Your search keyword '"Folador ARC"' showing total 7 results

1. Proteins from the core genome of Corynebacterium ulcerans respond for pathogenicity and reveal promising vaccine targets for diphtheria.

Author

Aragão AO, Blanco IR, Souza LPS, Ramos RTJ, Guimarães LC, Silva AL, Azevedo VAC, Araújo CLA, and Folador ARC

Subjects

Corynebacterium genetics, Diphtheria Toxin genetics, Humans, Virulence, Corynebacterium Infections prevention & control, Diphtheria prevention & control, Vaccines

Abstract

Corynebacterium ulcerans is an emerging pathogen able to transmit the acute infection diphtheria to humans. Although there is a well-established vaccine based on the toxin produced by Corynebacterium diphtheriae, another species of this genus known to cause the disease, there is still no vaccine formulations described for C. ulcerans; this fact contributes to the increase in cases of infection that has been observed. In this study, we want to provide information at the genomic level of this bacterium in order to suggest proteins as possible vaccine targets. We carried out an in silico prospection of vaccine candidates through reverse vaccinology for targets that exhibit antigenic potential against diphtheria. We found important virulence factors, such as adhesion-related ones, that are responsible for pathogen-host interaction after infection, but we did not find the diphtheria toxin, which is the main component of the currently available vaccine. This study provides detailed information about the exoproteome and hypothetical proteins from the core genome of C. ulcerans, suggesting vaccine targets to be further tested in vitro for the development of a new vaccine against diphtheria., (Copyright © 2021. Published by Elsevier Ltd.)

Published

2021

2. Extended Spectrum Beta-Lactamase-Producing Gram-Negative Bacteria Recovered From an Amazonian Lake Near the City of Belém, Brazil.

Author

Freitas DY, Araújo S, Folador ARC, Ramos RTJ, Azevedo JSN, Tacão M, Silva A, Henriques I, and Baraúna RA

Abstract

Aquatic systems have been described as antibiotic resistance reservoirs, where water may act as a vehicle for the spread of resistant bacteria and resistance genes. We evaluated the occurrence and diversity of third generation cephalosporin-resistant gram-negative bacteria in a lake in the Amazonia region. This water is used for human activities, including consumption after appropriate treatment. Eighteen samples were obtained from six sites in October 2014. Water quality parameters were generally within the legislation limits. Thirty-three bacterial isolates were identified as Escherichia ( n = 7 isolates), Acinetobacter , Enterobacter , and Klebsiella ( n = 5 each), Pseudomonas ( n = 4), Shigella ( n = 3), and Chromobacterium , Citrobacter , Leclercia , Phytobacter (1 isolate each). Twenty nine out of 33 isolates (88%) were resistant to most beta-lactams, except carbapenems, and 88% ( n = 29) were resistant to antibiotics included in at least three different classes. Among the beta-lactamase genes inspected, the bla CTX-M was the most prevalent ( n = 12 positive isolates), followed by bla TEM ( n = 5) and bla SHV ( n = 4). bla CTX-M-15 ( n = 5), bla CTX-M-14 ( n = 1) and bla CTX-M-2 ( n = 1) variants were detected in conserved genomic contexts: bla CTX-M-15 flanked by IS Ecp1 and Orf477; bla CTX-M-14 flanked by IS Ecp1 and IS 903 ; and bla CTX-M-2 associated to an ISCR element. For 4 strains the transfer of bla CTX-M was confirmed by conjugation assays. Compared with the recipient, the transconjugants showed more than 500-fold increases in the MICs of cefotaxime and 16 to 32-fold increases in the MICs of ceftazidime. Two isolates ( Escherichia coli APC43A and Acinetobacter baumannii APC25) were selected for whole genome analysis. APC43A was predicted as a E. coli pathogen of the high-risk clone ST471 and serotype O154:H18. bla CTX-M-15 as well as determinants related to efflux of antibiotics, were noted in APC43A genome. A. baumannii APC25 was susceptible to carbapenems and antibiotic resistance genes detected in its genome were intrinsic determinants (e.g., bla OXA-208 and bla ADC-like ). The strain was not predicted as a human pathogen and belongs to a new sequence type. Operons related to metal resistance were predicted in both genomes as well as pathogenicity and resistance islands. Results suggest a high dissemination of ESBL-producing bacteria in Lake Água Preta which, although not presenting characteristics of a strongly impacted environment, contains multi-drug resistant pathogenic strains.

