RESUMO
Sporothrix schenckii and allied species are thermodimorphic fungi widely distributed in nature which causes human and animal sporotrichosis, the most common subcutaneous mycosis globally. Sporotrichosis is acquired after a traumatic inoculation of soil or plant material contaminated with Sporothrix propagules or through bites and scratches from diseased cats. In Ascomycota, the master regulators of sex are MAT genes that lie in a single mating-type locus, in Sporothrix these are determined by two nonhomologous alleles, MAT1-1 and MAT1-2. We assessed the whole-genome sequences of medically relevant Sporothrix to develop a single-tube duplex PCR assay to screen S. brasiliensis, S. schenckii, S. globosa, and S. luriei idiomorphs (MAT1-1 or MAT1-2) and understand the distribution and incidence of mating-type strains from natural populations. Using our duplex PCR assay, a 673 bp amplicon (α-box protein) was consistently amplified from all MAT1-1 isolates, while a 291 bp fragment was only amplified from the isolates harboring MAT1-2 (HMG box). Molecular evidence suggests heterothallism (self-sterility) as the unique mating strategy among the species evaluated. The mating-type identity of 93 isolates revealed a nearly equal distribution (1:1 ratio) of mating type alleles within species but deviating between different outbreak areas. Remarkably, for S. brasiliensis in Rio de Janeiro, we report an overwhelming occurrence of MAT1-2 (1:13 ratio; χ2 = 10.286, P = 0.0013) opposing the high prevalence MAT1-1 in the Rio Grande do Sul (10:1 ratio; χ2 = 7.364, P = 0.0067). Therefore, the population structure of Sporothrix species refers from paucity to regular cycles of sexual recombination in most of the studied regions. Our PCR-based mating-type diagnostic assay is proposed here as an important marker to track the geographical expansion during the long-lasting outbreak of cat-transmitted sporotrichosis driven by S. brasiliensis.
Assuntos
Sporothrix , Esporotricose , Animais , Brasil , Reação em Cadeia da Polimerase , Sporothrix/genética , Esporotricose/epidemiologia , Esporotricose/veterináriaRESUMO
Paracoccidioidomycosis (PCM) is a life-threatening systemic fungal infection caused by members of the Paracoccidioides brasiliensis complex and P. lutzii. Routine diagnoses of PCM down to the species level using classical mycological approaches are unspecific due to overlapping phenotypes. There is an urgent need for specific, sensitive, and cost-effective molecular tools to diagnose PCM. Variation among the exon-2 of the gp43 gene was exploited to design species-specific primer pairs to discriminate between members of the P. brasiliensis complex and P. lutzii in a duplex PCR assay. Primer-BLAST searches revealed highly species-specific primers, and no significant region of homology was found against DNA databases except for Paracoccidioides species. Primers PbraCx-F and PbraCx-R targeting P. brasiliensis DNA produced an amplicon of 308 bp, while primers Plu-F and Plu-R targeting P. lutzii DNA generated an amplicon of 142 bp. The lower limit of detection for our duplex PCR assay was 1 pg of gDNA. A panel of 62 Paracoccidioides revealed 100% specificity (AUC = 1.000, 95%CI 0.972-1.000, p < 0.0001) without cross-reacting with other medically relevant fungi or human DNA. As a proof of concept, we demonstrated the accurate identification of the P. brasiliensis complex (n = 7) or P. lutzii (n = 6) from a broad range of formalin-fixed, paraffin-embedded (FFPE) tissues of PCM patient's organs. In four cases, FFPE PCR results confirmed, for the first time, co-infection due to P. brasiliensis (S1) and P. lutzii in the same biopsy. Our duplex PCR assay is useful to detect and differentiate members of the P. brasiliensis complex and P. lutzii, providing clinical laboratories with an important tool to be applied routinely, especially in atypical cases such as those featuring negative serology and positive mycological examination of clinical specimens as well as for the investigation of putative co-infection cases. This will likely benefit thousands of infected patients every year in a wide area of the Americas.
RESUMO
Many genetic studies in insects require sex identification of individuals in all developmental stages. The most common sex chromosome system in lepidopterans is WZ/ZZ; the W chromosome is present only in females. Based on two W chromosome-specific short sequences (CpW2 and CpW5) described in Cydia pomonella (L.) (Lepidoptera: Tortricidae), we identified homologous female-specific sequences in Lobesia botrana Den. & Schiff, a polyphagous and very harmful species present in Chile since 2008. From this starting point, we extended the sequence information using the inverse PCR method, identifying the first W-specific sequences described up to now for the moth. Finally, we developed a duplex PCR method for rapid and sensitive determination of sex in L. botrana from larva to adult. The method showed a detection limit of 1 pg of genomic DNA; a blind panel of samples exhibited exact correspondence with the morphological identification. These results will be very useful for studies requiring sex-specific analyses at any developmental stage, contributing also to the understanding of gene expression in the insect, as well as to the eventual development of control protocols against the moth, such as the development of genetic sexing strains for the implementation of the sterile insect technique.
