Your search keyword '"Roesch, Luiz"' showing total 11 results

1. Bioinformatics for Microbiome Research: Concepts, Strategies, and Advances

Author

Lemos, Leandro Nascimento, Morais, Daniel Kumazawa, Tsai, Siu Mui, Roesch, Luiz, Pylro, Victor, Pylro, Victor, editor, and Roesch, Luiz, editor

Published

2017

2. Moisture Is More Important than Temperature for Assembly of Both Potentially Active and Whole Prokaryotic Communities in Subtropical Grassland

Author

Lupatini, Manoeli, Suleiman, Afnan K. A., Jacques, Rodrigo J. S., Lemos, Leandro N., Pylro, Victor S., Van Veen, Johannes A., Kuramae, Eiko E., and Roesch, Luiz F. W.

Published

2019

3. Aliphatic Hydrocarbon Enhances Phenanthrene Degradation by Autochthonous Prokaryotic Communities from a Pristine Seawater

Author

Rodrigues, Edmo Montes, Morais, Daniel Kumazawa, Pylro, Victor Satler, Redmile-Gordon, Marc, de Oliveira, Juraci Alves, Roesch, Luiz Fernando Wurdig, Cesar, Dionéia Evangelista, and Tótola, Marcos Rogério

Published

2018

4. Fungal Community Assembly in the Amazonian Dark Earth

Author

Lucheta, Adriano Reis, de Souza Cannavan, Fabiana, Roesch, Luiz Fernando Wurdig, Tsai, Siu Mui, and Kuramae, Eiko Eurya

Published

2016

5. BMPOS: a Flexible and User-Friendly Tool Sets for Microbiome Studies.

Author

Pylro, Victor, Morais, Daniel, Oliveira, Francislon, Santos, Fausto, Lemos, Leandro, Oliveira, Guilherme, and Roesch, Luiz

Subjects

MICROBIAL diversity, LINUX operating systems, PHYLOGENY, METAGENOMICS, NUCLEOTIDE sequence, MICROBIAL ecology, BIOINFORMATICS

Abstract

Recent advances in science and technology are leading to a revision and re-orientation of methodologies, addressing old and current issues under a new perspective. Advances in next generation sequencing (NGS) are allowing comparative analysis of the abundance and diversity of whole microbial communities, generating a large amount of data and findings at a systems level. The current limitation for biologists has been the increasing demand for computational power and training required for processing of NGS data. Here, we describe the deployment of the Brazilian Microbiome Project Operating System (BMPOS), a flexible and user-friendly Linux distribution dedicated to microbiome studies. The Brazilian Microbiome Project (BMP) has developed data analyses pipelines for metagenomic studies (phylogenetic marker genes), conducted using the two main high-throughput sequencing platforms (Ion Torrent and Illumina MiSeq). The BMPOS is freely available and possesses the entire requirement of bioinformatics packages and databases to perform all the pipelines suggested by the BMP team. The BMPOS may be used as a bootable live USB stick or installed in any computer with at least 1 GHz CPU and 512 MB RAM, independent of the operating system previously installed. The BMPOS has proved to be effective for sequences processing, sequences clustering, alignment, taxonomic annotation, statistical analysis, and plotting of metagenomic data. The BMPOS has been used during several metagenomic analyses courses, being valuable as a tool for training, and an excellent starting point to anyone interested in performing metagenomic studies. The BMPOS and its documentation are available at . [ABSTRACT FROM AUTHOR]

Published

2016

6. Phenylketonuria and Gut Microbiota: A Controlled Study Based on Next-Generation Sequencing.

Author

Pinheiro de Oliveira, Felipe, Mendes, Roberta Hack, Dobbler, Priscila Thiago, Mai, Volker, Pylro, Victor Salter, Waugh, Sheldon G, Vairo, Filippo, Refosco, Lilia Farret, Roesch, Luiz Fernando Würdig, and Schwartz, Ida Vanessa Doederlein

