Your search keyword '"Ramon O Vidal"' showing total 32 results

1. The landscape of human mutually exclusive splicing

Author

Klas Hatje, Raza‐Ur Rahman, Ramon O Vidal, Dominic Simm, Björn Hammesfahr, Vikas Bansal, Ashish Rajput, Michel Edwar Mickael, Ting Sun, Stefan Bonn, and Martin Kollmar

Subjects

alternative splicing, differential expression, mutually exclusive splicing, splicing mechanisms, Biology (General), QH301-705.5, Medicine (General), R5-920

Abstract

Abstract Mutually exclusive splicing of exons is a mechanism of functional gene and protein diversification with pivotal roles in organismal development and diseases such as Timothy syndrome, cardiomyopathy and cancer in humans. In order to obtain a first genomewide estimate of the extent and biological role of mutually exclusive splicing in humans, we predicted and subsequently validated mutually exclusive exons (MXEs) using 515 publically available RNA‐Seq datasets. Here, we provide evidence for the expression of over 855 MXEs, 42% of which represent novel exons, increasing the annotated human mutually exclusive exome more than fivefold. The data provide strong evidence for the existence of large and multi‐cluster MXEs in higher vertebrates and offer new insights into MXE evolution. More than 82% of the MXE clusters are conserved in mammals, and five clusters have homologous clusters in Drosophila. Finally, MXEs are significantly enriched in pathogenic mutations and their spatio‐temporal expression might predict human disease pathology.

Published

2017

2. Integrated proteomics identified up-regulated focal adhesion-mediated proteins in human squamous cell carcinoma in an orthotopic murine model.

Author

Daniela C Granato, Mariana R Zanetti, Rebeca Kawahara, Sami Yokoo, Romênia R Domingues, Annelize Z Aragão, Michelle Agostini, Marcelo F Carazzolle, Ramon O Vidal, Isadora L Flores, Johanna Korvala, Nilva K Cervigne, Alan R S Silva, Ricardo D Coletta, Edgard Graner, Nicholas E Sherman, and Adriana F Paes Leme

Subjects

Medicine, Science

Abstract

Understanding the molecular mechanisms of oral carcinogenesis will yield important advances in diagnostics, prognostics, effective treatment, and outcome of oral cancer. Hence, in this study we have investigated the proteomic and peptidomic profiles by combining an orthotopic murine model of oral squamous cell carcinoma (OSCC), mass spectrometry-based proteomics and biological network analysis. Our results indicated the up-regulation of proteins involved in actin cytoskeleton organization and cell-cell junction assembly events and their expression was validated in human OSCC tissues. In addition, the functional relevance of talin-1 in OSCC adhesion, migration and invasion was demonstrated. Taken together, this study identified specific processes deregulated in oral cancer and provided novel refined OSCC-targeting molecules.

Published

2014

3. The fungal pathogen Moniliophthora perniciosa has genes similar to plant PR-1 that are highly expressed during its interaction with cacao.

Author

Paulo J P L Teixeira, Daniela P T Thomazella, Ramon O Vidal, Paula F V do Prado, Osvaldo Reis, Renata M Baroni, Sulamita F Franco, Piotr Mieczkowski, Gonçalo A G Pereira, and Jorge M C Mondego

Subjects

Medicine, Science

Abstract

The widespread SCP/TAPS superfamily (SCP/Tpx-1/Ag5/PR-1/Sc7) has multiple biological functions, including roles in the immune response of plants and animals, development of male reproductive tract in mammals, venom activity in insects and reptiles and host invasion by parasitic worms. Plant Pathogenesis Related 1 (PR-1) proteins belong to this superfamily and have been characterized as markers of induced defense against pathogens. This work presents the characterization of eleven genes homologous to plant PR-1 genes, designated as MpPR-1, which were identified in the genome of Moniliophthora perniciosa, a basidiomycete fungus responsible for causing the devastating witches' broom disease in cacao. We describe gene structure, protein alignment and modeling analyses of the MpPR-1 family. Additionally, the expression profiles of MpPR-1 genes were assessed by qPCR in different stages throughout the fungal life cycle. A specific expression pattern was verified for each member of the MpPR-1 family in the conditions analyzed. Interestingly, some of them were highly and specifically expressed during the interaction of the fungus with cacao, suggesting a role for the MpPR-1 proteins in the infective process of this pathogen. Hypothetical functions assigned to members of the MpPR-1 family include neutralization of plant defenses, antimicrobial activity to avoid competitors and fruiting body physiology. This study provides strong evidence on the importance of PR-1-like genes for fungal virulence on plants.

Published

2012

4. Deep sequencing reveals differences in the transcriptional landscapes of fibers from two cultivated species of cotton.

Author

Jean-Marc Lacape, Michel Claverie, Ramon O Vidal, Marcelo F Carazzolle, Gonçalo A Guimarães Pereira, Manuel Ruiz, Martial Pré, Danny Llewellyn, Yves Al-Ghazi, John Jacobs, Alexis Dereeper, Stéphanie Huguet, Marc Giband, and Claire Lanaud

Subjects

Medicine, Science

Abstract

Cotton (Gossypium) fiber is the most prevalent natural product used in the textile industry. The two major cultivated species, G. hirsutum (Gh) and G. barbadense (Gb), are allotetraploids with contrasting fiber quality properties. To better understand the molecular basis for their fiber differences, EST pyrosequencing was used to document the fiber transcriptomes at two key development stages, 10 days post anthesis (dpa), representing the peak of fiber elongation, and 22 dpa, representing the transition to secondary cell wall synthesis. The 617,000 high quality reads (89% of the total 692,000 reads) from 4 libraries were assembled into 46,072 unigenes, comprising 38,297 contigs and 7,775 singletons. Functional annotation of the unigenes together with comparative digital gene expression (DGE) revealed a diverse set of functions and processes that were partly linked to specific fiber stages. Globally, 2,770 contigs (7%) showed differential expression (>2-fold) between 10 and 22 dpa (irrespective of genotype), with 70% more highly expressed at 10 dpa, while 2,248 (6%) were differentially expressed between the genotypes (irrespective of stage). The most significant genes with differential DGE at 10 dpa included expansins and lipid transfer proteins (higher in Gb), while at 22 dpa tubulins, cellulose, and sucrose synthases showed higher expression in Gb. DGE was compared with expression data of 10 dpa-old fibers from Affymetrix microarrays. Among 543 contigs showing differential expression on both platforms, 74% were consistent in being either over-expressed in Gh (242 genes) or in Gb (161 genes). Furthermore, the unigene set served to identify 339 new SSRs and close to 21,000 inter-genotypic SNPs. Subsets of 88 SSRs and 48 SNPs were validated through mapping and added 65 new loci to a RIL genetic map. The new set of fiber ESTs and the gene-based markers complement existing available resources useful in basic and applied research for crop improvement in cotton.

Published

2012

5. Precisely measured protein lifetimes in the mouse brain reveal differences across tissues and subcellular fractions

Author

Eugenio F. Fornasiero, Sunit Mandad, Hanna Wildhagen, Mihai Alevra, Burkhard Rammner, Sarva Keihani, Felipe Opazo, Inga Urban, Till Ischebeck, M. Sadman Sakib, Maryam K. Fard, Koray Kirli, Tonatiuh Pena Centeno, Ramon O. Vidal, Raza-Ur Rahman, Eva Benito, André Fischer, Sven Dennerlein, Peter Rehling, Ivo Feussner, Stefan Bonn, Mikael Simons, Henning Urlaub, and Silvio O. Rizzoli

Subjects

Science

Abstract

Measuring precise protein turnover rates in animals is technically challenging at the proteomic level. Here, Fornasiero and colleagues use isotopic labeling with mass spectrometry and mathematical modeling to accurately determine protein lifetimes in the mouse brain

Published

2018

6. Organ-specific small non-coding RNA responses in domestic (Sudani) ducks experimentally infected with highly pathogenic avian influenza virus (H5N1)

Author

Ahmed A.H. Ali, Fatma Abdallah, Ramon O. Vidal, Robert Geffers, Mohamed Samir, Stefan Bonn, Vincenzo Capece, Ashraf Hussein, Frank Pessler, Frauke Seehusen, University of Zurich, and Pessler, Frank

Subjects

virology [Influenza in Birds], animal diseases, viruses, virology [Ducks], pathogenicity [Influenza A Virus, H5N1 Subtype], 10184 Institute of Veterinary Pathology, Piwi-interacting RNA, Biology, medicine.disease_cause, genetics [Ducks], Virus, 1307 Cell Biology, 03 medical and health sciences, 0302 clinical medicine, Transcription (biology), ddc:570, 1312 Molecular Biology, medicine, Animals, genetics [MicroRNAs], Small nucleolar RNA, Molecular Biology, 030304 developmental biology, 0303 health sciences, Influenza A Virus, H5N1 Subtype, Gene Expression Profiling, Chromosome Mapping, metabolism [Influenza in Birds], virus diseases, RNA, genetics [Organ Specificity], Cell Biology, physiology [Influenza A Virus, H5N1 Subtype], Non-coding RNA, Virology, Influenza A virus subtype H5N1, MicroRNAs, Ducks, genetics [Influenza in Birds], Viral replication, Organ Specificity, Influenza in Birds, 030220 oncology & carcinogenesis, Host-Pathogen Interactions, RNA, Small Untranslated, 570 Life sciences, biology, genetics [Host-Pathogen Interactions], genetics [RNA, Small Untranslated], Research Paper

Abstract

The duck represents an important reservoir of influenza viruses for transmission to other avian and mammalian hosts, including humans. The increased pathogenicity of the recently emerging clades of highly pathogenic avian influenza (HPAI) viruses of the H5N1 subtype in ducks features systemic viral spread and organ-to-organ variation in viral transcription and tissue damage. We previously reported that experimental infection of Sudani ducks (Cairina moschata) with an Egyptian HPAI (H5N1) virus (clade 2.2.1.2) features high viral replication and severe tissue damage in lung, but lower viral replication and only mild histological changes in brain. Little is known about the involvement of miRNA in organ-specific responses to H5N1 viruses in ducks, and involvement of the other classes of small noncoding RNA (sncRNA) has not been investigated so far. Following RNA sequencing, we have annotated the duck sncRNome and compared global expression changes of the four major sncRNA classes (miRNAs, piRNAs, snoRNAs, snRNAs) between duck lung and brain during a 120 h time course of infection with this HPAI strain. We find major organ-specific differences in miRNA, piRNA and snoRNA populations even before infection and substantial reprogramming of all sncRNA classes throughout infection, which was less pronounced in brain. Pathway prediction analysis of miRNA targets revealed enrichment of inflammation-, infection- and apoptosis-related pathways in lung, but enrichment of metabolism-related pathways (including tryptophan metabolism) in brain. Thus, organ-specific differences in sncRNA responses may contribute to differences in viral replication and organ damage in ducks infected with isolates from this emerging HPAI clade, and likely other strains.

