perseae. By phylogenetic analysis, isolate ICMP 10613 was identified as a species of Phaeosphaeria. To identify S. perseae reliably and quickly, specific polymerase chain reaction (PCR) primers were developed and tested. These PCR primers detected the authentic strain and another strain available from international collections, but did not detect isolate ATCC 11190, or the New Zealand isolate Erlotinib price ICMP 10613 which were deposited as S. perseae. No other fungi commonly present in New Zealand avocado orchards were amplified by these
primers, nor were three other species of Elsinoë (E. ampelina, E. fawcettii and E. pyri). By phylogenetic analysis of ITS sequence, the atypical isolate ATCC 11190 was identified as Elsinoë araliae, whereas isolate ICMP 10613 was identified as Phaeoseptoria
sp. (anamorphic Phaeosphaeria). Re-examination of the scar symptoms on New Zealand avocado fruit showed they were dissimilar to herbarium specimens of S. perseae from Florida and from Cuba. Leaf symptoms typical of this disease have not been found in New Zealand, and isolations from over 1000 scars on fruit onto selective media yielded no fungi identifiable as S. perseae. These results show that ICMP 10613 was mis-identified as S. perseae. The record of avocado scab in New Zealand was shown to be incorrect, and there is no evidence that the causal fungus occurs in New Zealand. “
“Fifty isolates of Bipolaris oryzae from rice were characterized morpho-pathologically and molecularly. Based on colony morphology and growth pattern on PDA, these isolates were grouped into four PD-1 inhibiton categories: black with suppressed growth (21 isolates), black with cottony growth (16 isolates), black with fluffy growth (12 isolates) and white with cottony growth (1 isolate). The frequency of the black and suppressed type was the highest (42%) with maximum aggressiveness (mean spore count of 1854/cm2), whereas the white and cottony growth isolate had lowest frequency (2%) and aggressiveness (548/cm2). Thirteen B. oryzae isolates
(four isolates from Groups I, II and III and one isolate from Group IV) were further tested for their variability with random amplified polymorphic DNA (RAPD) primers. Twenty RAPD primers were screened, of which 10 gave amplification; however, selleck only six primers gave reproducible results. Based on the molecular similarity of the RAPD profiles, the isolates were grouped in to three major clusters and maximum linkage distance between them was determined as 0.29 units. This study establishes the variability among B. oryzae isolates. “
“Stripe rust, caused by Puccinia striiformis f.sp. tritici (Pst), is one of the most widespread and destructive diseases of wheat worldwide. Resistance breeding is constantly pursued for decades to tackle the variations of prevalent Pst races.