Subjects

PHENYLKETONURIA, GUT microbiome, PHENYLALANINE, NEUROLOGY, RIBOSOMAL RNA

Abstract

Phenylketonuria (PKU) is an inborn error of metabolism associated with high blood levels of phenylalanine (Phe). A Phe-restricted diet supplemented with L-amino acids is the main treatment strategy for this disease; if started early, most neurological abnormalities can be prevented. The healthy human gut contains trillions of commensal bacteria, often referred to as the gut microbiota. The composition of the gut microbiota is known to be modulated by environmental factors, including diet. In this study, we compared the gut microbiota of 8 PKU patients on Phe-restricted dietary treatment with that of 10 healthy individuals. The microbiota were characterized by 16S rRNA sequencing using the Ion Torrent™ platform. The most dominant phyla detected in both groups were Bacteroidetes and Firmicutes. PKU patients showed reduced abundance of the Clostridiaceae, Erysipelotrichaceae, and Lachnospiraceae families, Clostridiales class, Coprococcus, Dorea, Lachnospira, Odoribacter, Ruminococcus and Veillonella genera, and enrichment of Prevotella, Akkermansia, and Peptostreptococcaceae. Microbial function prediction suggested significant differences in starch/glucose and amino acid metabolism between PKU patients and controls. Together, our results suggest the presence of distinct taxonomic groups within the gut microbiome of PKU patients, which may be modulated by their plasma Phe concentration. Whether our findings represent an effect of the disease itself, or a consequence of the modified diet is unclear. [ABSTRACT FROM AUTHOR]

Published

2016

7. Data analysis for 16S microbial profiling from different benchtop sequencing platforms.

Author

Pylro, Victor S., Roesch, Luiz Fernando W., Morais, Daniel K., Clark, Ian M., Hirsch, Penny R., and Tótola, Marcos R.

Subjects

*MICROBIAL ecology, *MICROBIAL sensitivity tests, *BIOTIC communities, *BIOLOGICAL systems, *STRINGENT control (Bacteria)

Abstract

Progress in microbial ecology is confounded by problems when evaluating results from different sequencing methodologies. Contrary to existing expectations, here we demonstrate that the same biological conclusion is reached using different NGS technologies when stringent sequence quality filtering and accurate clustering algorithms are applied. [ABSTRACT FROM AUTHOR]

Published

2014

8. PANGEA: pipeline for analysis of next generation amplicons.

Author

Giongo, Adriana, Crabb, David B., Davis-Richardson, Austin G., Chauliac, Diane, Mobberley, Jennifer M., Gano, Kelsey A., Mukherjee, Nabanita, Casella, George, Roesch, Luiz F. W., Walts, Brandon, Riva, Alberto, King, Gary, and Triplett, Eric W.

Subjects

NUCLEOTIDE sequence, BIOINFORMATICS, RNA, DATABASES, LABORATORY rats

Abstract

High-throughput DNA sequencing can identify organisms and describe population structures in many environmental and clinical samples. Current technologies generate millions of reads in a single run, requiring extensive computational strategies to organize, analyze and interpret those sequences. A series of bioinformatics tools for high-throughput sequencing analysis, including pre-processing, clustering, database matching and classification, have been compiled into a pipeline called PANGEA. The PANGEA pipeline was written in Perl and can be run on Mac OSX, Windows or Linux. With PANGEA, sequences obtained directly from the sequencer can be processed quickly to provide the files needed for sequence identification by BLAST and for comparison of microbial communities. Two different sets of bacterial 16S rRNA sequences were used to show the efficiency of this workflow. The first set of 16S rRNA sequences is derived from various soils from Hawaii Volcanoes National Park. The second set is derived from stool samples collected from diabetes-resistant and diabetes-prone rats. The workflow described here allows the investigator to quickly assess libraries of sequences on personal computers with customized databases. PANGEA is provided for users as individual scripts for each step in the process or as a single script where all processes, except the χ2 step, are joined into one program called the ‘backbone’. [ABSTRACT FROM AUTHOR]

Published

2010

9. Pyrosequencing enumerates and contrasts soil microbial diversity.

Author

Roesch, Luiz F. W., Fulthorpe, Roberta R., Riva, Alberto, Casella, George, Hadwin, Alison K. M., Kent, Angela D., Daroub, Samira H., Camargo, Flavio A. O., Farmerie, William G., and Triplett, Eric W.

Subjects

*MICROBIAL ecology, *MICROBIOLOGY, *BACTERIA, *PROKARYOTES, *RNA

Abstract

Estimates of the number of species of bacteria per gram of soil vary between 2000 and 8.3 million (Gans et al., 2005; Schloss and Handelsman, 2006). The highest estimate suggests that the number may be so large as to be impractical to test by amplification and sequencing of the highly conserved 16S rRNA gene from soil DNA (Gans et al., 2005). Here we present the use of high throughput DNA pyrosequencing and statistical inference to assess bacterial diversity in four soils across a large transect of the western hemisphere. The number of bacterial 16S rRNA sequences obtained from each site varied from 26 140 to 53 533. The most abundant bacterial groups in all four soils were the Bacteroidetes, Betaproteobacteria and Alphaproteobacteria. Using three estimators of diversity, the maximum number of unique sequences (operational taxonomic units roughly corresponding to the species level) never exceeded 52 000 in these soils at the lowest level of dissimilarity. Furthermore, the bacterial diversity of the forest soil was phylum rich compared to the agricultural soils, which are species rich but phylum poor. The forest site also showed far less diversity of the Archaea with only 0.009% of all sequences from that site being from this group as opposed to 4%–12% of the sequences from the three agricultural sites. This work is the most comprehensive examination to date of bacterial diversity in soil and suggests that agricultural management of soil may significantly influence the diversity of bacteria and archaea.The ISME Journal (2007) 1, 283–290; doi:10.1038/ismej.2007.53; published online 5 July 2007 [ABSTRACT FROM AUTHOR]