Published

2019

7. R-spondin 3 promotes stem cell recovery and epithelial regeneration in the colon

Author

Alison Simmons, Christine Harnack, Michael Sigal, Hilmar Berger, Sascha Sauer, Agne Antanaviciute, Thomas F. Meyer, and Ramon O. Vidal

Subjects

0301 basic medicine, Cell biology, Stromal cell, Colon, Cellular differentiation, Science, Cell, General Physics and Astronomy, Mice, Transgenic, Keratin-20, Article, General Biochemistry, Genetics and Molecular Biology, Receptors, G-Protein-Coupled, 03 medical and health sciences, 0302 clinical medicine, Axin Protein, AXIN2, medicine, Animals, Regeneration, Intestinal Mucosa, lcsh:Science, Wnt Signaling Pathway, Mice, Knockout, Multidisciplinary, Chemistry, Gene Expression Profiling, Stem Cells, Regeneration (biology), Intestinal stem cells, Gastroenterology, LGR5, Wnt signaling pathway, Cell Differentiation, General Chemistry, Colitis, digestive system diseases, Enterocytes, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, lcsh:Q, Stem cell, Technology Platforms, Thrombospondins

Abstract

The colonic epithelial turnover is driven by crypt-base stem cells that express the R-spondin receptor Lgr5. Signals that regulate epithelial regeneration upon stem cell injury are largely unknown. Here, we explore the dynamics of Wnt signaling in the colon. We identify two populations of cells with active Wnt signaling: highly proliferative Lgr5+/Axin2+ cells, as well as secretory Lgr5−/Axin2+ cells. Upon Lgr5+ cell depletion, these cells are recruited to contribute to crypt regeneration. Chemical injury induced by DSS leads to a loss of both Lgr5+ cells and Axin2+ cells and epithelial regeneration is driven by Axin2− cells, including differentiated Krt20+ surface enterocytes. Regeneration requires stromal Rspo3, which is present at increased levels upon injury and reprograms Lgr5− but Lgr4+ differentiated cells. In contrast, depletion of stromal Rspo3 impairs crypt regeneration, even upon mild injury. We demonstrate that Rspo3 is essential for epithelial repair via induction of Wnt signaling in differentiated cells., Epithelial turnover in the colon requires stem cells in the crypt that express the R-spondin receptor Lgr5. Here, the authors show that regeneration after colon injury involving loss of Lgr5+ and Axin2+ cells requires stromal derived Rspo3-dependent reprogramming of Lgr4+ differentiated cells, including Krt20+ enterocytes.

Published

2019

8. CRISPLD1: a novel conserved target in the transition to human heart failure

Author

Frederike Weber, Stefan Bonn, Karl Toischer, Katrin Streckfuss-Bömeke, Sara Khadjeh, Setare Torkieh, Belal A. Mohamed, Ramon O. Vidal, Lukas Cyganek, Malte Tiburcy, Dawid Lbik, Vanessa Hindmarsh, and Gerd Hasenfuss

Subjects

0301 basic medicine, Male, Candidate gene, cytology [Myocytes, Cardiac], Physiology, Biopsy, genetics [Heart Failure], Apoptosis, 030204 cardiovascular system & hematology, Muscle hypertrophy, Transcriptome, Mice, genetics [Aortic Valve Stenosis], 0302 clinical medicine, Transforming Growth Factor beta, CRISPR, metabolism [Calcium], Myocytes, Cardiac, genetics [Cell Adhesion Molecules], Conserved Sequence, metabolism [Transforming Growth Factor beta], complications [Heart Failure], cytology [Induced Pluripotent Stem Cells], Original Contribution, Cell biology, deficiency [Cell Adhesion Molecules], Calcium cycling, Female, Technology Platforms, Cardiology and Cardiovascular Medicine, metabolism [Aortic Valve Stenosis], iPSC-CM, Induced Pluripotent Stem Cells, Down-Regulation, metabolism [Cell Adhesion Molecules], Heart failure, Biology, Evolution, Molecular, 03 medical and health sciences, Downregulation and upregulation, metabolism [Heart Failure], Physiology (medical), medicine, Animals, Humans, ddc:610, Amino Acid Sequence, Calcium Signaling, Pressure overload, Myocardium, Aortic Valve Stenosis, chemistry [Cell Adhesion Molecules], LCCL domain, medicine.disease, complications [Aortic Valve Stenosis], Compensated hypertrophy, 030104 developmental biology, metabolism [Myocytes, Cardiac], Calcium, metabolism [Myocardium], Cell Adhesion Molecules

Abstract

Heart failure is a major health problem worldwide with a significant morbidity and mortality rate. Although studied extensively in animal models, data from patients at the compensated disease stage are lacking. We sampled myocardium biopsies from aortic stenosis patients with compensated hypertrophy and moderate heart failure and used transcriptomics to study the transition to failure. Sequencing and comparative analysis of analogous samples of mice with transverse aortic constriction identified 25 candidate genes with similar regulation in response to pressure overload, reflecting highly conserved molecular processes. The gene cysteine-rich secretory protein LCCL domain containing 1 (CRISPLD1) is upregulated in the transition to failure in human and mouse and its function is unknown. Homology to ion channel regulatory toxins suggests a role in Ca2+ cycling. CRISPR/Cas9-mediated loss-of-function leads to dysregulated Ca2+ handling in human-induced pluripotent stem cell-derived cardiomyocytes. The downregulation of prohypertrophic, proapoptotic and Ca2+-signaling pathways upon CRISPLD1-KO and its upregulation in the transition to failure implicates a contribution to adverse remodeling. These findings provide new pathophysiological data on Ca2+ regulation in the transition to failure and novel candidate genes with promising potential for therapeutic interventions. Electronic supplementary material The online version of this article (10.1007/s00395-020-0784-4) contains supplementary material, which is available to authorized users.

Published

2019

9. The codon sequences predict protein lifetimes and other parameters of the protein life cycle in the mouse brain

Author

Tonatiuh Pena Centeno, Koray Kirli, Sunit Mandad, Inga Urban, Hanna Wildhagen, Ramon O. Vidal, Eva Benito, Burkhard Rammner, Eugenio F. Fornasiero, Andre Fischer, Peter Rehling, Ivo Feussner, Sven Dennerlein, Roya Yousefi, Till Ischebeck, Stefan Bonn, Sarva Keihani, Raza-Ur Rahman, Felipe Opazo, Henning Urlaub, and Silvio O. Rizzoli

Subjects

0301 basic medicine, mouse brain, protein life cycle, lcsh:Medicine, Nerve Tissue Proteins, Biology, Proteomics, metabolism [RNA, Messenger], Article, Mice, genetics [RNA, Messenger], 03 medical and health sciences, 0302 clinical medicine, In vivo, Animals, Nucleotide, Amino Acid Sequence, RNA, Messenger, Amino Acids, lcsh:Science, Codon, genetics [Nerve Tissue Proteins], genetics [Amino Acids], chemistry.chemical_classification, Base Composition, Messenger RNA, Multidisciplinary, Base Sequence, Nucleotides, lcsh:R, genetics [Codon], Brain, Translation (biology), In vitro, Amino acid, Cell biology, genetics [Nucleotides], 030104 developmental biology, chemistry, metabolism [Brain], Proteome, Proteostasis, lcsh:Q, genetics [Base Composition], chemistry [Nerve Tissue Proteins], ddc:600, 030217 neurology & neurosurgery

Abstract

The homeostasis of the proteome depends on the tight regulation of the mRNA and protein abundances, of the translation rates, and of the protein lifetimes. Results from several studies on prokaryotes or eukaryotic cell cultures have suggested that protein homeostasis is connected to, and perhaps regulated by, the protein and the codon sequences. However, this has been little investigated for mammals in vivo. Moreover, the link between the coding sequences and one critical parameter, the protein lifetime, has remained largely unexplored, both in vivo and in vitro. We tested this in the mouse brain, and found that the percentages of amino acids and codons in the sequences could predict all of the homeostasis parameters with a precision approaching experimental measurements. A key predictive element was the wobble nucleotide. G-/C-ending codons correlated with higher protein lifetimes, protein abundances, mRNA abundances and translation rates than A-/U-ending codons. Modifying the proportions of G-/C-ending codons could tune these parameters in cell cultures, in a proof-of-principle experiment. We suggest that the coding sequences are strongly linked to protein homeostasis in vivo, albeit it still remains to be determined whether this relation is causal in nature.

