Genetic variability of the 16S rRNA gene of Nocardia brasiliensis, the most common causative agent of actinomycetoma in Latin America and the Caribbean.
Michele Guadalupe Cruz-MedranoGauddy Lizeth Manzanares-LealJanette Berenice González-NavaPablo Antonio Moreno-PérezHoracio Sandoval-TrujilloNinfa Ramírez-DuránPublished in: Revista do Instituto de Medicina Tropical de Sao Paulo (2023)
Mycetoma is a neglected tropical disease (NTD) declared by the World Health Organization (WHO) in 2016. It is characterized by the progressive growth of nodules and granulomatous lesions on the legs, arms, and trunk. It is potentially disfiguring and causes disability or amputations in working-age people from marginalized areas. The causative agents can be fungi (eumycetoma) or actinobacteria (actinomycetoma), the latter being the most common in America and Asia. Nocardia brasiliensis is the most important causal agent of actinomycetoma in the Americas. Taxonomic problems have been reported when identifying this species, so this study aimed to detect the 16S rRNA gene variations in N. brasiliensis strains using an in silico enzymatic restriction technique. The study included strains from clinical cases of actinomycetoma in Mexico, isolated from humans and previously identified as N. brasiliensis by traditional methods. The strains were characterized microscopically and macroscopically, then subjected to DNA extraction and amplification of the 16S rRNA gene by PCR. The amplification products were sequenced, and consensus sequences were constructed and used for genetic identification and in silico restriction enzyme analysis with the New England BioLabs® NEBcutter program. All study strains were molecularly identified as N. brasiliensis; however, in silico restriction analysis detected a diversity in the restriction patterns that were finally grouped and subclassified into 7 ribotypes. This finding confirms the existence of subgroups within N. brasiliensis. The results support the need to consider N. brasiliensis as a complex species.
Keyphrases
- escherichia coli
- copy number
- genome wide
- molecular docking
- gene expression
- climate change
- quality improvement
- hydrogen peroxide
- mental health
- wastewater treatment
- dna methylation
- rheumatoid arthritis
- clostridium difficile
- systemic sclerosis
- transcription factor
- nitric oxide
- genetic diversity
- interstitial lung disease