Prediction of Burkholderia pseudomallei DsbA substrates identifies potential virulence factors and vaccine targets

Autor: Guillaume A. Petit, Jennifer L. Martin, Ben Vezina, Maria A. Halili
Jazyk: angličtina
Rok vydání: 2020
Předmět:
Models
Molecular
Burkholderia pseudomallei
Melioidosis
Pathology and Laboratory Medicine
Biochemistry
Genome
Virulence factor
Substrate Specificity
Medicine and Health Sciences
Amino Acids
Post-Translational Modification
Francisella
Genetics
Multidisciplinary
Bacterial Genomics
biology
Organic Compounds
Gene Ontologies
Microbial Genetics
Genomics
Francisella Tularensis
Bacterial Pathogens
Chemistry
Medical Microbiology
Bacterial Vaccines
Physical Sciences
Epitopes
B-Lymphocyte
Disulfide Bonds
Medicine
Pathogens
Research Article
Virulence Factors
Science
Virulence
Microbial Genomics
Microbiology
Bacterial Proteins
medicine
Sulfur Containing Amino Acids
Bacterial Genetics
Amino Acid Sequence
Cysteine
Microbial Pathogens
Francisella tularensis
Sequence Homology
Amino Acid
Bacteria
Organic Chemistry
Chemical Compounds
Organisms
Biology and Life Sciences
Proteins
Computational Biology
Bacteriology
Periplasmic space
biochemical phenomena
metabolism
and nutrition
Genome Analysis
biology.organism_classification
medicine.disease
bacterial infections and mycoses
Gene Ontology
DsbA
biology.protein
bacteria
Genome
Bacterial
Zdroj: PLoS ONE, Vol 15, Iss 11, p e0241306 (2020)
PLoS ONE
ISSN: 1932-6203
Popis: Identification of bacterial virulence factors is critical for understanding disease pathogenesis, drug discovery and vaccine development. In this study we used two approaches to predict virulence factors ofBurkholderia pseudomallei, the Gram-negative bacterium that causes melioidosis.B.pseudomalleiis naturally antibiotic resistant and there are no clinically available melioidosis vaccines. To identifyB.pseudomalleiprotein targets for drug discovery and vaccine development, we chose to search for substrates of theB.pseudomalleiperiplasmic disulfide bond forming protein A (DsbA). DsbA introduces disulfide bonds into extra-cytoplasmic proteins and is essential for virulence in many Gram-negative organism, includingB.pseudomallei. The first approach to identifyB.pseudomalleiDsbA virulence factor substrates was a large-scale genomic analysis of 511 uniqueB.pseudomalleidisease-associated strains. This yielded 4,496 core gene products, of which we hypothesise 263 are DsbA substrates. Manual curation and database screening of the 263 mature proteins yielded 81 associated with disease pathogenesis or virulence. These were screened for structural homologues to predict potential B-cell epitopes. In the second approach, we searched theB.pseudomalleigenome for homologues of the more than 90 known DsbA substrates in other bacteria. Using this approach, we identified 15 putativeB.pseudomalleiDsbA virulence factor substrates, with two of these previously identified in the genomic approach, bringing the total number of putative DsbA virulence factor substrates to 94. The two putativeB.pseudomalleivirulence factors identified by both methods are homologues of PenI family β-lactamase and a molecular chaperone. These two proteins could serve as high priority targets for futureB.pseudomalleivirulence factor characterization.
Databáze: OpenAIRE
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