Published

2018

10. Epigenetic alterations in longevity regulators, reduced life span, and exacerbated aging-related pathology in old father offspring mice

Author

Eckhard Wolf, Ramon O. Vidal, Anna Matynia, Frauke Neff, Birgit Rathkolb, Valerie Gailus-Durner, Anna-Lena Schütz, Helmut Fuchs, Gerhard Ehninger, Dan Ehninger, Devon Ryan, Dirk H. Busch, Jan Rozman, Cornelia Prehn, Martin Hrabě de Angelis, Stefan Bonn, Melvin Schleif, Isabelle Lehmann, Walker S. Jackson, Michel E. Mickael, Jerzy Adamski, Magali Hennion, Thure Adler, Kristin S. Henzel, Brandon L. Pearson, Susanne Schröder, Kan Xie, and Marco Weiergräber

Subjects

0301 basic medicine, Male, Aging, Medical Sciences, Rodent, Offspring, media_common.quotation_subject, Longevity, Physiology, Epigenetics, Intergenerational Inheritance, Sperm, Mtor, Disease, Mechanistic Target of Rapamycin Complex 1, intergenerational inheritance, sperm, Epigenesis, Genetic, 03 medical and health sciences, Fathers, Mice, Life Expectancy, biology.animal, metabolism [Mechanistic Target of Rapamycin Complex 1], Animals, Humans, Risk factor, Promoter Regions, Genetic, Gene, PI3K/AKT/mTOR pathway, media_common, aging, epigenetics, mTOR, metabolism [Spermatozoa], Multidisciplinary, biology, Age Factors, genetics [Mechanistic Target of Rapamycin Complex 1], Biological Sciences, DNA Methylation, physiology [Aging], Spermatozoa, ddc, Pedigree, 030104 developmental biology, PNAS Plus, genetics [Aging], Female, ddc:500

Abstract

Significance Aging-associated diseases are increasingly common in an aging global population. However, the contributors and origins of differential risk for unhealthy aging remain poorly understood. Using a mouse model, we found that offspring of aged fathers exhibited a reduced life span and more pronounced aging-associated pathologies than animals sired by young fathers. Tissue of offspring and aged fathers revealed shared epigenetic signatures and showed altered activation states of longevity-related cell signaling. Our results suggest that variability in aging trajectories could derive, in part, from the age at conception of the father, a possibility that warrants human epidemiological investigation., Advanced age is not only a major risk factor for a range of disorders within an aging individual but may also enhance susceptibility for disease in the next generation. In humans, advanced paternal age has been associated with increased risk for a number of diseases. Experiments in rodent models have provided initial evidence that paternal age can influence behavioral traits in offspring animals, but the overall scope and extent of paternal age effects on health and disease across the life span remain underexplored. Here, we report that old father offspring mice showed a reduced life span and an exacerbated development of aging traits compared with young father offspring mice. Genome-wide epigenetic analyses of sperm from aging males and old father offspring tissue identified differentially methylated promoters, enriched for genes involved in the regulation of evolutionarily conserved longevity pathways. Gene expression analyses, biochemical experiments, and functional studies revealed evidence for an overactive mTORC1 signaling pathway in old father offspring mice. Pharmacological mTOR inhibition during the course of normal aging ameliorated many of the aging traits that were exacerbated in old father offspring mice. These findings raise the possibility that inherited alterations in longevity pathways contribute to intergenerational effects of aging in old father offspring mice.

Published

2018

11. Precisely measured protein lifetimes in the mouse brain reveal differences across tissues and subcellular fractions

Author

Silvio O. Rizzoli, Ramon O. Vidal, Sven Dennerlein, Eugenio F. Fornasiero, Till Ischebeck, M. Sadman Sakib, Andre Fischer, Peter Rehling, Ivo Feussner, Mikael Simons, Maryam K. Fard, Burkhard Rammner, Sarva Keihani, Stefan Bonn, Raza-Ur Rahman, Henning Urlaub, Tonatiuh Pena Centeno, Felipe Opazo, Inga Urban, Mihai Alevra, Koray Kirli, Eva Benito, Sunit Mandad, and Hanna Wildhagen

Subjects

0301 basic medicine, Male, Science, genetics [beta-Galactosidase], General Physics and Astronomy, metabolism [Hippocampus], Mass spectrometry, Hippocampus, General Biochemistry, Genetics and Molecular Biology, Article, Mass Spectrometry, Isotopic labeling, 03 medical and health sciences, Mice, In vivo, Organelle, Animals, lcsh:Science, Organism, chemistry.chemical_classification, Multidisciplinary, Chemistry, Brain, Computational Biology, General Chemistry, Models, Theoretical, beta-Galactosidase, In vitro, Amino acid, metabolism [beta-Galactosidase], 030104 developmental biology, Biochemistry, metabolism [Brain], lcsh:Q, ddc:500

Abstract

The turnover of brain proteins is critical for organism survival, and its perturbations are linked to pathology. Nevertheless, protein lifetimes have been difficult to obtain in vivo. They are readily measured in vitro by feeding cells with isotopically labeled amino acids, followed by mass spectrometry analyses. In vivo proteins are generated from at least two sources: labeled amino acids from the diet, and non-labeled amino acids from the degradation of pre-existing proteins. This renders measurements difficult. Here we solved this problem rigorously with a workflow that combines mouse in vivo isotopic labeling, mass spectrometry, and mathematical modeling. We also established several independent approaches to test and validate the results. This enabled us to measure the accurate lifetimes of ~3500 brain proteins. The high precision of our data provided a large set of biologically significant observations, including pathway-, organelle-, organ-, or cell-specific effects, along with a comprehensive catalog of extremely long-lived proteins (ELLPs)., Measuring precise protein turnover rates in animals is technically challenging at the proteomic level. Here, Fornasiero and colleagues use isotopic labeling with mass spectrometry and mathematical modeling to accurately determine protein lifetimes in the mouse brain

Published

2018

12. Severe DCM phenotype of patient harboring RBM20 mutation S635A can be modeled by patient-specific induced pluripotent stem cell-derived cardiomyocytes

Author

Andreas Perrot, Sara Khadjeh, Jan Haas, Cemil Özcelik, Malte Tiburcy, Samuel Sossalla, Kaomei Guan, Wolfram-Hubertus Zimmermann, Sabine Rebs, Wener Li, Claudia Fischer, Xiaojing Luo, Benjamin Meder, Ramon O. Vidal, Wolfgang A. Linke, Stefan Bonn, Gerd Hasenfuss, Andrey Fomin, and Katrin Streckfuss-Bömeke

Subjects

0301 basic medicine, genetics [Transcriptome], Transcriptome, Mice, Missense mutation, metabolism [Calcium], genetics [RNA-Binding Proteins], Connectin, Myocytes, Cardiac, ribonucleic acid binding motif protein 20, human, Induced pluripotent stem cell, health care economics and organizations, Cells, Cultured, biology, RNA-Binding Proteins, 3. Good health, Cell biology, metabolism [Induced Pluripotent Stem Cells], Phenotype, RNA splicing, genetics [RNA Splicing], Titin, Female, Cardiology and Cardiovascular Medicine, Gene isoform, Adult, Cardiomyopathy, Dilated, Sarcomeres, RNA Splicing, Induced Pluripotent Stem Cells, metabolism [RNA-Binding Proteins], 03 medical and health sciences, Animals, Humans, Alternative splicing, Cardiomyocytes, Dilated cardiomyopathy (DCM), Induced pluripotent stem cells (iPSCs), RNA-binding motif protein 20 (RBM20), Titin (TTN), ddc:610, Molecular Biology, Molecular biology, Exon skipping, 030104 developmental biology, Cardiovascular and Metabolic Diseases, metabolism [Connectin], Mutation, biology.protein, metabolism [Myocytes, Cardiac], Calcium, metabolism [Cardiomyopathy, Dilated], metabolism [Sarcomeres]

Abstract

The ability to generate patient-specific induced pluripotent stem cells (iPSCs) provides a unique opportunity for modeling heart disease in vitro. In this study, we generated iPSCs from a patient with dilated cardiomyopathy (DCM) caused by a missense mutation S635A in RNA-binding motif protein 20 (RBM20) and investigated the functionality and cell biology of cardiomyocytes (CMs) derived from patient-specific iPSCs (RBM20-iPSCs). The RBM20-iPSC-CMs showed abnormal distribution of sarcomeric α-actinin and defective calcium handling compared to control-iPSC-CMs, suggesting disorganized myofilament structure and altered calcium machinery in CMs of the RBM20 patient. Engineered heart muscles (EHMs) from RBM20-iPSC-CMs showed that not only active force generation was impaired in RBM20-EHMs but also passive stress of the tissue was decreased, suggesting a higher visco-elasticity of RBM20-EHMs. Furthermore, we observed a reduced titin (TTN) N2B-isoform expression in RBM20-iPSC-CMs by demonstrating a reduction of exon skipping in the PEVK region of TTN and an inhibition of TTN isoform switch. In contrast, in control-iPSC-CMs both TTN isoforms N2B and N2BA were expressed, indicating that the TTN isoform switch occurs already during early cardiogenesis. Using next generation RNA sequencing, we mapped transcriptome and splicing target profiles of RBM20-iPSC-CMs and identified different cardiac gene networks in response to the analyzed RBM20 mutation in cardiac-specific processes. These findings shed the first light on molecular mechanisms of RBM20-dependent pathological cardiac remodeling leading to DCM. Our data demonstrate that iPSC-CMs coupled with EHMs provide a powerful tool for evaluating disease-relevant functional defects and for a deeper mechanistic understanding of alternative splicing-related cardiac diseases. peerReviewed

Published

2017

13. Oasis: online analysis of small RNA deep sequencing data

Author

Irantzu Suberviola, Raza-Ur Rahman, Julio C. Garcia Vizcaino, Andre Fischer, Orr Shomroni, Vincenzo Capece, Tonatiuh Pena Centeno, Ramon O. Vidal, and Stefan Bonn

Subjects

Statistics and Probability, methods [High-Throughput Nucleotide Sequencing], Java, Computer science, analysis [MicroRNAs], computer.software_genre, JavaScript, Biochemistry, Online Systems, ddc:570, Web application, Humans, genetics [MicroRNAs], Molecular Biology, computer.programming_language, methods [Sequence Analysis, RNA], methods [Computational Biology], Internet, Database, business.industry, Sequence Analysis, RNA, Computational Biology, High-Throughput Nucleotide Sequencing, Python (programming language), Applications Notes, Computer Science Applications, Visualization, Computational Mathematics, MicroRNAs, Workflow, Computational Theory and Mathematics, Data analysis, The Internet, business, computer, Sequence Analysis, Software

Abstract

Summary: Oasis is a web application that allows for the fast and flexible online analysis of small-RNA-seq (sRNA-seq) data. It was designed for the end user in the lab, providing an easy-to-use web frontend including video tutorials, demo data and best practice step-by-step guidelines on how to analyze sRNA-seq data. Oasis’ exclusive selling points are a differential expression module that allows for the multivariate analysis of samples, a classification module for robust biomarker detection and an advanced programming interface that supports the batch submission of jobs. Both modules include the analysis of novel miRNAs, miRNA targets and functional analyses including GO and pathway enrichment. Oasis generates downloadable interactive web reports for easy visualization, exploration and analysis of data on a local system. Finally, Oasis’ modular workflow enables for the rapid (re-) analysis of data. Availability and implementation: Oasis is implemented in Python, R, Java, PHP, C++ and JavaScript. It is freely available at http://oasis.dzne.de. Contact: stefan.bonn@dzne.de Supplementary information: Supplementary data are available at Bioinformatics online.