Published

2019

3. Transcriptome analysis of Corynebacterium pseudotuberculosis biovar Equi in two conditions of the environmental stress.

Author

Gomide ACP, Ibraim IC, Alves JTC, de Sá PG, de Oliveira Silva YR, Santana MP, Silva WM, Folador EL, Mariano DCB, de Paula Castro TL, Barbosa S, Dorella FA, Carvalho AF, Pereira FL, Leal CAG, Figueiredo HCP, Azevedo V, Silva A, and Folador ARC

Subjects

Animals, Bacterial Proteins genetics, Corynebacterium Infections microbiology, Gene Expression Profiling methods, Genome, Bacterial genetics, Sheep, Virulence genetics, Virulence Factors genetics, Corynebacterium pseudotuberculosis genetics, Stress, Physiological genetics, Transcriptome genetics

Abstract

Corynebacterium pseudotuberculosis has been widely studied in an effort to understand its biological evolution. Transcriptomics has revealed possible candidates for virulence and pathogenicity factors of strain 1002 (biovar Ovis). Because C. pseudotuberculosis is classified into two biovars, Ovis and Equi, it was interesting to assess the transcriptional profile of biovar Equi strain 258, the causative agent of ulcerative lymphangitis. The genome of this strain was re-sequenced; the reassembly was completed using optical mapping technology, and the sequence was subsequently re-annotated. Two growth conditions that occur during the host infection process were simulated for the transcriptome: the osmotic and acid medium. Genes that may be associated with the microorganism's resilience under unfavorable conditions were identified through RNAseq, including genes present in pathogenicity islands. The RT-qPCR was performed to confirm the results in biological triplicate for each condition for some genes. The results extend our knowledge of the factors associated with the spread and persistence of C. pseudotuberculosis during the infection process and suggest possible avenues for studies related to the development of vaccines, diagnosis, and therapies that might help minimize damage to agribusinesses., (Copyright © 2018. Published by Elsevier B.V.)

Published

2018

4. Functional annotation of hypothetical proteins from the Exiguobacterium antarcticum strain B7 reveals proteins involved in adaptation to extreme environments, including high arsenic resistance.

Author

da Costa WLO, Araújo CLA, Dias LM, Pereira LCS, Alves JTC, Araújo FA, Folador EL, Henriques I, Silva A, and Folador ARC

Subjects

Bacterial Proteins genetics, Biotechnology methods, Computational Biology, Extreme Environments, Genes, Bacterial genetics, Sequence Analysis, DNA, Adaptation, Physiological, Arsenic toxicity, Bacillaceae physiology, Bacterial Proteins physiology, Molecular Sequence Annotation

Abstract

Exiguobacterium antarcticum strain B7 is a psychrophilic Gram-positive bacterium that possesses enzymes that can be used for several biotechnological applications. However, many proteins from its genome are considered hypothetical proteins (HPs). These functionally unknown proteins may indicate important functions regarding the biological role of this bacterium, and the use of bioinformatics tools can assist in the biological understanding of this organism through functional annotation analysis. Thus, our study aimed to assign functions to proteins previously described as HPs, present in the genome of E. antarcticum B7. We used an extensive in silico workflow combining several bioinformatics tools for function annotation, sub-cellular localization and physicochemical characterization, three-dimensional structure determination, and protein-protein interactions. This genome contains 2772 genes, of which 765 CDS were annotated as HPs. The amino acid sequences of all HPs were submitted to our workflow and we successfully attributed function to 132 HPs. We identified 11 proteins that play important roles in the mechanisms of adaptation to adverse environments, such as flagellar biosynthesis, biofilm formation, carotenoids biosynthesis, and others. In addition, three predicted HPs are possibly related to arsenic tolerance. Through an in vitro assay, we verified that E. antarcticum B7 can grow at high concentrations of this metal. The approach used was important to precisely assign function to proteins from diverse classes and to infer relationships with proteins with functions already described in the literature. This approach aims to produce a better understanding of the mechanism by which this bacterium adapts to extreme environments and to the finding of targets with biotechnological interest., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

5. Heat shock stress: Profile of differential expression in Corynebacterium pseudotuberculosis biovar Equi.

Author

Gomide ACP, de Sá PG, Cavalcante ALQ, de Jesus Sousa T, Gomes LGR, Ramos RTJ, Azevedo V, Silva A, and Folador ARC

