Recently, propolis has been attracting the attention of researchers due to various biological activities and therapeutic properties. In Brazil, propolis is produced all year long, so there may be some seasonal variations. This work was carried out in order to compare propolis collected during the four seasons by its in vitro antimicrobial activity on yeast pathogens isolated from human infections. Propolis was produced by africanized honeybees in Botucatu, São Paulo State, collected throughout a year and pooled by season. Hydroalcoholic solutions of propolis were prepared with each pool and diluted in agar, using serial concentrations of propolis from each pool. A determination of minimal inhibitory concentration (MIC) was performed. The results show that Candida tropicalis and Candida albicans were susceptible to low concentrations of propolis, the latter showing a higher susceptibility. No differences were seen in relation to seasonal effects in the minimal inhibitory concentration of propolis
The β‐proteobacterium Ralstonia solanacearum causes bacterial wilt of many plant species. Knowledge of phylotype and sequevar variability in populations of this microorganism is useful for implementing control measures, particularly host resistance. To this end, 301 isolates of R. solanacearum were collected from different geographic regions and hosts in Brazil. Their phylotype and sequevar characterization was used to determine the amount and distribution of phenetic and phylogenetic variability. Isolates were classified into phylotypes I (n = 48), clade 1; and phylotype II, clades 2–5. Phylotype II was divided into subclusters IIA (n = 112) and IIB (n = 141). Phylotype II was widely distributed, whereas phylotype I isolates were found in Central, Northern, and Northeastern regions of Brazil. There were 108 haplotypes identified among endoglucanase (egl) gene sequences from 301 isolates and 32 haplotypes among DNA repair (mutS) gene regions from 176 isolates. The egl and mutS sequence analyses identified eight known (1, 4, 7, 18, 27, 28, 41 and 50) and four new (54, 55, 56 and 57) sequevars. Phylotype IIB showed high diversity in sequevars and host range. Multiplex PCR, using primers specific to the Moko ecotype, characterized banana and long pepper isolates as sequevar 4 and 4/NPB, respectively. This constitutes the first report of the emergent ecotype IIB/4NPB in a new host, long pepper. The majority of sequevars were associated with geographic regions. This high variability of R. solanacearum in Brazil suggests use of host resistance to control bacterial wilt should be mainly focused by region.
Fusarium wilt, caused by three races of Fusarium oxysporum f. sp. lycopersici, is one of the most important diseases of tomato (Lycopersicon esculentum). Races 1 and 2 are distributed worldwide whereas race 3 has a more limited geographic distribution with no report thus far in Brazil. Seven F. oxysporum isolates were obtained from wilted tomato plants of race 1 and 2-resistant hybrids 'Carmen' and 'Alambra' in Venda Nova do Imigrante (State of Espírito Santo), Brazil. Virulence assays were performed using a set of the race differential cultivars: 'Ponderosa' (susceptible to all races), 'IPA-5' (resistant to race 1), 'Floradade' (resistant to races 1 and 2) and 'BHRS-2,3' (resistant to race 3). All isolates were highly virulent to 'Ponderosa', 'IPA-5' and 'Floradade' and were able to infect only a few plants of 'BHRS-2,3'. An additional virulence test was conducted including the same set of cultivars plus Lycopersicon pennellii 'LA 716'. Identical results were obtained with L. pennellii displaying an extreme (immune-like) resistant response. These results indicated that all seven isolates could be classified as F. oxysporum f. sp. lycopersici race 3. This new Fusarium wilt might became an economically important disease since race 3-resistant cultivars adapted to Brazil are not yet available.
Among the bacterial pathogens of Eucalyptus in Brazil, Ralstonia solanacearum is considered one of the most important because of the characteristics of the pathogen, like the high diversity among the strains related to host range, high virulence, broad geographical distribution and its damage to the crop in recent years. Given its importance and the lack of research on this pathosystem, the present study aimed to perform a molecular characterization of different strains of infected Eucalyptus plants in Brazil. A total of 19 bacterial cultures isolated from Eucalyptus in different regions of Brazil were analysed. A 372-bp product generated by multiplex-PCR amplification using Nmult primers identified all the strains analysed as belonging to phylotype II. Eighteen strains were grouped into subclade IIA and one into subclade IIB. The phylogenetic tree generated from the gene sequences of endoglucanase (egl) confirmed the classification of the strains into phylotype II and separated the strains into sequevars. Strains AMC22, IBSBF2568 and IBSBF2576 were grouped into a single clade, as were strains UFV18 and UFV20, with 89% and 78% a posteriori probability, respectively, forming two new potential sequevars not yet defined. We also identified strains belonging to sequevars 41 (100% probability) and 37 (88% probability). However, most of the strains did not fit into any previously described sequevar and did not form distinct clades. The results of the analysis of fragments amplified using the ERIC-PCR technique indicated the existence of genetic diversity among the strains studied, with a generally high correlation between similarity and the geographical origin of the strains.
Bacterial wilt induced by the Ralstonia solanacearum species complex is endemic to Brazil, where it can cause variable losses in many hosts. Its economic importance, however, cannot be precisely measured due to Brazil’s continental size, subject to variable weather conditions which directly affect disease expression. The objectives of this paper were (i) to gather scattered information on historical facts; (ii) to show the current distribution of the pathogen in the country, and (iii) to comment on future trends on the importance of the disease in economically important current and potential hosts, based on the pathogen’s variability and the global climate change under way.
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