ABSTRACT
Cystic fibrosis (CF), an autosomal recessive genetic disease, is recognized as one of the most prevalent diseases in Caucasian populations. Epidemiological data show that the incidence of CF varies between countries and ethnic groups in the same region. CF occurs due to pathogenic variants in the gene encoding cystic fibrosis transmembrane conductance regulator (CFTR), located on chromosome 7q31.2. To date, more than 2,000 variants have been registered in the CFTR database. The study of these variants leads to the diagnosis and the possibility of a specific treatment for each patient through precision medicine. In this study, complete screening of CFTR was performed through next-generation sequencing (NGS) to gain insight into the variants circulating in the population of Rio de Janeiro and to provide patient access to treatment through genotype-specific therapies. Samples from 93 patients with an inconclusive molecular diagnosis were subjected to full-length screening of CFTR using an Illumina NGS HiSeq platform. Among these patients, 46 had two pathogenic variants, whereas 12 had only one CFTR variant. Twenty-four variants were not part of our routine screening. Of these 24 variants, V938Gfs∗37 had not been described in the CF databases previously. This research achieved a molecular diagnosis of the patients with CF and identification of possible molecular candidates for genotype-specific treatments.
Subject(s)
Chromosomes, Human, Pair 7/chemistry , Cystic Fibrosis Transmembrane Conductance Regulator/genetics , Cystic Fibrosis/genetics , Mutation , Adolescent , Adult , Brazil , Child , Child, Preschool , Cohort Studies , Cystic Fibrosis/diagnosis , Cystic Fibrosis/ethnology , Cystic Fibrosis/pathology , Female , Gene Expression , Genotype , High-Throughput Nucleotide Sequencing , Humans , Male , Middle Aged , Precision Medicine , White PeopleABSTRACT
In Brazil, A. baumannii has been described as nosocomial pathogens causing hospital-acquired infections. Current WGS technologies have been useful in identifying of genetic features between Acinetobacter isolates. Here, we report the draft genome sequence of OXA-23 producing A. baumannii CCBH15815 clinical isolate, belonging to ST730/ST783, recovered from a 21-year-old hospitalised patient. We observed important resistance determinant genes, especially beta-lactamases-encoding genes, in an estimated genome size of 4,058,633 bp with 3839 predicted coding regions.
Subject(s)
Acinetobacter Infections/microbiology , Acinetobacter baumannii/genetics , Acinetobacter baumannii/isolation & purification , Bacterial Proteins/metabolism , Cross Infection/microbiology , beta-Lactamases/metabolism , Acinetobacter baumannii/drug effects , Acinetobacter baumannii/enzymology , Anti-Bacterial Agents/pharmacology , Bacterial Proteins/genetics , Brazil , Genome Size , Genome, Bacterial , Humans , Multilocus Sequence Typing , Young Adult , beta-Lactamases/geneticsABSTRACT
Yersinia enterocolitica is a widespread Gram-negative bacterium that causes gastrointestinal disease and other clinical manifestations in humans. Potentially pathogenic Y. enterocolitica has been isolated in Brazil, from human, environmental, food, and animal sources. Herein we report a genome sequence of Y. enterocolitica subsp. palearctica strain YE 19, serotype O:3, biotype 4, sequence type 18, with virulence determinants isolated from human blood in Rio de Janeiro in 2005. The results corroborate other findings that this strain harbors a set of virulence determinants that could play a role in host pathoadaptation and may also justify the successful dissemination of bioserotype 4/O:3 in Brazil. The presence of strains harboring all of these virulence genes in Brazil is a potential threat to young children and immunocompromised individuals, for whom yersiniosis are a significant source of morbidity and mortality. The results of a genomic data analysis will help understand the virulence of Brazilian strains and provide data for Y. enterocolitica studies worldwide.
Subject(s)
Genome, Bacterial/genetics , Virulence Factors/genetics , Yersinia enterocolitica/genetics , Yersinia enterocolitica/pathogenicity , High-Throughput Nucleotide Sequencing , HumansABSTRACT
Abstract Yersinia enterocolitica is a widespread Gram-negative bacterium that causes gastrointestinal disease and other clinical manifestations in humans. Potentially pathogenic Y. enterocolitica has been isolated in Brazil, from human, environmental, food, and animal sources. Herein we report a genome sequence of Y. enterocolitica subsp. palearctica strain YE 19, serotype O:3, biotype 4, sequence type 18, with virulence determinants isolated from human blood in Rio de Janeiro in 2005. The results corroborate other findings that this strain harbors a set of virulence determinants that could play a role in host pathoadaptation and may also justify the successful dissemination of bioserotype 4/O:3 in Brazil. The presence of strains harboring all of these virulence genes in Brazil is a potential threat to young children and immunocompromised individuals, for whom yersiniosis are a significant source of morbidity and mortality. The results of a genomic data analysis will help understand the virulence of Brazilian strains and provide data for Y. enterocolitica studies worldwide.
Subject(s)
Humans , Yersinia enterocolitica/genetics , Yersinia enterocolitica/pathogenicity , Genome, Bacterial/genetics , Virulence Factors/genetics , High-Throughput Nucleotide SequencingABSTRACT
The first plant glycine-rich proteins (GRPs) have been isolated more than 20 years ago based on their specific expression pattern and/or modulation by several biotic and abiotic factors. This superfamily is characterized by the presence of a glycine-rich domain arranged in (Gly)(n)-X repeats. The presence of additional motifs, as well as the nature of the glycine repeats, groups them in different classes. The diversity in structure as well as in expression pattern, modulation and sub-cellular localization have always indicated that these proteins, although classified as members of the same superfamily, would perform different functions in planta. Only now, two decades later, with the first functional characterizations of plant GRPs their involvement in diverse biological and biochemical processes are being uncovered. Here, we review the so far ascribed functions of plant GRPs.
