Whole Genome Sequences of Nine Xanthomonas Strains Responsible for Common Bacterial Blight of Bean.

We report the complete and circularized genome sequences of nine strains of Xanthomonas phaseoli pv. phaseoli and Xanthomonas citri pv. fuscans, which cause common bacterial blight of bean. These assemblies provide high-quality material for functional and evolutionary studies of these legume pathogens.

Molecular detection of Erwinia psidii in guava plants under greenhouse and field conditions / Detecção molecular de Erwinia psidii em goiabeira em condições de casa de vegetação e campo

ABSTRACT: Erwinia psidii causes bacterial blight of guava ( Psidium guajava ), an important disease of this crop in Brazil. The pathogen affects branches and twigs of guava trees, reducing yield significantly. Bacterial dissemination often occurs through contaminated but asymptomatic propagating plant material. The objectives of this research were to evaluate the use of BIO-PCR and conventional PCR to detect E. psidii in inoculated guava plants grown in a greenhouse and in symptomatic and asymptomatic trees from guava orchards. Erwinia psidii strain IBSBF 1576 was inoculated (107CFU mL-1) into young guava shoots and plant tissue was analysed at 0, 5, 10, and 15 days after inoculation. Symptoms were observed after 5 days and all inoculated shoots were PCR positive at all times, by both BIO-PCR and conventional PCR. Under natural infection conditions, 40 samples were tested by BIO-PCR from each of three guava orchards, 20 showing symptoms and 20 asymptomatic. PCR was positive for 58 out of 60 symptomatic samples (96.7%) and for 6.7% of asymptomatic samples, showing that the method can be used to detect the pathogen at early stages of infection. This PCR method may be used as a diagnostic tool to assess bacterial survival, dissemination and disease outbreaks.

RESUMO: Erwinia psidii é o agente causal da seca dos ponteiros da goiabeira ( Psidium guajava ), uma importante doença dessa cultura no Brasil. O patógeno afeta folhas, frutos, ramos e brotações, reduzindo significativamente a produtividade da cultura. A disseminação do patógeno ocorre por meio de material propagativo contaminado, porém assintomático. Os objetivos do trabalho foram avaliar o uso da BIO-PCR e da PCR convencional para detectar E. psidii em plantas inoculadas em casa de vegetação e em plantas sintomáticas e assintomáticas em pomares de goiabeira. A estirpe IBSBF 1576 de E. psidii foi inoculada (107UFC mL-1) em brotações novas de mudas de goiabeira e o tecido foi analisado nos tempos 0, 5, 10, e 15 dias após a inoculação. Sintomas foram observados após 5 dias e todas as plantas inoculadas foram positivas por PCR em todos os tempos avaliados, pelos dois métodos (BIO-PCR e PCR convencional). Sob condições de infecção natural em campo, três pomares foram avaliados por BIO-PCR. De cada pomar, foram coletadas 40 amostras, sendo 20 com e 20 sem sintomas. PCR foi positiva para 58 das 60 amostras sintomáticas (96,7%) e para 6,7% das amostras assintomáticas, demonstrando que o método pode ser usado para detectar o patógeno nos estágios iniciais da infecção. Este método poderá ser útil como uma ferramenta para a diagnose e para monitorar a sobrevivência e disseminação da bactéria e, consequentemente, novos focos da doença.

Low genetic diversity among pathogenic strains of Erwinia psidii from Brazil / Baixa diversidade genética entre estirpes patogênicas de Erwinia psidii no Brasil

Erwinia psidii causes bacterial disease of guava in Brazil. Phenotypic and molecular characterization through rep-PCR fingerprinting of 42 strains from different geographical regions showed that E. psidii populations in Brazil have a low level of genetic diversity and suggest that contaminated plant material is the main source for pathogen dissemination in the country.

Erwinia psidii é o agente causal da seca-dos-ponteiros ou bacteriose da goiabeira no Brasil. A caracterização fenotípica e molecular através de rep-PCR de 42 estirpes patogênicas de diferentes regiões mostrou que as populações de E. psidii no Brasil têm um baixo nível de diversidade genética e sugere que material de propagação infectado é a principal fonte de disseminação do patógeno para novas áreas no país.

Low genetic diversity among pathogenic strains of Erwinia psidii from Brazil.

Erwinia psidii causes bacterial disease of guava in Brazil. Phenotypic and molecular characterization through rep-PCR fingerprinting of 42 strains from different geographical regions showed that E. psidii populations in Brazil have a low level of genetic diversity and suggest that contaminated plant material is the main source for pathogen dissemination in the country.

BOX-PCR-based identification of bacterial species belonging to Pseudomonas syringae: P. viridiflava group

The phenotypic characteristics and genetic fingerprints of a collection of 120 bacterial strains, belonging to Pseudomonas syringae sensu lato group, P. viridiflava and reference bacteria were evaluated, with the aim of species identification. The numerical analysis of 119 nutritional characteristics did not show patterns that would help with identification. Regarding the genetic fingerprinting, the results of the present study supported the observation that BOX-PCR seems to be able to identify bacterial strains at species level. After numerical analyses of the bar-codes, all pathovars belonging to each one of the nine described genomospecies were clustered together at a distance of 0.72, and could be separated at genomic species level. Two P. syringae strains of unknown pathovars (CFBP 3650 and CFBP 3662) and the three P. syringae pv. actinidiae strains were grouped in two extra clusters and might eventually constitute two new species. This genomic species clustering was particularly evident for genomospecies 4, which gathered P. syringae pvs. atropurpurea, coronafaciens, garçae, oryzae, porri, striafaciens, and zizaniae at a noticeably low distance.

Introduction of the anti-apoptotic baculovirus p35 gene in passion fruit induces herbicide tolerance, reduced bacterial lesions, but does not inhibits passion fruit woodiness disease progress induced by cowpea aphid-borne mosaic virus (CABMV).

The introduction of anti-apoptotic genes into plants leads to resistance to environmental stress and broad-spectrum disease resistance. The anti-apoptotic gene (p35) from a baculovirus was introduced into the genome of passion fruit plants by biobalistics. Eleven regenerated plants showed the presence of the p35 gene by PCR and/or dot blot hybridization. Transcriptional analysis of regenerated plants showed the presence of specific p35 transcripts in 9 of them. Regenerated plants containing the p35 gene were inoculated with the cowpea aphid-borne mosaic virus (CABMV), the bacterium Xanthomonas axonopodis pv passiflorae, and the herbicide, glufosinate, (Syngenta). None of the plants showed resistance to CABMV. Regenerated plants (p35+) showed less than half of local lesions showed by non-transgenic plants when inoculated with X. axonopodis and some p35+ plants showed increased tolerance to the glufosinate herbicide when compared to non-transgenic plants.