Background Xanthomonas citri pv. viticola is one of the most critical grapevine diseases in the Northeast of Brazil, presenting a high risk to Brazilian and worldwide areas of grape production. The X.citri pv. viticola epithet was recently proposed to be changed from X. campestris pv. v iticola based on multilocus sequence analysis and whole-genome sequences. Besides, genomics has revolutionized the field of bacteriology, by associating genome sequencing with comparative analysis such as in silico analysis such as DNA-DNA hybridization, average nucleotide identity, distance between genomes, pan-genomic approach, and phylogenomic, providing valuable insights and knowledge about virulence factors and contributing to increase the understanding and clarifying the taxonomic relationship of Xanthomonas and others prokaryotic species.Results We used the whole-genome sequence of three Brazilian strains and the pathotype to characterize X.citri pv. viticola accessions plus 124 whole-genome sequences of Xanthomonas species available in NCBI, comprising 13 species and 15 pathovars. The whole-genome sequence structure of X. citri pv. viticola was shown presents a high level of conservation concerning other X. citri species. Pan-genomic approaches, average nucleotide identity analysis, and in silico DNA-DNA hybridization were carried out, allowing X.citri pv. viticola characterization and inferences on the phylogenetic relationships within Xanthomonas . The analysis of the sequence of the 128 genomes clustered the Xanthomonas strains in eight main groups according to the recently proposed classification in all approaches used. Also, the analysis revealed that X. hortorum and X. gardneri should be classified as a single species, and the strain 17 of X. campestris and XC01 of X. citri pv. mangiferaeindicae widely described in the literature are misclassified.Conclusions We performed the genomic characterization of three representative Brazilian strains of Xcv . The genomic approaches based in the pan-genome, average nucleotide identity, and in silico DNA-DNA hybridization support the proposed taxonomic position of X.citri pv. viticola and of the recently proposed Xanthomonas species and pathovars. In addition, we detected species delimitation of the misclassified Xanthomonas strains with extensive studies reported in the literature.
Identifying DNA markers such as Short Tandem Repeats (STR) can be used to investigate genetic diversity based on levels of heterozygosity within and between populations. Allele frequencies and forensic data for STRs were obtained from a sample of 384 unrelated individuals living in Bahia, Northeastern Brazil. Thus, the present study aimed to identify the allele frequency distribution, in addition to the forensic and genetic data, of 25 STR loci in the population of Bahia. Buccal swabs or fingertip punctures were utilized to amplify and detect 25 DNA markers. The most polymorphic loci were SE33 (43), D21S11, and FGA (21). The least polymorphic were TH01 (6), TPOX, and D3S1358 (7). Forensic and statistical data were obtained through data analysis, which revealed a large genetic diversity, with an average value of 0.813 for the analyzed population. The present study was more robust than previous STR marker studies and will contribute to future research on population genetics in Brazil and worldwide. The results of this study allowed the establishment of haplotypes found in the forensic samples of Bahia State to serve as a reference in the elucidation of criminal cases and paternity tests, as well as population and evolutionary investigations.
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