Variation in eyespot populations; a field study

Non peer reviewe

Quinoxyfen perturbs signal transduction in barley powdery mildew (Blumeria graminis f.sp. hordei).

SUMMARY Quinoxyfen is a protectant fungicide which controls powdery mildew diseases by interfering with germination and/or appressorium formation. Mutants of barley powdery mildew, Blumeria graminis f.sp. hordei, which are resistant to quinoxyfen produce fewer conidia, which germinate and form appressoria more promiscuously than do the prolific numbers of wild-type spores. This suggests that resistance bypasses host recognition signals. RT-PCR profiles of signal transduction genes, recorded during wild-type germling morphogenesis, reveals that quinoxyfen alters the accumulation of Protein Kinase C (pkc), pkc-like and catalytic subunit of Protein Kinase A (cpka) transcripts. Differential display-reverse transcription PCR identified a gene transcript in wild-type conidia that was absent, or much less abundant, in conidia from quinoxyfen-resistant mutants. This mRNA was not detectable 24 h after wild-type conidia were inoculated on to barley. It encodes a GTPase activating protein (GAP), which may interact with a small molecular weight Ras-type GTP binding protein. In the presence of quinoxyfen, the gap mRNA remains throughout germling morphogenesis. The involvement of GAP in resistance suggests that quinoxyfen inhibits mildew infection by disrupting early cell signalling events

Methods for studying the nematophagous fungus Verticillium chlamydosporium in the root environment

In order to exploit fully the biocontrol potential of the nematophagous fungus Verticillium chlamydosporium, it is important to understand the ecology of the fungus in soil, and interactions with both plant and nematode hosts. Several approaches for studying the fungus in soil and the root environment are compared. These include a semi-selective medium for V. chlamydosporium, PCR primers specific for the fungal beta -tubulin gene, and monoclonal antibodies. In addition to providing a target for species-specific primers, the beta -tubulin gene is implicated in resistance to the fungicides used in the semi-selective medium, and the genetic basis for this is investigated. Culture and PCR-based methods were used to screen for the presence of the fungus in field soils known to have been suppressive to cereal cyst nematode and that contained V. chlamydosporium populations. Monoclonal antibodies specific for either hyphae or conidia of the fungus were obtained, and their application as a tool for visualising the infection process on the root was explored.Peer reviewe