Nasim Sedighian scite author profile

The Ralstonia solanacearum species complex (RSSC) can cause bacterial wilt in a wide variety of plant species, including a number of ornamental glasshouse crops. Recently in Europe, ornamental rose plants for the production of cut flowers and propagation materials have been strongly affected by Ralstonia pseudosolanacearum, phylotype I, biovar 3. To test for the presence of the pathogen in the glasshouse, sampling of water from a drainage gutter or well may be an efficient strategy since it is known that RSSC can be released from infected root systems in the water. A protocol was developed to detect low densities of R. pseudosolanacearum in drain water collected from rose growers. Drain water was filtered through a bacterial filter, the filtrate was collected and target bacteria enriched for 48 h in Semi‐selective Medium South Africa (SMSA) broth supplemented with sterilized tomato plant extracts. DNA extracted from the enrichment broth was analysed using a TaqMan test in a duplex format, based on specific egl sequences of RSSC and the use of an extraction and amplification control. The optimized protocol had a detection level of ≤1–10 colony forming units of R. pseudosolanacearum in drain water.

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Potato-Infecting Ralstonia solanacearum Strains in Iran Expand Knowledge on the Global Diversity of Brown Rot Ecotype of the Pathogen

Sedighian

Hamzehzarghani

Wolf

et al. 2020

Phytopathology®

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Bacterial wilt and brown rot disease caused by Ralstonia solanacearum species complex (RSSC) is one of the major constraints of potato (Solanum tuberosum) production around the globe. During 2017 to 2018, an extensive field survey was conducted in six potato-growing provinces of Iran to monitor the status of bacterial wilt disease. Pathogenicity and host range assays using 59 bacterial strains isolated in Iran showed that they were pathogenic on eggplant, red nightshade, pepper, potato and tomato, while nonpathogenic on common bean, cowpea, cucumber, sunflower, zinnia and zucchini. PCR-based diagnosis revealed that the strains belong to the phylotype IIB/sequevar 1 (IIB/I) lineage of the RSSC. Furthermore, a five-gene multilocus sequence analysis and typing (egl, fliC, gyrB, mutS, and rplB) confirmed the phylogenetically near-homogeneous nature of the strains within IIB/I lineage. Four sequence types were identified among 58 IIB/1 strains isolated in Iran. Phylogenetically near-homogeneous nature of the strains in Iran raise questions about the mode of inoculum entry of the bacterial wilt pathogen into the country (one-time introduction versus multiple introductions), while the geographic origin of the Iranian R. solanacearum strains remains undetermined. Furthermore, sequence typing showed that there were shared alleles (haplotypes) and sequence types among the strains isolated in geographically distant areas in Iran, suggesting intranational transmission of the pathogen in the country.

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Factors influencing Ralstonia pseudosolanacearum infection incidence and disease development in rose plants

Wolf¹,

Kastelein²,

Poleij³

et al. 2022

Plant Pathology

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Bacteria belonging to the Ralstonia solanacearum species complex (RSSC) are the causative agents of bacterial wilt on a range of important crops such as banana, potato and tomato, as well as on ornamental plants like gerbera, sunflower and geranium (Norman et al., 2009). Its wide host range, aggressiveness, easy dissemination and persistence in the environment makes the RSSC one of the most destructive groups of bacterial pathogens in agricultural systems (Genin, 2010). Phylogenetic analysis divides the RSSC into four phylotypes. In 2014, phylotypes I and III were reclassified as R. pseudosolanacearum, phylotype II as R. solanacearum, and phylotype IV as R. syzygii (Safni et al., 2014).Pathogens within the RSSC are occasionally found in ornamental glasshouse crops in Europe, such as R. solanacearum in pelargonium

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Nasim Sedighian

Serratia marcescens associated with squash leaf chlorosis and necrotic spots in Iran

Detection of Ralstonia pseudosolanacearum in drain water based on concentration, enrichment and the use of a duplex TaqMan PCR test

Potato-Infecting Ralstonia solanacearum Strains in Iran Expand Knowledge on the Global Diversity of Brown Rot Ecotype of the Pathogen

Factors influencing Ralstonia pseudosolanacearum infection incidence and disease development in rose plants

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