Published

2015

14. Expanding the knowledge on lignocellulolytic and redox enzymes of worker and soldier castes from the lower termite Coptotermes gestroi

Author

Thabata M. Alvarez, João Paulo L. Franco Cairo, Flavia C. Leonardo, Luciana S. Mofatto, Ramon O. Vidal, Marcelo Falsarella Carazzolle, Fabio M. Squina, Ana Maria Costa-Leonardo, Lívia B. Brenelli, Adriana Franco Paes Leme, Cristiane Uchima, Fernando Ferreira Costa, Robson Tramontina, Romênia R. Domingues, Thiago Augusto Gonçalves, Gonçalo Amarante Guimarães Pereira, Centro Nacional de Pesquisa em Energia e Materiais (CNPEM), Universidade Estadual de Campinas (UNICAMP), and Universidade Estadual Paulista (Unesp)

Subjects

0301 basic medicine, Microbiology (medical), CAZy, termites, lcsh:QR1-502, termite digestomes, Cellulase, Microbiology, lcsh:Microbiology, Decomposer, Auxiliary activity enzymes, auxiliary activity enzymes, 03 medical and health sciences, Redox enzymes, Symbiosis, Coptotermes gestroi, second-generation biofuels, Botany, second generation biofuels, Glycoside hydrolase, Second-generation biofuels, Genetics, chemistry.chemical_classification, biology, Carbohydrate Active Enzymes, biology.organism_classification, Termite digestomes, 030104 developmental biology, Enzyme, chemistry, carbohydrate-active enzymes, biology.protein, Carbohydrate-active enzymes, termite, auxiliary activities enzymes

Abstract

Made available in DSpace on 2018-12-11T17:30:16Z (GMT). No. of bitstreams: 0 Previous issue date: 2016-10-13 Made available in DSpace on 2018-12-11T17:30:16Z (GMT). No. of bitstreams: 0 Previous issue date: 2016-10-13 Made available in DSpace on 2018-12-11T17:30:16Z (GMT). No. of bitstreams: 0 Previous issue date: 2016-10-13 Termites are considered one of the most efficient decomposers of lignocelluloses on Earth due to their ability to produce, along with its microbial symbionts, a repertoire of carbohydrate-active enzymes (CAZymes). Recently, a set of Pro-oxidant, Antioxidant, and Detoxification enzymes (PAD) were also correlated with the metabolism of carbohydrates and lignin in termites. The lower termite Coptotermes gestroi is considered the main urban pest in Brazil, causing damage to wood constructions. Recently, analysis of the enzymatic repertoire of C. gestroi unveiled the presence of different CAZymes. Because the gene profile of CAZy/PAD enzymes endogenously synthesized by C. gestroi and also by their symbiotic protists remains unclear, the aim of this study was to explore the eukaryotic repertoire of these enzymes in worker and soldier castes of C. gestroi. Our findings showed that worker and soldier castes present similar repertoires of CAZy/PAD enzymes, and also confirmed that endo-glucanases (GH9) and beta-glucosidases (GH1) were the most important glycoside hydrolase families related to lignocellulose degradation in both castes. Classical cellulases such as exo-glucanases (GH7) and endo-glucanases (GH5 and GH45), as well as classical xylanases (GH10 and GH11), were found in both castes only taxonomically related to protists, highlighting the importance of symbiosis in C. gestroi. Moreover, our analysis revealed the presence of Auxiliary Activity enzyme families (AAs), which could be related to lignin modifications in termite digestomes. In conclusion, this report expanded the knowledge on genes and proteins related to CAZy/PAD enzymes from worker and soldier castes of lower termites, revealing new potential enzyme candidates for second-generation biofuel processes. Laborat�rio Nacional de Ci�ncia e Tecnologia do Bioetanol (CTBE) Centro Nacional de Pesquisa em Energia e Materiais (CNPEM) Departamento de Bioqu�mica e Biologia Tecidual Universidade Estadual de Campinas (UNICAMP) Laborat�rio de Gen�mica e Express�o Universidade Estadual de Campinas (UNICAMP) Centro de Hematologia e Hemoterapia (Hemocentro) Universidade Estadual de Campinas (UNICAMP) Laborat�rio de Espectrometria de Massas Laborat�rio Nacional de Bioci�ncias (LNBIO) Centro Nacional de Pesquisa em Energia e Materiais (CNPEM) Departamento de Biologia Instituto de Bioci�ncias Universidade Estadual Paulista (UNESP) Departamento de Biologia Instituto de Bioci�ncias Universidade Estadual Paulista (UNESP)

Published

2016

15. TAp73 is a central transcriptional regulator of airway multiciliogenesis and protects bronchial function

Author

Magali Hennion, H Steffen, B Royen, Stefan Bonn, Daniela Kramer, Ute M. Moll, Detlev Schild, Mihai Alevra, Tonatiuh Pena, Christian Herr, Alice Nemajerova, Muriel Lizé, Ramon O. Vidal, Magdalena Wienken, K Glaser, Jürgen Dönitz, Robert Bals, C. Gallinas Suazo, Ken-Ichi Takemaru, Orr Shomroni, Dietmar Riedel, Merit Wildung, F Oberle, Saul S. Siller, and Anusha Sriraman

Subjects

Pulmonary and Respiratory Medicine, Transcriptional regulation, Biology, Airway, Multiciliogenesis, Function (biology), Cell biology

Published

2016

16. Genome-wide chromatin and gene expression profiling during memory formation and maintenance in adult mice

Author

Rashi Halder, Ramon O. Vidal, Orr Shomroni, Tonatiuh Pena Centeno, Stefan Bonn, Magali Hennion, and Raza-Ur Rahman

Subjects

0301 basic medicine, Data descriptor, Statistics and Probability, Data Descriptor, Memory, Long-Term, Gene regulatory network, Fear conditioning, Computational biology, chromatin, gene expression, adult mice, Biology, Library and Information Sciences, Biochemistry, biophysics & molecular biology [F05] [Life sciences], Gene regulatory networks, Epigenesis, Genetic, Education, Histones, Mice, 03 medical and health sciences, Epigenetics and behaviour, Sequencing, Animals, Epigenetics, Biochimie, biophysique & biologie moléculaire [F05] [Sciences du vivant], Genetics, Gene Expression Profiling, DNA Methylation, genetics [Histones], Chromatin, Computer Science Applications, Metadata, Gene expression profiling, genetics [Chromatin], 030104 developmental biology, Histone, DNA methylation, biology.protein, ddc:500, Statistics, Probability and Uncertainty, Genome-Wide Association Study, Information Systems

Abstract

Recent evidence suggests that the formation and maintenance of memory requires epigenetic changes. In an effort to understand the spatio-temporal extent of learning and memory-related epigenetic changes we have charted genome-wide histone and DNA methylation profiles, in two different brain regions, two cell types, and three time-points, before and after learning. In this data descriptor we provide detailed information on data generation, give insights into the rationale of experiments, highlight necessary steps to assess data quality, offer guidelines for future use of the data and supply ready-to-use code to replicate the analysis results. The data provides a blueprint of the gene regulatory network underlying short- and long-term memory formation and maintenance. This ‘healthy’ gene regulatory network of learning can now be compared to changes in neurological or psychiatric diseases, providing mechanistic insights into brain disorders and highlighting potential therapeutic avenues. Machine-accessible metadata file describing the reported data (ISA-Tab format)

Published

2016

17. Expanding the Knowledge on Lignocellulolytic and Redox Enzymes of Worker and Soldier Castes from the Lower Termite

Author

João P L, Franco Cairo, Marcelo F, Carazzolle, Flávia C, Leonardo, Luciana S, Mofatto, Lívia B, Brenelli, Thiago A, Gonçalves, Cristiane A, Uchima, Romênia R, Domingues, Thabata M, Alvarez, Robson, Tramontina, Ramon O, Vidal, Fernando F, Costa, Ana M, Costa-Leonardo, Adriana F, Paes Leme, Gonçalo A G, Pereira, and Fabio M, Squina

Subjects

auxiliary activity enzymes, carbohydrate-active enzymes, termites, second-generation biofuels, CAZy, termite digestomes, Microbiology, Original Research

Abstract

Termites are considered one of the most efficient decomposers of lignocelluloses on Earth due to their ability to produce, along with its microbial symbionts, a repertoire of carbohydrate-active enzymes (CAZymes). Recently, a set of Pro-oxidant, Antioxidant, and Detoxification enzymes (PAD) were also correlated with the metabolism of carbohydrates and lignin in termites. The lower termite Coptotermes gestroi is considered the main urban pest in Brazil, causing damage to wood constructions. Recently, analysis of the enzymatic repertoire of C. gestroi unveiled the presence of different CAZymes. Because the gene profile of CAZy/PAD enzymes endogenously synthesized by C. gestroi and also by their symbiotic protists remains unclear, the aim of this study was to explore the eukaryotic repertoire of these enzymes in worker and soldier castes of C. gestroi. Our findings showed that worker and soldier castes present similar repertoires of CAZy/PAD enzymes, and also confirmed that endo-glucanases (GH9) and beta-glucosidases (GH1) were the most important glycoside hydrolase families related to lignocellulose degradation in both castes. Classical cellulases such as exo-glucanases (GH7) and endo-glucanases (GH5 and GH45), as well as classical xylanases (GH10 and GH11), were found in both castes only taxonomically related to protists, highlighting the importance of symbiosis in C. gestroi. Moreover, our analysis revealed the presence of Auxiliary Activity enzyme families (AAs), which could be related to lignin modifications in termite digestomes. In conclusion, this report expanded the knowledge on genes and proteins related to CAZy/PAD enzymes from worker and soldier castes of lower termites, revealing new potential enzyme candidates for second-generation biofuel processes.

