Only one isolate formed strong heterokaryons with the reference isolates of VCG 0423. Five isolates were heterokaryon self-incompatible. Restriction fragment analysis with six different enzymes revealed 13 IGS types among 75 F. oxysporum isolates from Ibrutinib solubility dmso Turkey as well as 16 reference isolates

from Colorado, USA. The majority of single-member VCGs produced identical RFLP banding patterns with minor deviations, considerably different from those of the reference VCG isolates. These results suggested that isolates of F. oxysporum f.sp. cepae in Turkey derived from distinct clonal lineages and mutations at one or more vegetative compatibility loci restrict heterokaryon formation. “
“A novel soil-less method Small molecule library was developed to define susceptibility of developing potato tubers accurately to infection with Streptomyces scabiei the causal agent of common scab disease. Hydroponic production enabled precise identification of individual tuber development. Direct inoculation of tubers with a spore suspension of S. scabiei

resulted in disease development, demonstrating that infection could be initiated in a soil-less media. Tubers were most susceptible to infection between 3 and 20 days after tuber initiation, confirming that this early period of tuber formation is critical to disease development. Common scab caused by pathogenic Streptomyces spp. is one of the most important diseases of the potato (Solanum tuberosum L.) worldwide (Loria et al. 2006). Annual losses in Tasmania, Australia alone are estimated at c. 4% of the industry value (Wilson et al. 2009). The disease primarily reduces tuber quality, through the production of unsightly lesions with yield rarely affected. Deep-pitted lesions can also cause losses for processing (French fry and chipping). Pathogenic Streptomyces spp. produce a phytotoxin, thaxtomin A that is a key pathogenicity determinant in this disease system (Lawrence et al. 1990; Tegg et al. 2005). Epidemics of common scab disease can be sporadic and are strongly influenced by environmental conditions. Enclosed pot-based systems containing inocula have been developed for improving

Nintedanib (BIBF 1120) consistency of infection (McIntosh 1970) enabling the testing of disease management strategies (e.g. resistant cultivars; soil or tuber applied chemicals; irrigation treatments; Lapwood et al. 1970; Wilson et al. 1999, 2009; Wilson 2001; Tegg et al. 2008). It is believed that most infections occur during early tuber development yet in field and pot-based systems precise identification of tuber initiation and development is difficult as tubers are underground. Destructive processes that compromise the experiments are necessary to uncover and identify tuber development stages which also hinder precise measurement. The objectives of this study were to develop a methodology enabling precise identification of tuber development and successful infection of tubers in a non-destructive manner.