2), with most isolates sampled from the same host grouping togeth

2), with most isolates sampled from the same host grouping together. In support, the host is known to have a significant impact on the genetic structure of pathogen populations, especially in pathosystems characterized by the rapid breakdown of race-specific resistance (McDonald et al., 1989). Finally, while Newton et al. (2001) and Bouajila et al. (2007) indicated no clear relationship between genetic and pathogenic variation using RAPD and AFLP markers, the calculated degree of coincidence between pathotype and SSR haplotypes (Table 4) allowed the determination of pathogenicity in 52% of the isolates by fingerprinting with seven microsatellite loci. A similar

discrepancy in the SSR haplotype and pathogenicity has also been reported Selleckchem SB431542 by Takeuchi & Fukuyama (2009). In addition, many SSR alleles were shown to be linked to virulence (Table 3). These may serve as rapid

molecular tools for pathogen detection, without the inoculation that requires long incubation periods before ultimate disease assessment. This investigation was cosponsored by ICARDA-ETH Zurich. The authors acknowledge the support and the use of facilities of ETH – Institute of Integrative Biology ‘Phytopathology Group’, where this work was carried out. We are grateful to Dr Bruce for providing SSR primers. “
“The plant hormone ethylene has been reported to inhibit the Agrobacterium tumefaciens-mediated transformation efficiency of many plants. In this study, an acdS gene that encodes 1-aminocyclopropane-1-carboxylic acid (ACC) deaminase, an enzyme that PD-1/PD-L1 inhibitor review breaks down ACC, the direct precursor of ethylene biosynthesis in all higher plants, was introduced into A. tumefaciens GV3101∷pMP90. It was found that the presence of active ACC deaminase in A. tumefaciens reduced ethylene levels produced by plant tissues during the process of infection oxyclozanide and cocultivation, and significantly increased the transformation efficiency of three commercial canola cultivars: Brassica napus cv. Westar, B. napus cv. Hyola 401 and B. napus cv. 4414RR. Agrobacterium tumefaciens is an important tool for plant genetic engineering. However, the low

transformation efficiency of many commercially important crops is the main factor limiting its use. Among various factors, ethylene produced by plants is one that inhibits A. tumefaciens-mediated transformation efficiency. For example, it has been reported that reducing the ethylene level increased the expression of the vir genes of A. tumefaciens, thereby increasing gene delivery efficiency (Nonaka et al., 2008a). Moreover, application of ethylene inhibitors such as aminoethoxyvinylglycine or silver ions in the tissue culture medium has been reported to improve the transformation efficiency of many plant species, such as bottle gourd, cauliflower, apricot and apple trees (Chakrabarty et al., 2002; Burgos & Alburquerque, 2003; Han et al., 2005; Petri et al., 2005; Seong et al., 2005).

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