Published

2016

18. TAp73 is a central transcriptional regulator of airway multiciliogenesis

Author

Orr Shomroni, Alice Nemajerova, Ken-Ichi Takemaru, Katharina Glaser, Jürgen Dönitz, Henrik Steffen, Daniela Kramer, Fabian Oberle, Detlev Schild, Mihai Alevra, Anusha Sriraman, Muriel Lizé, Dietmar Riedel, Robert Bals, Merit Wildung, Ramon O. Vidal, Bettina Royen, Stefan Bonn, Cristina Gallinas Suazo, Ute M. Moll, Tonatiuh Pena, Magali Hennion, Saul S. Siller, Magdalena Wienken, and Christian Herr

Subjects

0301 basic medicine, Mucociliary clearance, cytology [Respiratory Mucosa], Regulator, Motility, Respiratory Mucosa, Biology, genetics [Gene Expression Regulation], genetics [Respiratory Tract Infections], Ciliopathies, genetics [Cilia], 03 medical and health sciences, Gene Knockout Techniques, Mice, ddc:570, Ciliogenesis, Genetics, Transcriptional regulation, Basal body, Animals, Cilia, Respiratory Tract Infections, Cells, Cultured, delta Np73, mouse, genetics [Cell Differentiation], Nuclear Proteins, genetics [Nuclear Proteins], Cell Differentiation, Cell biology, 030104 developmental biology, Gene Expression Regulation, physiopathology [Respiratory Tract Infections], RFX3, metabolism [Nuclear Proteins], Developmental Biology, Research Paper

Abstract

Motile multiciliated cells (MCCs) have critical roles in respiratory health and disease and are essential for cleaning inhaled pollutants and pathogens from airways. Despite their significance for human disease, the transcriptional control that governs multiciliogenesis remains poorly understood. Here we identify TP73, a p53 homolog, as governing the program for airway multiciliogenesis. Mice with TP73 deficiency suffer from chronic respiratory tract infections due to profound defects in ciliogenesis and complete loss of mucociliary clearance. Organotypic airway cultures pinpoint TAp73 as necessary and sufficient for basal body docking, axonemal extension, and motility during the differentiation of MCC progenitors. Mechanistically, cross-species genomic analyses and complete ciliary rescue of knockout MCCs identify TAp73 as the conserved central transcriptional integrator of multiciliogenesis. TAp73 directly activates the key regulators FoxJ1, Rfx2, Rfx3, and miR34bc plus nearly 50 structural and functional ciliary genes, some of which are associated with human ciliopathies. Our results position TAp73 as a novel central regulator of MCC differentiation.

Published

2016

19. Large-scale analysis of differential gene expression in coffee genotypes resistant and susceptible to leaf miner-toward the identification of candidate genes for marker assisted-selection

Author

Ramon O. Vidal, Oliveiro Guerreiro-Filho, Danielle Cunha Cardoso, Marcelo Falsarella Carazzolle, Mirian Perez Maluf, Juliana Camargo Martinati, Lilian Padilha, P. F. Giachetto, DANIELLE C. CARDOSO, IAC, JULIANA C MARTINATI, IAC, POLIANA FERNANDA GIACHETTO, CNPTIA, RAMON O. VIDAL, MARCELO F. CARAZZOLLE, LILIAN PADILHA, SAPC, OLIVEIRO GUERREIRO-FILHO, IAC, and MIRIAN PEREZ MALUF, SAPC.

Subjects

Candidate gene, Genotype, Leaf miner, Down-Regulation, Leafminers, Plant disease resistance, Biology, Microarray, Coffee, Transcriptome, Coffea Arábica, Plant defense, Genetics, Plant defense against herbivory, Gene, Disease Resistance, Oligonucleotide Array Sequence Analysis, Expressed Sequence Tags, Expressed sequence tag, Microarray analysis techniques, food and beverages, Coffea arabica, Up-Regulation, Plant Leaves, Microarranjo, Genes, DNA microarray, Café, Genome, Plant, Metabolic Networks and Pathways, Microarray technology, Biotechnology, Research Article

Abstract

Background A successful development of herbivorous insects into plant tissues depends on coordination of metabolic processes. Plants have evolved complex mechanisms to recognize such attacks, and to trigger a defense response. To understand the transcriptional basis of this response, we compare gene expression profiles of two coffee genotypes, susceptible and resistant to leaf miner (Leucoptera coffella). A total of 22000 EST sequences from the Coffee Genome Database were selected for a microarray analysis. Fluorescence probes were synthesized using mRNA from the infested and non-infested coffee plants. Array hybridization, scanning and data normalization were performed using Nimble Scan® e ArrayStar® platforms. Genes with foldchange values +/-2 were considered differentially expressed. A validation of 18 differentially expressed genes was performed in infected plants using qRT-PCR approach. Results The microarray analysis indicated that resistant plants differ in gene expression profile. We identified relevant transcriptional changes in defense strategies before insect attack. Expression changes (>2.00-fold) were found in resistant plants for 2137 genes (1266 up-regulated and 873 down-regulated). Up-regulated genes include those responsible for defense mechanisms, hypersensitive response and genes involved with cellular function and maintenance. Also, our analyses indicated that differential expression profiles between resistant and susceptible genotypes are observed in the absence of leaf-miner, indicating that defense is already build up in resistant plants, as a priming mechanism. Validation of selected genes pointed to four selected genes as suitable candidates for markers in assisted-selection of novel cultivars. Conclusions Our results show evidences that coffee defense responses against leaf-miner attack are balanced with other cellular functions. Also analyses suggest a major metabolic reconfiguration that highlights the complexity of this response.

Published

2014

20. DNA methylation changes in plasticity genes accompany the formation and maintenance of memory

Author

Frauke van Bebber, Vincenzo Capece, Eva Benito, Magali Hennion, Ramon O. Vidal, Sanaz Bahari Javan, Orr Shomroni, Stefan Bonn, Christian Haass, Susanne Burkhardt, Ashish Rajput, Tonatiuh Pena Centeno, Rashi Halder, Julio C. Garcia Vizcaino, Andre Fischer, Magdalena Navarro Sala, Raza-Ur Rahman, Anna-Lena Schuetz, and Bettina Schmid

Subjects

0301 basic medicine, Male, metabolism [Histones], Gene Expression, genetics [Neuronal Plasticity], physiology [Memory, Long-Term], Epigenesis, Genetic, Histones, physiology [Gene Expression], Mice, genetics [Gene Expression], Conditioning, Psychological, physiology [Neuronal Plasticity], skin and connective tissue diseases, genetics [Epigenesis, Genetic], Neuronal Plasticity, Behavior, Animal, biology, General Neuroscience, Fear, Chromatin, physiology [Behavior, Animal], Memory, Short-Term, Histone, physiology [Memory, Short-Term], DNA methylation, Behavioral epigenetics, Memory, Long-Term, Epigenetics in learning and memory, Gyrus Cinguli, genetics [DNA Methylation], 03 medical and health sciences, Epigenetics of physical exercise, physiology [DNA Methylation], ddc:570, metabolism [Gyrus Cinguli], Animals, Epigenetics, CA1 Region, Hippocampal, Gene, metabolism [CA1 Region, Hippocampal], DNA Methylation, chemistry [Chromatin], Mice, Inbred C57BL, 030104 developmental biology, physiology [Epigenesis, Genetic], biology.protein, sense organs, Neuroscience

Abstract

The ability to form memories is a prerequisite for an organism's behavioral adaptation to environmental changes. At the molecular level, the acquisition and maintenance of memory requires changes in chromatin modifications. In an effort to unravel the epigenetic network underlying both short- and long-term memory, we examined chromatin modification changes in two distinct mouse brain regions, two cell types and three time points before and after contextual learning. We found that histone modifications predominantly changed during memory acquisition and correlated surprisingly little with changes in gene expression. Although long-lasting changes were almost exclusive to neurons, learning-related histone modification and DNA methylation changes also occurred in non-neuronal cell types, suggesting a functional role for non-neuronal cells in epigenetic learning. Finally, our data provide evidence for a molecular framework of memory acquisition and maintenance, wherein DNA methylation could alter the expression and splicing of genes involved in functional plasticity and synaptic wiring.

Published

2016

21. Molecular cloning and insecticidal effect of Inga laurina trypsin inhibitor on Diatraea saccharalis and Heliothis virescens

Author

Maria Lígia Rodrigues Macedo, Vanessa da Silveira Ramos, Ramon O. Vidal, Sergio Marangoni, Alinne Batista Ambrosio, Lays Cordeiro Guimarães, Gonçalo Amarante Guimarães Pereira, Eduardo Leal Oliveira Camargo, Desiree Soares da Silva, Odalys G. Cabrera, and José Roberto Postali Parra

Subjects

Insecticides, Physiology, Recombinant Fusion Proteins, Health, Toxicology and Mutagenesis, Trypsin inhibitor, Genes, Plant, Toxicology, Diatraea saccharalis, Biochemistry, Lepidoptera genitalia, Feces, Weight Loss, Escherichia coli, medicine, Animals, Cloning, Molecular, Pest Control, Biological, Enzyme Assays, Plant Proteins, Larva, Base Sequence, biology, Heliothis virescens, fungi, Fabaceae, Midgut, Cell Biology, General Medicine, biology.organism_classification, Trypsin, Enzyme Activation, Lepidoptera, Proteolysis, Seeds, Trypsin Inhibitors, Inga laurina, medicine.drug

Abstract

Native Inga laurina (Fabaceae) trypsin inhibitor (ILTI) was tested for anti-insect activity against Diatraea saccharalis and Heliothis virescens larvae. The addition of 0.1% ILTI to the diet of D. saccharalis did not alter larval survival but decreased larval weight by 51%. The H. virescens larvae that were fed a diet containing 0.5% ILTI showed an 84% decrease in weight. ILTI was not digested by the midgut proteinases of either species of larvae. The trypsin levels were reduced by 55.3% in the feces of D. saccharalis and increased by 24.1% in the feces of H. virescens. The trypsin activity in both species fed with ILTI was sensitive to the inhibitor, suggesting that no novel proteinase resistant to ILTI was induced. Additionally, ILTI exhibited inhibitory activity against the proteinases present in the larval midgut of different species of Lepidoptera. The organization of the ilti gene was elucidated by analyzing its corresponding genomic sequence. The recombinant ILTI protein (reILTI) was expressed and purified, and its efficacy was evaluated. Both native ILTI and reILTI exhibited a similar strong inhibitory effect on bovine trypsin activity. These results suggest that ILTI presents insecticidal properties against both insects and may thus be a useful tool in the genetic engineering of plants.