Assuntos
Mariposas , Animais , Chile , Feminino , Larva/genética , Mariposas/genética , Reação em Cadeia da PolimeraseRESUMO
This study was conducted to evaluate a protocol and to select novel primers for the species-specific identification of Taenia saginata and Taenia solium by PCR and duplex-PCR assays. Sequences of the LSU rRNA gene of taenids were obtained from the GenBank (T. saginata access n° AB020399 and T. solium access n° AB020395). The sequences were aligned and then used for primer design. The generic primer TBR3 (5'-ggcttgtttgaatggtttgacg- 3') was selected from a conserved region. The T. saginata specific primer TBR-4 (5'-cgactcatgaagataaacaaggt-3') as well as T. solium specific primers TBR-5 (5'-cggtcgaacagaccataaatct-3') and TBR-6 (5'-gctactacacctaaattctaacc- 3') were selected from different semi-conserved regions. The selected sequences were examined in for similarities with other organisms through the GenBank Blast procedure and experimentally by PCR using total DNA (tDNA) extracted from cysticerci and proglottids from both parasites. The primer pair TBR-3/TBR-4 amplified specific fragments of 328 bp from T. saginata tDNA. The pairs TBR-3/TBR5 and TBR-3/TBR-6 amplified, respectively, the expected and specific fragments of 310bp and 286bp from the T. solium tDNA. Sequencing of the amplicons followed by comparison to GenBank reference sequences confirmed the identities of the PCR products. The detection sensitivity was equivalent to 1fg of T. solium tDNA and 0,2fg of T. saginata tDNA. The combination of primers TBR-3/TBR-4 and TBR3/TBR-6 and the size of amplicons allowed the establishment of a duplex-PCR assay to detect T. saginata and T. solium DNA. No cross reaction was observed with any combination of primers in reactions with tDNA of the parasites Taenia hydatigena, Taenia taeniaeformis, Hymenolepis diminuta, Anoplocephala magna, Paranoplocephala mamillana and Moniezia expansa, nether from the hosts tDNA Homo sapiens, Bos taurus nor Sus scrofa.
Este estudo teve como objetivo a padronização de protocolos e a seleção de novos primers para a identificação espécie-específica de Taenia saginata e Taenia solium através da reação em cadeia da polimerase (PCR) e duplex-PCR. Inicialmente, foram recuperadas seqüências depositadas no GenBank (acesso n° AB020399 para T. saginata e n° AB020395 para T. solium) referentes ao gene da subunidade maior do ribossomo (LSU RNAr) de tenídeos. A partir do alinhamento das seqüências, um primer genérico denominado TBR-3 (5'-ggcttgtttgaatggtttgacg- 3') foi selecionado de região conservada e, de diferentes regiões semi-conservadas, os primers específicos TBR-4 para T. saginata (5'-cgactcatgaagataaacaaggt-3') e TBR-5 (5'-cggtcgaacagaccataaatct-3') e TBR-6 (5'-gctactacacctaaattctaacc- 3') para T. solium. Os primers foram avaliados quanto à especificidade através da PCR empregando-se DNA total (DNAt) de amostras de cisticercos e proglotes dos parasitos, previamente identificadas por critérios morfológicos. O par de primers TBR-3/TBR-4 permitiu a amplificação específica do fragmento esperado de 328 pb a partir do DNAt de T. saginata. Os pares TBR-3/TBR-5 e TBR-3/TBR-6 permitiram a amplificação, respectivamente, dos fragmentos específicos de 310pb e 286pb a partir do DNAt de T. solium. A identidade dos produtos de PCR foi comprovada comparando-se a seqüência dos amplicons obtidos às seqüências de referência do gene LSU RNAr registrado no GenBank (n° AB020399 e n° AB020395). As reações apresentaram sensibilidade para detecção de até 1fg do DNAt de T. solium e 0,2fg do DNAt de T. saginata. A combinação dos primers TBR-3/TBR-4 e TBR3/TBR-6 e o tamanho dos fragmentos gênicos obtidos permitiram o estabelecimento de ensaios de duplex-PCR, eficaz na detecção simultânea do DNA de T. saginata e T. solium em sistema único de reação. Os primers utilizados não geraram qualquer produto de amplificação cruzada quando testados com DNAt de Taenia hydatigena, Taenia taeniaeformis, Hymenolepis diminuta, Anoplocephala magna, Paranoplocephala mamillana e Moniezia expansa, nem frente ao DNAt dos hospedeiros Homo sapiens, Bos taurus e Sus scrofa.
