Biological processes significantly affected were identified by using the FUNSPEC software and their relevance in H2O2 resistance induced by quercetin was assessed. Results: Genes associated with RNA metabolism and ribosome biogenesis were down regulated in cells treated with quercetin, whereas genes associated with carbohydrate metabolism, endocytosis and vacuolar proteolysis were up regulated. The induction of genes related to the metabolism of energy reserves, leading to the accumulation of the stress protectant disaccharide trehalose, and the activation of the cell wall integrity pathway play a key role in oxidative stress resistance induced by quercetin. Conclusions: These results suggest that quercetin may act as a modulator of cell signaling pathways related to carbohydrate metabolism and cell integrity to exert its protective effects against oxidative stress. [ABSTRACT FROM AUTHOR]

Published
2012
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34. Species-Specific Codon Context Rules Unveil Non-Neutrality Effects of Synonymous Mutations.

Author

Moura, Gabriela R., Pinheiro, Miguel, Freitas, Adelaide, Oliveira, José L., Frommlet, Jörg C., Carreto, Laura, Soares, Ana R., Bezerra, Ana R., and Santos, Manuel A. S.

Subjects
AMINO acid sequence, PROTEIN analysis, GENETIC mutation, HEREDITY, FOODBORNE diseases, GENOMES, GENETIC code
Abstract

Background: Codon pair usage (codon context) is a species specific gene primary structure feature whose evolutionary and functional roles are poorly understood. The data available show that codon-context has direct impact on both translation accuracy and efficiency, but one does not yet understand how it affects these two translation variables or whether context biases shape gene evolution. Methodologies/Principal Findings: Here we study codon-context biases using a set of 72 orthologous highly conserved genes from bacteria, archaea, fungi and high eukaryotes to identify 7 distinct groups of codon context rules. We show that synonymous mutations, i.e., neutral mutations that occur in synonymous codons of codon-pairs, are selected to maintain context biases and that non-synonymous mutations, i.e., non-neutral mutations that alter protein amino acid sequences, are also under selective pressure to preserve codon-context biases. Conclusions: Since in vivo studies provide evidence for a role of codon context on decoding fidelity in E. coli and for decoding efficiency in mammalian cells, our data support the hypothesis that, like codon usage, codon context modulates the evolution of gene primary structure and fine tunes the structure of open reading frames for high genome translational fidelity and efficiency in the 3 domains of life. [ABSTRACT FROM AUTHOR]

Published
2011
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35. MicroRNA Expression Variability in Human Cervical Tissues.

Author

Pereira, Patrícia M., Marques, João Paulo, Soares, Ana R., Carreto, Laura, and Santos, Manuel A. S.

Subjects
CERVICAL cancer diagnosis, GENE expression, TUMOR genetics, SQUAMOUS cell carcinoma, TISSUE analysis, DIFFERENCES, DNA fingerprinting, GENES
Abstract

MicroRNAs (miRNAs) are short (∼22 nt) non-coding regulatory RNAs that control gene expression at the post-transcriptional level. Deregulation of miRNA expression has been discovered in a wide variety of tumours and it is now clear that they contribute to cancer development and progression. Cervical cancer is one of the most common cancers in women worldwide and there is a strong need for a non-invasive, fast and efficient method to diagnose the disease. We investigated miRNA expression profiles in cervical cancer using a microarray platform containing probes for mature miRNAs. We have evaluated miRNA expression profiles of a heterogeneous set of cervical tissues from 25 different patients. This set included 19 normal cervical tissues, 4 squamous cell carcinoma, 5 high-grade squamous intraepithelial lesion (HSIL) and 9 low-grade squamous intraepithelial lesion (LSIL) samples. We observed high variability in miRNA expression especially among normal cervical samples, which prevented us from obtaining a unique miRNA expression signature for this tumour type. However, deregulated miRNAs were identified in malignant and pre-malignant cervical tissues after tackling the high expression variability observed. We were also able to identify putative target genes of relevant candidate miRNAs. Our results show that miRNA expression shows natural variability among human samples, which complicates miRNA data profiling analysis. However, such expression noise can be filtered and does not prevent the identification of deregulated miRNAs that play a role in the malignant transformation of cervical squamous cells. Deregulated miRNAs highlight new candidate gene targets allowing for a better understanding of the molecular mechanism underlying the development of this tumour type. [ABSTRACT FROM AUTHOR]

Published
2010

36. Characterization of novel long-chain 1,2-diols in Thermus species and demonstration that Thermus...

Author

Wait, Robin and Carreto, Laura

Subjects
*BACTERIOLOGY
Abstract

Presents a study which employed the purification and characterization of tetra- and triglycosyl glycolipids from two different colonial forms of Thermus scotoductus X-1, from T. filiformis Tok4 A2, and from T. oshimai SPS-11. Research methods undertaken in this study; Findings of this study; Statistical data.

Published
1997
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38. New compatible solutes related to di-myo-inositol-phosphate in members of the order Thermotogales.

Author

Martins, Ligia O. and Carreto, Laura S.