Published

2012

22. Cranberry microsatellite marker development from assembled next-generation genomic sequence

Author

Ramon O. Vidal, Nicholi Vorsa, Marcelo Falsarella Carazzolle, Gonçalo Amarante Guimarães Pereira, Laura L. Georgi, Roberto H. Herai, and James J. Polashock

Subjects

clone (Java method), Genetics, Sequence assembly, Plant Science, Biology, biology.organism_classification, Genetic marker, Genetic linkage, Ericaceae, Microsatellite, Ploidy, Agronomy and Crop Science, Molecular Biology, Selection (genetic algorithm), Biotechnology

Abstract

The large-fruited cranberry (Vaccinium macrocarpon Ait.) is a native North American fruit that is a rich source of dietary phytochemicals with demonstrated and potential benefits for human health. Cranberry is a perennial, self-fertile 2n = 2x = 24 diploid, with a haploid genome size of about 570 Mbp. Present commercial cultivars are only a few breeding and selection cycles removed from their wild progenitors. With an irreducible minimum of 2 years per generation, and significant space and time requirements for phenotypic selection of traits of horticultural interest, genetic enhancement of cranberry could be facilitated by marker-assisted selection (MAS); however, the necessary resources, such as transcript or genomic sequences, molecular genetic markers, and genetic linkage maps, are not yet available. We have begun to generate these resources, starting with next-generation [sequencing by oligonucleotide ligation and detection (SOLiD) mate-paired] sequencing of an inbred cranberry clone, assembling the reads, and developing microsatellite markers from the assembled sequence. Evaluation of the resulting cranberry genomic microsatellite primers has provided a test of the accuracy of the sequence assembly and supplied much-needed molecular markers for a genetic linkage map of cranberry. Mapping these markers will permit sequence scaffolds to be anchored on the genetic map.

Published

2011

23. Genome structure of a Saccharomyces cerevisiae strain widely used in bioethanol production

Author

Silvio Roberto Andrietta, Ramon O. Vidal, Juan Lucas Argueso, Goncxalo A G Pereira, Maria da Graça Stupiello Andrietta, Gustavo G.L. Costa, Piotr A. Mieczkowski, Margaret Dominska, Flavio Cesar Almeida Tavares, Felipe Galzerani, Silvia K. Missawa, Fabiana M. Duarte, Luiz Humberto Gomes, Thomas D. Petes, John H. McCusker, Fred S. Dietrich, André Ricardo Alcarde, Melline F. Noronha, Osmar Vaz De Carvalho Netto, Anderson F. Cunha, and Marcelo Falsarella Carazzolle

Subjects

Letter, Saccharomyces cerevisiae Proteins, Molecular Sequence Data, Saccharomyces cerevisiae, Genomics, Haploidy, Genome, Industrial Microbiology, Genetics, Heterothallic, DNA, Fungal, Gene, Genetics (clinical), Whole genome sequencing, Polymorphism, Genetic, Ethanol, biology, fungi, Karyotype, Sequence Analysis, DNA, Spores, Fungal, biology.organism_classification, Diploidy, Phenotype, Biofuels, Fermentation, Chromosomes, Fungal, Genome, Fungal, Ploidy, Brazil

Abstract

Bioethanol is a biofuel produced mainly from the fermentation of carbohydrates derived from agricultural feedstocks by the yeast Saccharomyces cerevisiae. One of the most widely adopted strains is PE-2, a heterothallic diploid naturally adapted to the sugar cane fermentation process used in Brazil. Here we report the molecular genetic analysis of a PE-2 derived diploid (JAY270), and the complete genome sequence of a haploid derivative (JAY291). The JAY270 genome is highly heterozygous (∼2 SNPs/kb) and has several structural polymorphisms between homologous chromosomes. These chromosomal rearrangements are confined to the peripheral regions of the chromosomes, with breakpoints within repetitive DNA sequences. Despite its complex karyotype, this diploid, when sporulated, had a high frequency of viable spores. Hybrid diploids formed by outcrossing with the laboratory strain S288c also displayed good spore viability. Thus, the rearrangements that exist near the ends of chromosomes do not impair meiosis, as they do not span regions that contain essential genes. This observation is consistent with a model in which the peripheral regions of chromosomes represent plastic domains of the genome that are free to recombine ectopically and experiment with alternative structures. We also explored features of the JAY270 and JAY291 genomes that help explain their high adaptation to industrial environments, exhibiting desirable phenotypes such as high ethanol and cell mass production and high temperature and oxidative stress tolerance. The genomic manipulation of such strains could enable the creation of a new generation of industrial organisms, ideally suited for use as delivery vehicles for future bioenergy technologies.

Published

2009

24. Abstract 1566: Differential expression of Epstein Barr virus miRNAs in triple-negative breast cancer

Author

Perpetua M. Muganda, Scott H. Harrison, Alexander Blanchard, Tiffany Walls, Ramon O. Vidal, and Stefan Bonn

Subjects

Cancer Research, Biology, medicine.disease, medicine.disease_cause, Virology, Epstein–Barr virus, Deep sequencing, Lymphoma, Breast cancer, Oncology, Nasopharyngeal carcinoma, hemic and lymphatic diseases, microRNA, medicine, Cancer research, Carcinogenesis, Triple-negative breast cancer

Abstract

Triple-negative breast cancers (TNBC) accounts for up to 20% of breast cancer cases. These tumors are negative for estrogen, progesterone, and HER2 receptors, which are markers used for diagnosis and treatment of other types of breast cancer. Clinically, TNBCs are notoriously aggressive, respond poorly to targeted therapies, have high rates of relapse, as well as poor prognosis. The molecular basis of TNBC oncogenesis is currently unknown, but it is possible that viral factors, such as Epstein-Barr Virus (EBV) miRNAs, play a role. EBV miRNAs have been implicated in the oncogenesis of several forms of cancer, including Burkitt’s lymphoma and nasopharyngeal carcinoma. The objective of this study, therefore, was to determine the differential expression of EBV miRNAs in TNBC tumors as compared to normal breast tissue. We conducted a comprehensive profiling of viral miRNAs in 48 TNBC tumors as compared to 15 control normal breast tissues, utilizing deep sequencing analysis software and publically available deep sequencing data. Four EBV miRNAs (BART18-3p, BART 8-5p, BART15, BART22) were significantly expressed in 11-17% of the TNBC tumors, and not in control normal breast tissue. Four novel putative EBV miRNAs were found to be differentially expressed in TNBC tumors as compared to control normal cells. Two of the novel putative EBV miRNAs were differentially expressed above 125 reads per million (RPM) in 20% and 27% of the TNBC tumors as compared to 0% and 6.6% of normal breast tissues, respectively. One novel putative EBV miRNA was expressed above 125 RPM in 83% of TNBC tumors as compared to 13% of normal breast tissue. One novel putative EBV miRNA was expressed above 125 RPM in 66% of the normal breast tissue as compared to 2% of the TNBCs. These putative EBV miRNAs localize within genomic regions of EBV, including the LMP-2 region. Ongoing work has so far computationally validated one of these miRNAs as a novel EBV miRNA; in vitro validation studies are in progress. This is the first report on the differential expression of EBV miRNAs in TNBC tumors. Since TNBC tumors are extremely heterogeneous, it is intriguing that 20% of TNBC tumors specifically express the same EBV miRNA. Our findings suggest that these differentially expressed EBV miRNAs may potentially play a role in the pathogenesis of TNBC. Citation Format: Alexander Blanchard, Tiffany Walls, Ramon Vidal, Stefan Bonn, Scott Harrison, Perpetua Muganda. Differential expression of Epstein Barr virus miRNAs in triple-negative breast cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 1566. doi:10.1158/1538-7445.AM2017-1566

Published

2017

25. Specific expression of novel long non-coding RNAs in high-hyperdiploid childhood acute lymphoblastic leukemia

Author

Simon Drouin, Arnaud Droit, Maxime Caron, Karim Oualkacha, Pascal St-Onge, Manon Ouimet, Chantal Richer, Marie-Hélène Lafond, Romain Gioia, Daniel Sinnett, Ramon O. Vidal, and Mathieu Lajoie

Subjects

Male, 0301 basic medicine, lcsh:Medicine, Gene Expression, Disease, Biochemistry, Histones, Cohort Studies, Transcriptome, lcsh:Science, Child, Regulation of gene expression, Multidisciplinary, biology, Chromosome Biology, Gene Expression Regulation, Leukemic, Genomics, 3. Good health, Nucleic acids, Histone, Child, Preschool, Female, RNA, Long Noncoding, Transcriptome Analysis, Research Article, Bivalent chromatin, DNA transcription, Computational biology, Chromosomes, 03 medical and health sciences, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma, DNA-binding proteins, Genetics, Humans, Gene Regulation, Non-coding RNA, Gene, Childhood Acute Lymphoblastic Leukemia, Biology and life sciences, Gene Expression Profiling, Precursor Cells, B-Lymphoid, lcsh:R, Computational Biology, Proteins, Cell Biology, Genome Analysis, Gene expression profiling, 030104 developmental biology, Long non-coding RNAs, biology.protein, RNA, lcsh:Q, Biomarkers

Abstract

Pre-B cell childhood acute lymphoblastic leukemia (pre-B cALL) is a heterogeneous disease involving many subtypes typically stratified using a combination of cytogenetic and molecular-based assays. These methods, although widely used, rely on the presence of known chromosomal translocations, which is a limiting factor. There is therefore a need for robust, sensitive, and specific molecular biomarkers unaffected by such limitations that would allow better risk stratification and consequently better clinical outcome. In this study we performed a transcriptome analysis of 56 pre-B cALL patients to identify expression signatures in different subtypes. In both protein-coding and long non-coding RNAs (lncRNA), we identified subtype-specific gene signatures distinguishing pre-B cALL subtypes, particularly in t(12;21) and hyperdiploid cases. The genes up-regulated in pre-B cALL subtypes were enriched in bivalent chromatin marks in their promoters. LncRNAs is a new and under-studied class of transcripts. The subtype-specific nature of lncRNAs suggests they may be suitable clinical biomarkers to guide risk stratification and targeted therapies in pre-B cALL patients.

