Effect of Pyraclostrobin Application on Viral and Bacterial Diseases of Tomato.

Quinone outside inhibitors (QoI) are powerful fungicides, which have been reported, additionally to their fungicide activity, to increase plant capacity to activate cellular defense responses and to promote plant growth. In this work, the effect of the QoI class fungicide pyraclostrobin was examined against Cucumber mosaic virus (CMV), Potato virus Y (PVY) and Pseudomonas syringae pv. tomato in tomato plants following artificial inoculation of the plants with the pathogens. Under controlled environmental conditions, pyraclostrobin delayed viral and bacterial disease development, even if P. syringae pv. tomato internal population levels were not affected significantly. In contrast, under field conditions in commercial greenhouses, a reduced CMV disease incidence throughout the tomato cultivation period was recorded. Gene expression analysis indicated an effect of pyraclostrobin application on tomato MAPKs transcript levels and a possible interference with plant stress responses.

Transcriptional regulation and functional involvement of the Arabidopsis pescadillo ortholog AtPES in root development.

The Pescadillo gene is highly conserved from yeasts to human and has been shown to impact on both the cell cycle and on ribosome biogenesis. However, the biological function and transcriptional regulation of the plant orthologs remain unclear. In the present study, we have implemented a combination of molecular and genetic approaches, in order to characterize the Arabidopsis thaliana pescadillo ortholog (AtPES) and its role in root development. The RNAi transgenic lines displayed severely compromised meristem structures and a reduction of the primary root length of up to 70%. The correct pattern of the cell files is distorted, whereas in the root elongation and differentiation zone the epidermal and cortex cells appear abnormally enlarged. Yeast two hybrid and BiFC experiments confirmed that AtPES interacts physically with AtPEIP1 and AtPEIP2, the orthologs of the murine Bop1 and WDR12. Promoter deletion analysis revealed that AtPES expression depends on a number of transcription factor binding sites, with the TELO-box being a crucial site for regulating its accurate tissue-specific manifestation. Our results indicate that AtPES is firmly regulated at the transcriptional level and that the corresponding protein plays a role in root developmental processes.