Subjects
*THERMOPHILIC bacteria, *NUCLEAR magnetic resonance spectroscopy
Abstract

Examines the accumulation of intracellular organic solutes in six species of the order `Thermotogales' by nuclear magnetic resonance spectroscopy. Identification of organic solutes in `T. maritima'; Organic solutes in other members of the order `Thermotogales.'

Published
1996
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41. Co-expression of E- and P-cadherin in breast cancer: role as an invasion suppressor or as an invasion promoter?

Author

Ribeiro, Ana S., Carreto, Laura C., Albergaria, André, Sousa, Bárbara, Ricardo, Sara, Milanezi, Fernanda, Seruca, Raquel, Santos, Manuel A., Schmitt, Fernando, and Paredes, Joana

Subjects
*BREAST cancer
Abstract

An abstract of the article "Co-expression of E- and P-cadherin in breast cancer: role as an invasion suppressor or as an invasion promoter?," by Ana S. Ribeiro, Laura C. Carreto, and Fernanda Milanezi is presented.

Published
2010
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43. Aberrant protein synthesis in human HEK293FT cells

Author

Varanda, Ana Sofia Paulo, Santos, Manuel António da Silva, and Carreto, Laura Cristina da Silva

Subjects
Fisiologia celular, Biologia molecular, Proteínas - Síntese
Abstract

Mestrado em Biologia Aplicada - Biologia Molecular Celular Protein synthesis is tightly regulated and fidelity in this process is essential for maintenance of essential cellular functions. Under normal physiological conditions errors can occur, at frequencies around 10-4 errors per codon decoded. This level of mistranslation can be tolerated by cells. When the frequencies of errors increase mechanisms of protein quality control can fail leading to accumulation of misfolded proteins, which are more prone to form toxic aggregates, can compromise cell viability, disrupt cellular homeostasis and lead to the development of diseases. In order to elucidate how cells respond to mistranslation and understand how protein accumulation can cause disease and cell degeneration, we exposed human HEK293FT cells to canavanine and azetidine-2-carboxylic acid (AZC) which are analogues of arginine and proline, respectively. Their misincorporation into proteins leads to erroneous protein synthesis, misfolding and likely to protein aggregation. Such mistranslation event decreased slightly cellular viability and increased the number of cells arrested in G2/M and S phases of cell cycle. In HEK293FT cells was detected an increase in proteins conjugated with ubiquitin, without altering proteasome activity, which may indicate that at this level of mistranslation, protein quality control mechanisms are active to counteract the formation of protein aggregates. Transcriptional analysis showed that down-regulated genes were mainly associated with extracellular matrix and cell adhesion and up-regulated genes were involved in negative regulation of transcription and response to unfolded proteins. This study provides new insights into the response of human cells to mistranslation by giving a global analysis of transcriptional alterations that occur in response to proteotoxic stress. HEK293FT cells can be a good model to understand the molecular basis of human diseases caused by mRNA mistranslation. A síntese proteica é um mecanismo sujeito a uma apertada regulação, pois a manutenção de funções celulares essenciais está dependente da fidelidade deste processo. Em condições fisiológicas normais podem ocorrer erros, a uma frequência de aproximadamente 10-4 erros por codão descodificado. Este nível de erro é tolerado pelas células, mas quando a frequência destes aumenta, os mecanismos de controlo de qualidade das proteínas podem falhar levando à acumulação de proteínas aberrantes (misfolded) que tendem a formar agregados tóxicos, podem comprometer a viabilidade celular, alterar a homeostasia e levar ao desenvolvimento de doenças. Com o objectivo de elucidar os mecanismos de resposta à acumulação de erros durante a síntese proteica e entender como o aumento de proteínas aberrantes pode levar ao desenvolvimento de doenças e degeneração celular, foram utilizadas células HEK293FT expostas a canavanina e azetidine-2- carboxylic acid (AZC), análogos da arginina e prolina respectivamente. A incorporação destes análogos de aminoácidos leva a uma síntese proteica aberrante e origina proteínas que tendem a agregar e ter consequências tóxicas para as células. No nosso estudo observámos que a incorporação de análogos de aminoácidos levou a uma diminuição ligeira da viabilidade celular, assim como levou ao aumento do número de células nas fases G2/M e S do ciclo celular. Também foi detectado um aumento de proteínas conjugadas com ubiquitina, não se observando alteração na actividade do proteasoma. Isto pode indicar que a este nível de erro a que as células estão sujeitas, os mecanismos de controlo de qualidade de proteínas estão a ser activados de forma a evitarem a agregação proteica. Através das análises ao transcriptoma observou-se que os genes cuja expressão diminuiu estão relacionados com a matriz extracelular e adesão celular e os genes cuja expressão aumentou, estão envolvidos na regulação negativa da transcrição e na resposta a proteínas aberrantes. Este estudo permitiu adquirir novos conhecimentos acerca da resposta celular à incorporação de erros durante a síntese proteica, através da análise de alterações transcripcionais causadas pelo stress proteotóxico. As células HEK293FT são um bom modelo de estudo para compreender as bases moleculares de doenças humanas originadas por uma síntese proteica aberrante.

Published
2011

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