Published

2017

26. Integrated proteomics identified up-regulated focal adhesion-mediated proteins in human squamous cell carcinoma in an orthotopic murine model

Author

Adriana Franco Paes Leme, Sami Yokoo, Marcelo Falsarella Carazzolle, Ramon O. Vidal, Nicholas E. Sherman, Michelle Agostini, Ricardo D. Coletta, Alan Roger dos Santos Silva, Johanna Korvala, Isadora Luana Flores, Rebeca Kawahara, Daniela C. Granato, Romênia R. Domingues, Annelize Z.B. Aragão, Mariana R. Zanetti, Nilva K. Cervigne, and Edgard Graner

Subjects

Male, Proteomics, Talin, Pathology, Skin Neoplasms, Tumor Physiology, lcsh:Medicine, Oral Mucosal Cancers, medicine.disease_cause, Biochemistry, Mice, Oral Diseases, Cell Movement, Basic Cancer Research, Medicine and Health Sciences, lcsh:Science, Skin Tumors, Regulation of gene expression, Mice, Inbred BALB C, Multidisciplinary, Animal Models, Neoplasm Proteins, Tongue Neoplasms, Up-Regulation, Gene Expression Regulation, Neoplastic, Oncology, Carcinoma, Squamous Cell, Heterografts, Experimental pathology, Research Article, medicine.medical_specialty, Adhesion Molecules, Oral Medicine, Mice, Nude, Mouse Models, Dermatology, Biology, Research and Analysis Methods, Actin cytoskeleton organization, Focal adhesion, Model Organisms, medicine, Carcinoma, Animals, Humans, Neoplasm Invasiveness, Focal Adhesions, lcsh:R, Biology and Life Sciences, Cancers and Neoplasms, Cancer, Neoplasms, Experimental, Molecular Development, medicine.disease, stomatognathic diseases, Cancer research, lcsh:Q, Carcinogenesis, Neoplasm Transplantation, Developmental Biology

Abstract

Understanding the molecular mechanisms of oral carcinogenesis will yield important advances in diagnostics, prognostics, effective treatment, and outcome of oral cancer. Hence, in this study we have investigated the proteomic and peptidomic profiles by combining an orthotopic murine model of oral squamous cell carcinoma (OSCC), mass spectrometry-based proteomics and biological network analysis. Our results indicated the up-regulation of proteins involved in actin cytoskeleton organization and cell-cell junction assembly events and their expression was validated in human OSCC tissues. In addition, the functional relevance of talin-1 in OSCC adhesion, migration and invasion was demonstrated. Taken together, this study identified specific processes deregulated in oral cancer and provided novel refined OSCC-targeting molecules.

Published

2014

27. mRNA sequencing of Eucalyptus urograndistrees supplemented with flavonoids shows changes on metabolic process and decrease of lignification

Author

Ramon O. Vidal, Gonçalo Amarante Guimarães Pereira, Danieli C. Gonçalves, Jorge Lepikson-Neto, Marcela Salazar, Maria Carolina Scatollin, Eduardo Leal Oliveira Camargo, Wesley Leoricy Marques, and Leandro Nascimento

Subjects

chemistry.chemical_classification, Chalcone synthase, Chalcone isomerase, biology, Transgene, fungi, Flavonoid, food and beverages, General Medicine, biology.organism_classification, Bioinformatics, General Biochemistry, Genetics and Molecular Biology, chemistry.chemical_compound, Flavonoid biosynthesis, MRNA Sequencing, chemistry, Arabidopsis, Poster Presentation, Botany, biology.protein, Lignin

Abstract

Background The flavonoids, naringenin-chalcone and narigenin, are intermediates in phenylpropanoid metabolism in plants, occupying the central position as primary intermediates in flavonoid biosynthesis and are synthesized by chalcone synthase (CHS) and chalcone isomerase (CHI) respectively.[1] It has been reported that supplementation of narigenin-chalcone and narigenin can inhibit the activity of 4CL in vitro, and suppress the growth and reduce lignin content in gramineous plants, while 4CL suppression affected plant phenotype and resulted on dwarfed trees on Pinus[2], and its down-regulation promoted enhanced growth phenotypes on transgenic aspens trees [3], also CHS expression controls flavonoid synthesis and reduced size phenotype on arabidopsis. [4] Eucalyptus is the main source of biomass for pulp and paper industries therefore it’s imperative to study the influence of flavonoid supplementation on Eucalyptus and what kind of overall impact it can have on plant development, especially wood formation and gene expression.

Published

2011

28. A transcriptomic analysis of gene expression in the venom gland of the snake Bothrops alternatus (urutu)

Author

Tatiana Teixeira Torres, Kiara C. Cardoso, Márcio José da Silva, Ramon O. Vidal, Gustavo G.L. Costa, Stephen Hyslop, Marcelo Menossi, and Luiz Eduardo Vieira Del Bem

Subjects

Proteomics, lcsh:QH426-470, lcsh:Biotechnology, Myotoxin, Molecular Sequence Data, Venom, Polymorphism, Single Nucleotide, lcsh:TP248.13-248.65, Crotalid Venoms, Genetics, Animals, Bothrops, Amino Acid Sequence, Peptide sequence, Expressed Sequence Tags, Expressed sequence tag, biology, cDNA library, Gene Expression Profiling, Inverted Repeat Sequences, EXPRESSÃO GÊNICA, Animal Structures, Proteins, biology.organism_classification, Molecular biology, Bothrops alternatus, lcsh:Genetics, Secretory protein, Gene Expression Regulation, DNA Transposable Elements, Databases, Nucleic Acid, Sequence Alignment, Microsatellite Repeats, Research Article, Biotechnology

Abstract

Background The genus Bothrops is widespread throughout Central and South America and is the principal cause of snakebite in these regions. Transcriptomic and proteomic studies have examined the venom composition of several species in this genus, but many others remain to be studied. In this work, we used a transcriptomic approach to examine the venom gland genes of Bothrops alternatus, a clinically important species found in southeastern and southern Brazil, Uruguay, northern Argentina and eastern Paraguay. Results A cDNA library of 5,350 expressed sequence tags (ESTs) was produced and assembled into 838 contigs and 4512 singletons. BLAST searches of relevant databases showed 30% hits and 70% no-hits, with toxin-related transcripts accounting for 23% and 78% of the total transcripts and hits, respectively. Gene ontology analysis identified non-toxin genes related to general metabolism, transcription and translation, processing and sorting, (polypeptide) degradation, structural functions and cell regulation. The major groups of toxin transcripts identified were metalloproteinases (81%), bradykinin-potentiating peptides/C-type natriuretic peptides (8.8%), phospholipases A2 (5.6%), serine proteinases (1.9%) and C-type lectins (1.5%). Metalloproteinases were almost exclusively type PIII proteins, with few type PII and no type PI proteins. Phospholipases A2 were essentially acidic; no basic PLA2 were detected. Minor toxin transcripts were related to L-amino acid oxidase, cysteine-rich secretory proteins, dipeptidylpeptidase IV, hyaluronidase, three-finger toxins and ohanin. Two non-toxic proteins, thioredoxin and double-specificity phosphatase Dusp6, showed high sequence identity to similar proteins from other snakes. In addition to the above features, single-nucleotide polymorphisms, microsatellites, transposable elements and inverted repeats that could contribute to toxin diversity were observed. Conclusions Bothrops alternatus venom gland contains the major toxin classes described for other Bothrops venoms based on trancriptomic and proteomic studies. The predominance of type PIII metalloproteinases agrees with the well-known hemorrhagic activity of this venom, whereas the lower content of serine proteases and C-type lectins could contribute to less marked coagulopathy following envenoming by this species. The lack of basic PLA2 agrees with the lower myotoxicity of this venom compared to other Bothrops species with these toxins. Together, these results contribute to our understanding of the physiopathology of envenoming by this species.

Published

2010

29. A high-throughput data mining of single nucleotide polymorphisms in Coffea species expressed sequence tags suggests differential homeologous gene expression in the allotetraploid Coffea arabica

Author

Alinne Batista Ambrosio, David Pot, Carlos Augusto Colombo, Ramon O. Vidal, Luiz Gonzaga Esteves Vieira, Alan Carvalho Andrade, Jorge Maurício Costa Mondego, Gonçalo Amarante Guimarães Pereira, Marcelo Falsarella Carazzolle, and Luiz Filipe Protasio Pereira

Subjects

DNA, Plant, Physiology, Sequence analysis, Canephora, Coffea, Plant Science, Coffea canephora, Genome, Polymorphism, Single Nucleotide, Gene Frequency, Gene Expression Regulation, Plant, Genetics, Data Mining, Gene, Regulation of gene expression, Expressed Sequence Tags, Expressed sequence tag, biology, Coffea arabica, Sequence Analysis, DNA, biology.organism_classification, Genome Analysis, Tetraploidy, Haplotypes, Genome, Plant

Abstract

Polyploidization constitutes a common mode of evolution in flowering plants. This event provides the raw material for the divergence of function in homeologous genes, leading to phenotypic novelty that can contribute to the success of polyploids in nature or their selection for use in agriculture. Mounting evidence underlined the existence of homeologous expression biases in polyploid genomes; however, strategies to analyze such transcriptome regulation remained scarce. Important factors regarding homeologous expression biases remain to be explored, such as whether this phenomenon influences specific genes, how paralogs are affected by genome doubling, and what is the importance of the variability of homeologous expression bias to genotype differences. This study reports the expressed sequence tag assembly of the allopolyploid Coffea arabica and one of its direct ancestors, Coffea canephora. The assembly was used for the discovery of single nucleotide polymorphisms through the identification of high-quality discrepancies in overlapped expressed sequence tags and for gene expression information indirectly estimated by the transcript redundancy. Sequence diversity profiles were evaluated within C. arabica (Ca) and C. canephora (Cc) and used to deduce the transcript contribution of the Coffea eugenioides (Ce) ancestor. The assignment of the C. arabica haplotypes to the C. canephora (CaCc) or C. eugenioides (CaCe) ancestral genomes allowed us to analyze gene expression contributions of each subgenome in C. arabica. In silico data were validated by the quantitative polymerase chain reaction and allele-specific combination TaqMAMA-based method. The presence of differential expression of C. arabica homeologous genes and its implications in coffee gene expression, ontology, and physiology are discussed.