RESUMO
This study was conducted to evaluate a protocol and to select novel primers for the species-specific identification of Taenia saginata and Taenia solium by PCR and duplex-PCR assays. Sequences of the LSU rRNA gene of taenids were obtained from the GenBank (T. saginata access n° AB020399 and T. solium access n° AB020395). The sequences were aligned and then used for primer design. The generic primer TBR3 (5'-ggcttgtttgaatggtttgacg- 3') was selected from a conserved region. The T. saginata specific primer TBR-4 (5'-cgactcatgaagataaacaaggt-3') as well as T. solium specific primers TBR-5 (5'-cggtcgaacagaccataaatct-3') and TBR-6 (5'-gctactacacctaaattctaacc- 3') were selected from different semi-conserved regions. The selected sequences were examined in for similarities with other organisms through the GenBank Blast procedure and experimentally by PCR using total DNA (tDNA) extracted from cysticerci and proglottids from both parasites. The primer pair TBR-3/TBR-4 amplified specific fragments of 328 bp from T. saginata tDNA. The pairs TBR-3/TBR5 and TBR-3/TBR-6 amplified, respectively, the expected and specific fragments of 310bp and 286bp from the T. solium tDNA. Sequencing of the amplicons followed by comparison to GenBank reference sequences confirmed the identities of the PCR products. The detection sensitivity was equivalent to 1fg of T. solium tDNA and 0,2fg of T. saginata tDNA. The combination of primers TBR-3/TBR-4 and TBR3/TBR-6 and the size of amplicons allowed the establishment of a duplex-PCR assay to detect T. saginata and T. solium DNA. No cross reaction was observed with any combination of primers in reactions with tDNA of the parasites Taenia hydatigena, Taenia taeniaeformis, Hymenolepis diminuta, Anoplocephala magna, Paranoplocephala mamillana and Moniezia expansa, nether from the hosts tDNA Homo sapiens, Bos taurus nor Sus scrofa.
Este estudo teve como objetivo a padronização de protocolos e a seleção de novos primers para a identificação espécie-específica de Taenia saginata e Taenia solium através da reação em cadeia da polimerase (PCR) e duplex-PCR. Inicialmente, foram recuperadas seqüências depositadas no GenBank (acesso n° AB020399 para T. saginata e n° AB020395 para T. solium) referentes ao gene da subunidade maior do ribossomo (LSU RNAr) de tenídeos. A partir do alinhamento das seqüências, um primer genérico denominado TBR-3 (5'-ggcttgtttgaatggtttgacg- 3') foi selecionado de região conservada e, de diferentes regiões semi-conservadas, os primers específicos TBR-4 para T. saginata (5'-cgactcatgaagataaacaaggt-3') e TBR-5 (5'-cggtcgaacagaccataaatct-3') e TBR-6 (5'-gctactacacctaaattctaacc- 3') para T. solium. Os primers foram avaliados quanto à especificidade através da PCR empregando-se DNA total (DNAt) de amostras de cisticercos e proglotes dos parasitos, previamente identificadas por critérios morfológicos. O par de primers TBR-3/TBR-4 permitiu a amplificação específica do fragmento esperado de 328 pb a partir do DNAt de T. saginata. Os pares TBR-3/TBR-5 e TBR-3/TBR-6 permitiram a amplificação, respectivamente, dos fragmentos específicos de 310pb e 286pb a partir do DNAt de T. solium. A identidade dos produtos de PCR foi comprovada comparando-se a seqüência dos amplicons obtidos às seqüências de referência do gene LSU RNAr registrado no GenBank (n° AB020399 e n° AB020395). As reações apresentaram sensibilidade para detecção de até 1fg do DNAt de T. solium e 0,2fg do DNAt de T. saginata. A combinação dos primers TBR-3/TBR-4 e TBR3/TBR-6 e o tamanho dos fragmentos gênicos obtidos permitiram o estabelecimento de ensaios de duplex-PCR, eficaz na detecção simultânea do DNA de T. saginata e T. solium em sistema único de reação. Os primers utilizados não geraram qualquer produto de amplificação cruzada quando testados com DNAt de Taenia hydatigena, Taenia taeniaeformis, Hymenolepis diminuta, Anoplocephala magna, Paranoplocephala mamillana e Moniezia expansa, nem frente ao DNAt dos hospedeiros Homo sapiens, Bos taurus e Sus scrofa.