Subject(s)
Glycine/metabolism , Plant Proteins/metabolism , Amino Acid Motifs , Cell Wall/physiology , Cold Temperature , Flowers/physiology , Genes, Plant , Ligands , Lipid Metabolism , Multigene Family , Osmotic Pressure , Pollen/physiology , Protein Kinases/metabolism , RNA-Binding Proteins/metabolism , Stress, PhysiologicalABSTRACT
The occurrence of quasi-repetitive glycine-rich peptides has been reported in different organisms. Glycine-rich regions are proposed to be involved in protein-protein interactions in some mammalian protein families. In plants, a set of glycine-rich proteins (GRPs) was characterized several years ago, and since then a wealth of new GRPs have been identified. GRPs may have very diverse sub-cellular localization and functions. The only common feature among all different GRPs is the presence of glycine-rich repeat domains. The expression of genes encoding GRPs is developmentally regulated, and also induced, in several plant genera, by physical, chemical and biological factors. In addition to the highly modulated expression, several GRPs also show tissue-specific localization. GRPs specifically expressed in xylem, phloem, epidermis, anther tapetum and roots have been described. In this paper, the structural and functional features of these proteins in Eucalyptus are summarized. Since this is the first description of GRPs in this species, particular emphasis has been given to the expression pattern of these genes by analyzing their abundance and prevalence in the different cDNA-libraries of the Eucalyptus Genome Sequencing Project Consortium (ForEST). The comparison of GRPs from Eucalyptus and other species is also discussed
Subject(s)
Eucalyptus , Expressed Sequence Tags , Glycine , Databases, Genetic , Plant ProteinsABSTRACT
Ligninas säo compostos fenólicos encontrados nas paredes secundárias do sistema vascular vegetal e desempenham importantes papéis biológicos, reduzindo a permeabilidade da parede celular em relaçäo à água, estando também envolvidas em mecanismos de defesa contra patógenos. A via metabólica da lignina e as enzimas envolvidas na sua síntese vem sendo caracterizadas nos últimos anos. Uma série de genes que codificam diferentes enzimas envolvidas na biossíntese da lignina foram identificados em diferentes espécies de plantas. A biossíntese de lignina está acoplada ao metabolismo dos fenilpropanóides, apresentando enzimas compartilhadas com outros processos metabólicos tais como fenilalanina amônio liase (PAL), cinnamato 4-hidroxilase (C4H) and ácido caféico O-metiltransferase (COMT) assim como enzimas específicas como cinamoil-CoA redutase (CCR) e cinamil álcool dehidrogenase (CAD). Em certos tipos de mutantes de milho e sorgo, um aumento na digestibilidade foi associado a uma reduçäo no teor de lignina. Uma reduçäo na atividade de CAD e COMT, importantes enzimas envolvidas na biossíntese de lignina vem sendo demonstrada. Estas observações tem motivado diferentes grupos de pesquisa e alterarem o conteúdo ou a composiçäo da lignina em plantas modelo, assim como culturas de interesse econômico, através de engenharia genética. O principal objetivo prático destes projetos é uma otimizaçäo da utilizaçäo destas plantas levando a uma maior produçäo de papel e digestibilidade da raçäo animal. No presente trabalho foi realizado um inventário das seqüências de ESTs, que codificam enzimas envolvidas no metabolismo de lignina, presentes no Projeto Genoma de Cana-de-açúcar (SUCEST). A análise foi realizada com as enzimas chaves ferulato-5-hidroxilase (F5H), ácido caféico O-metiltransferase (COMT), cafeoil CoA O-metiltransferase (CCoAOMT), hidroxicinamato CoA ligase (4CL), cinamoil-CoA redutase (CCR) and cinamil álcool dehidrogenase (CAD). A análise comparativa destes genes com os descritos em outras espécies poderá servir para a identificaçäo de marcadores moleculares em programas de melhoramento genético, assim como em projetos que visem a manipulaçäo do metabolismo de lignina em cana-de-açúcar.
Subject(s)
Humans , Expressed Sequence Tags , Lignin , Plants , Plant ProteinsABSTRACT
Desde o isolamento da primeira proteína rica em glicina (GRP) em plantas, um grande número de novas GRPs vem sendo identificado. Seu padräo de expressäo altamente específico, embora variado, em conjunto com as diferentes localizações sub-celulares de alguns dos tipos de GRPs, claramente indica que estas proteínas encontram-se envolvidas em diversos processos fisiológicos independentes. Embora ainda sem uma clara definiçäo do papel de GRPs na célula vegetal, estudos realizados com estas proteínas têm resultado em novos e interessantes esclarecimentos da biologia celular e molecular de plantas. Promotores com regulaçäo complexa, assim como distintos mecanismos de regulaçäo da expressäo gênica tem sido demonstrados. Novas vias de endereçamento de proteínas tais como a exportaçäo de GRPs para diferentes tipos celulares, tem sido observados. Estes dados mostram que as GRPs podem constituir marcadores e/ou modelos interessantes para a compreensäo de distintos aspectos da biologia vegetal. Neste trabalho, características estruturais e funcionais deste tipo de proteínas em cana-de-açúcar (Saccharum officinarum L.) foram analisadas. Uma vez que esta é a primeira descriçäo deste tipo de proteínas, em cana-de-açúcar, especial atençäo foi dada para o padräo de expressäo destes genes, analisando-se a abundância e prevalência de cada um dos genes nas diferentes bibliotecas de cDNA do projeto Sequenciamento de ESTs de cana-de-açúcar (SUCEST). A comparaçäo das GRPs de cana-de-açúcar com as GRPs descritas em outras espécies também será discutida.