Subjects

Animals, Corynebacterium pseudotuberculosis genetics, Corynebacterium pseudotuberculosis isolation & purification, Gene Expression Regulation, Bacterial, Genomic Islands, Horses microbiology, Hot Temperature, Stress, Physiological, Bacterial Proteins genetics, Corynebacterium pseudotuberculosis growth & development, Gene Expression Profiling methods, Sequence Analysis, RNA methods

Abstract

Transcriptome studies on Corynebacterium pseudotuberculosis have recently contributed to the understanding about this microorganism's survival mechanisms in various hostile conditions. The gene expression profile of the C. pseudotuberculosis strain 1002 (Ovis biovar), has revealed genes that are possible candidates responsible for its maintenance in adverse environments, such as those found in the host. In another strain of this bacterium, 258 (Equi biovar), a high temperature condition was simulated, in order to verify which genes are responsible for promoting the persistence of the bacterium in these conditions, since it tolerates temperatures higher than 40°C, despite being a mesophilic bacterium. It was possible to generate a list of genes using RNAseq technology that possibly contribute to the survival of the bacteria in this hostile environment. A total of 562 genes were considered as differentially expressed, then, after the fold-change cutoff, 113 were considered induced and 114 repressed, resulting in a total of 227 genes. Therefore, hypothetical proteins presented a fold change above 6, and genes characteristically in control for this type of stress, such as hspR, grpE, and dnaK, presented a fold change above 3. The clpB gene, a chaperone, drew attention due to presenting a fold change above 3 and located in a pathogenicity island. These genes may contribute towards efficient solutions to the effects caused by ulcerative lymphangitis in equines, thus attenuating the damage it causes to agribusiness., (Copyright © 2017. Published by Elsevier B.V.)

Published

2018

6. Genomic Architecture of the Two Cold-Adapted Genera Exiguobacterium and Psychrobacter: Evidence of Functional Reduction in the Exiguobacterium antarcticum B7 Genome.

Author

Dias LM, Folador ARC, Oliveira AM, Ramos RTJ, Silva A, and Baraúna RA

Subjects

Cold Temperature, Phylogeny, Sequence Analysis, DNA, Adaptation, Physiological genetics, Bacillales genetics, Genome, Bacterial genetics, Psychrobacter genetics

Abstract

Exiguobacterium and Psychrobacter are bacterial genera with several cold-adapted species. These extremophiles are commonly isolated from the same habitats in Earth's cryosphere and have great ecological and biotechnological relevance. Thus, through comparative genomic analyses, it was possible to understand the functional diversity of these psychrotrophic and psychrophilic species and present new insights into the microbial adaptation to cold. The nucleotide identity between Exiguobacterium genomes was >90%. Three genomic islands were identified in the E. antarcticum B7 genome. These islands contained genes involved in flagella biosynthesis and chemotaxis, as well as enzymes for carotenoid biosynthesis. Clustering of cold shock proteins by Ka/Ks ratio suggests the occurrence of a positive selection over these genes. Neighbor-joining clustering of complete genomes showed that the E. sibiricum was the most closely related to E. antarcticum. A total of 92 genes were shared between Exiguobacterium and Psychrobacter. A reduction in the genomic content of E. antarcticum B7 was observed. It presented the smallest genome size of its genus and a lower number of genes because of the loss of many gene families compared with the other genomes. In our study, eight genomes of Exiguobacterium and Psychrobacter were compared and analysed. Psychrobacter showed higher genomic plasticity and E. antarcticum B7 presented a large decrease in genomic content without changing its ability to grow in cold environments.

Published

2018

7. Whole-Genome Sequence of Corynebacterium pseudotuberculosis PA04, Isolated from the Lymph Node of a Sheep in the Amazon, Brazil.

Author

Costa WLO, Alves JTC, Dias LM, Araújo CLA, Morais E, Silva AGM, Andrade SS, Ramos RTJ, Silva A, and Folador ARC

Abstract

This study reports the complete genome sequence of Corynebacterium pseudotuberculosis strain PA04, isolated from a sheep in the Amazon, Brazil. This bacterium is the etiological agent of caseous lymphadenitis. This genome contains 2,338,093 bp, 52.2% G+C content, and a total of 2,104 coding sequences (CDSs), 41 pseudogenes, 12 rRNAs, and 49 tRNAs., (Copyright © 2017 Costa et al.)

Published

2017