Published

2010

30. A genome survey of Moniliophthora perniciosa gives new insights into Witches' Broom Disease of cacao

Author

Helaine Carrer, Ramon O. Vidal, Dirce Maria Carraro, Marcos Renato R. Araújo, Acassia Benjamin Leal Pires, J.C.M. Cascardo, Aristóteles Góes Neto, Luis As Castro, Marcos H. de Moraes, Lucas Pedersen Parizzi, Karina Peres Gramacho, Carolina Cotomacci, Marilda Souza Goncalves, Bruno V. de Oliveira, Gustavo G.L. Costa, Raissa Estrela, Johana Rincones, Odalys Garcia, Gonçalo A.G. Pereira, Daniela P. T. Thomazella, Lyndel W. Meinhardt, Bryan A. Bailey, Jorge Maurício Costa Mondego, Eduardo Fernandes Formighieri, José Pereira de Moura Neto, Maria Carolina Scatolin do Rio, Anderson F. Cunha, Marcelo Falsarella Carazzolle, Mark J. Guiltinan, and Luciana Veiga Barbosa

Subjects

lcsh:QH426-470, lcsh:Biotechnology, Genes, Fungal, Moniliophthora, Retrotransposon, Genomics, Biology, Genome, Moniliophthora perniciosa, Pathosystem, lcsh:TP248.13-248.65, Botany, Genetics, Gene family, Cluster Analysis, DNA, Fungal, Gene, Plant Diseases, Expressed Sequence Tags, Cacao, Models, Genetic, Sequence Analysis, DNA, biology.organism_classification, lcsh:Genetics, Multigene Family, Genome, Fungal, Agaricales, Sequence Alignment, Biotechnology, Research Article

Abstract

Background The basidiomycete fungus Moniliophthora perniciosa is the causal agent of Witches' Broom Disease (WBD) in cacao (Theobroma cacao). It is a hemibiotrophic pathogen that colonizes the apoplast of cacao's meristematic tissues as a biotrophic pathogen, switching to a saprotrophic lifestyle during later stages of infection. M. perniciosa, together with the related species M. roreri, are pathogens of aerial parts of the plant, an uncommon characteristic in the order Agaricales. A genome survey (1.9× coverage) of M. perniciosa was analyzed to evaluate the overall gene content of this phytopathogen. Results Genes encoding proteins involved in retrotransposition, reactive oxygen species (ROS) resistance, drug efflux transport and cell wall degradation were identified. The great number of genes encoding cytochrome P450 monooxygenases (1.15% of gene models) indicates that M. perniciosa has a great potential for detoxification, production of toxins and hormones; which may confer a high adaptive ability to the fungus. We have also discovered new genes encoding putative secreted polypeptides rich in cysteine, as well as genes related to methylotrophy and plant hormone biosynthesis (gibberellin and auxin). Analysis of gene families indicated that M. perniciosa have similar amounts of carboxylesterases and repertoires of plant cell wall degrading enzymes as other hemibiotrophic fungi. In addition, an approach for normalization of gene family data using incomplete genome data was developed and applied in M. perniciosa genome survey. Conclusion This genome survey gives an overview of the M. perniciosa genome, and reveals that a significant portion is involved in stress adaptation and plant necrosis, two necessary characteristics for a hemibiotrophic fungus to fulfill its infection cycle. Our analysis provides new evidence revealing potential adaptive traits that may play major roles in the mechanisms of pathogenicity in the M. perniciosa/cacao pathosystem.

Published

2008

31. Phylogenetic and functional diversity of metagenomic libraries of phenol degrading sludge from petroleum refinery wastewater treatment system

Author

Vânia M. J. Santiago, Helen L. Hayden, Pauline M. Mele, Marili V.N. Rodrigues, Ramon O. Vidal, Ricardo Henrique Krüger, Cynthia Canêdo da Silva, Valéria Maia de Oliveira, Ana Paula Rodrigues Torres, Tim Sawbridge, Gustavo G.L. Costa, and Maíra Paula de Sousa

Subjects

Petróleo - refinarias, Microbial diversity, Thauera, Biophysics, Microbiologia molecular, Metabolic profile, Membrane bioreactor, Applied Microbiology and Biotechnology, Bioremediation, Águas residuais, Fosmid library, Comamonas, biology, business.industry, Pyrosequencing, biology.organism_classification, Pulp and paper industry, Biotechnology, Fosmid, Bactérias, Metagenomics, Original Article, Sewage treatment, Proteobacteria, business

Abstract

In petrochemical refinery wastewater treatment plants (WWTP), different concentrations of pollutant compounds are received daily in the influent stream, including significant amounts of phenolic compounds, creating propitious conditions for the development of particular microorganisms that can rapidly adapt to such environment. In the present work, the microbial sludge from a refinery WWTP was enriched for phenol, cloned into fosmid vectors and pyrosequenced. The fosmid libraries yielded 13,200 clones and a comprehensive bioinformatic analysis of the sequence data set revealed a complex and diverse bacterial community in the phenol degrading sludge. The phylogenetic analyses using MEGAN in combination with RDP classifier showed a massive predominance of Proteobacteria, represented mostly by the genera Diaphorobacter, Pseudomonas, Thauera and Comamonas. The functional classification of phenol degrading sludge sequence data set generated by MG-RAST showed the wide metabolic diversity of the microbial sludge, with a high percentage of genes involved in the aerobic and anaerobic degradation of phenol and derivatives. In addition, genes related to the metabolism of many other organic and xenobiotic compounds, such as toluene, biphenyl, naphthalene and benzoate, were found. Results gathered herein demonstrated that the phenol degrading sludge has complex phylogenetic and functional diversities, showing the potential of such community to degrade several pollutant compounds. This microbiota is likely to represent a rich resource of versatile and unknown enzymes which may be exploited for biotechnological processes such as bioremediation.

Published

2012

32. Global analyses of Ceratocystis cacaofunesta mitochondria: from genome to proteome

Author

Ramon O. Vidal, Gonçalo Amarante Guimarães Pereira, Paulo José Pereira Lima Teixeira, Bruno V. de Oliveira, Lyndel W. Meinhardt, Leandro Costa do Nascimento, Odalys G. Cabrera, Alinne Batista Ambrosio, Daniela P. T. Thomazella, Adriana Franco Paes Leme, Ricardo Augusto Tiburcio, Piotr A. Mieczkowski, and Marcelo Falsarella Carazzolle

Subjects

Mitochondrial DNA, Ceratocystis cacaofunesta, Mitochondrial proteome, Proteome, Ceratocystis, Proteomics, Genome, DNA, Mitochondrial, Fungal virulence, Transcriptome, Mitochondrial Proteins, Ascomycota, Gene Expression Regulation, Fungal, Genetics, Gene, Phylogeny, Mitogenomics, Plant Diseases, Cacao, biology, Computational Biology, biology.organism_classification, Cacao wilt disease, Mitochondria, Genome, Mitochondrial, Research Article, Biotechnology

Abstract

Background The ascomycete fungus Ceratocystis cacaofunesta is the causal agent of wilt disease in cacao, which results in significant economic losses in the affected producing areas. Despite the economic importance of the Ceratocystis complex of species, no genomic data are available for any of its members. Given that mitochondria play important roles in fungal virulence and the susceptibility/resistance of fungi to fungicides, we performed the first functional analysis of this organelle in Ceratocystis using integrated “omics” approaches. Results The C. cacaofunesta mitochondrial genome (mtDNA) consists of a single, 103,147-bp circular molecule, making this the second largest mtDNA among the Sordariomycetes. Bioinformatics analysis revealed the presence of 15 conserved genes and 37 intronic open reading frames in C. cacaofunesta mtDNA. Here, we predicted the mitochondrial proteome (mtProt) of C. cacaofunesta, which is comprised of 1,124 polypeptides - 52 proteins that are mitochondrially encoded and 1,072 that are nuclearly encoded. Transcriptome analysis revealed 33 probable novel genes. Comparisons among the Gene Ontology results of the predicted mtProt of C. cacaofunesta, Neurospora crassa and Saccharomyces cerevisiae revealed no significant differences. Moreover, C. cacaofunesta mitochondria were isolated, and the mtProt was subjected to mass spectrometric analysis. The experimental proteome validated 27% of the predicted mtProt. Our results confirmed the existence of 110 hypothetical proteins and 7 novel proteins of which 83 and 1, respectively, had putative mitochondrial localization. Conclusions The present study provides the first partial genomic analysis of a species of the Ceratocystis genus and the first predicted mitochondrial protein inventory of a phytopathogenic fungus. In addition to the known mitochondrial role in pathogenicity, our results demonstrated that the global function analysis of this organelle is similar in pathogenic and non-pathogenic fungi, suggesting that its relevance in the lifestyle of these organisms should be based on a small number of specific proteins and/or with respect to differential gene regulation. In this regard, particular interest should be directed towards mitochondrial proteins with unknown function and the novel protein that might be specific to this species. Further functional characterization of these proteins could enhance our understanding of the role of mitochondria in phytopathogenicity.