Published

2007

10. Misguided phylogenetic comparisons using DGGE excised bands may contaminate public sequence databases.

Author

Pylro, Victor Satler, Morais, Daniel Kumazawa, Kalks, Karlos Henrique Martins, Roesch, Luiz Fernando Wurdig, Hirsch, Penny R., Tótola, Marcos Rogério, and Yotoko, Karla

Subjects

*PHYLOGENY, *MICROBIAL ecology, *NUCLEOTIDE sequence, *GENE amplification, *GEL electrophoresis, *COMPARATIVE studies

Abstract

Controversy surrounding bacterial phylogenies has become one of the most important challenges for microbial ecology. Comparative analyses with nucleotide databases and phylogenetic reconstruction of the amplified 16S rRNA genes from DGGE (Denaturing Gradient Gel Electrophoresis) excised bands have been used by several researchers for the identification of organisms in complex samples. Here, we individually analyzed DGGE-excised 16S rRNA gene bands from 10 certified bacterial strains of different species, and demonstrated that this kind of approach can deliver erroneous outcomes to researchers, besides causing/emphasizing errors in public databases. [ABSTRACT FROM AUTHOR]

Published

2016

11. Sequenciamento por Ion Torrent revela padrões de interação e distribuição de comunidades microbianas em um perfil de solo ornitogênico da Ilha Seymour, Península Antártica

Author

Rampelotto, Pabulo Henrique and Roesch, Luiz Fernando Wurdig

Subjects

Microbial ecology, Comunidades microbianas, Ion Semiconductor Sequencing, Antártica, Antarctica, Ion Torrent. co-ocorrência, Network analysis, Análise de redes, Ecologia microbiana, Bacterial communities

Abstract

Neste estudo, foram analisadas e comparadas comunidades bacterianas do solo de uma pinguineira da Ilha Seymour (Península Antártica) em termos de abundância, estrutura, diversidade e rede de interações, a fim de se identificar padrões de interação entre os vários grupos de bactérias presentes em solos ornitogênicos em diferentes profundidades (camadas). A análise das sequências revelou a presença de oito filos distribuídos em diferentes proporções entre as Camadas 1 (0-8 cm), 2 (20-25 cm) e 3 (35-40 cm). De acordo com os índices de diversidade, a Camada 3 apresentou os maiores valores de riqueza, diversidade e uniformidade quando comparado com as Camadas 1 e 2. Em termos de estrutura da comunidade microbiana, a análise UniFrac mostrou que as comunidades microbianas das três camadas foram muito diferentes umas das outras. A análise de redes revelou a existência de um padrão único de interações no qual a rede microbiana formou uma topologia de agrupamento, mas não estruturado em módulos, como de costume em comunidades biológicas. Da mesma forma, através da utilização de análise de redes, foi possível identificar táxons específicos como sendo potencialmente importantes para a estruturação e funcionamento da comunidade microbiana. Além disso, as análises de simulação indicaram que a perda de grupos importantes de microorganismos pode alterar significativamente os padrões de interação dentro da comunidade microbiana. Estes resultados fornecem novos insights sobre as interações bacterianas e ecologia microbiana desse importante, mas ameaçado ambiente. In this study, we analyzed and compared the soil bacterial communities from a penguin rookery site at Seymour Island (Antarctic Peninsula) in terms of abundance, structure, diversity and interaction network in order to identify interaction patterns among the various groups of bacteria presented in an ornithogenic site at three depths (layers). The analysis of the sequences revealed the presence of 8 phyla distributed in different proportions among the Layers 1 (0-8 cm), 2 (20-25 cm) and 3 (35-40 cm). According to the diversity indexes, Layer 3 presented the highest values of richness, diversity and evenness when compared to Layers 1 and 2. In terms of bacterial community structure, the unweighted and weighted UniFrac analysis showed that the soil bacterial communities from the three layers were quite different from each other. Network analysis revealed the existence of a unique pattern of interactions in which the soil microbial network formed a clustered topology, but not structured in modules, as usual in biological communities. In addition, through the use of network analysis, it was possible to identify specific taxa as potentially important for the structuring and functioning of the microbial community. Furthermore, simulation analyzes indicated that the loss of potential keystone groups of microorganisms may significantly alter the patterns of interactions within the microbial communityThese findings provide new insights into the bacterial interactions and microbial ecology of this important, but threatened environment.

Published

2014