Identification of plant-pathogenic fungi is time-consuming due to cultivation and microscopic examination and can be influenced by the interpretation of the micro-morphological characters observed.The present investigation aimed to create a simple but sophisticated method for the identification of plant-pathogenic fungi by Fourier transform infrared(FTIR)spectroscopy.In this study,FTIR-attenuated total reflectance(ATR)spectroscopy was used in combination with chemometric analysis for identification of important pathogenic fungi of horticultural plants.Mixtures of mycelia and spores from 27fungal strains belonging to nine different families were collected from liquid PD or solid PDA media cultures and subjected to FTIR-ATR spectroscopy measurements.The FTIR-ATR spectra ranging from 4 000to 400cm-1 were obtained.To classify the FTIRATR spectra,cluster analysis was compared with canonical vitiate analysis(CVA)in the spectral regions of3 050~2 800and 1 800~900cm-1.Results showed that the identification accuracies achieved 97.53%and99.18%for the cluster analysis and CVA analysis,respectively,demonstrating the high potential of this technique for fungal strain identification.
A SYBR Green I real-time PCR assay was developed to detect and quantify Plasmodiophora brassicae ribosomal DNA(rDNA) and internal transcribed spacer(ITS).A pair of primers PBF1/PBR1 was designed based on the conservative region of rDNA-ITS of P.brassicae.The positive plasmid pB12 was obtained and used as the template to create standard curve.The specificity,sensitivity,and reproducibility of real-time PCR were evaluated respectively.Naturally and artificially infested soil samples containing different concentrations of P.brassicae were detected.The results demonstrated that standard curve established by recombinant plasmid was shown a fine linear relationship between threshold cycle and template concentration.The melting curve was specific with the correlation coefficient of 0.995 and that the amplification efficiency was 93.8%.The detection limit of P.brassicae genomic DNA was approximately 40 copies per 25 μL.The sensitivity of the assay was at least 100-fold higher than conventional PCR.Only DNA from P.brassicae could be amplified and detected using this assay,suggesting the highly specific of this assay.The coefficient of variation was less than 3%,indicating the PCR method revealed high reproducibility.The detection limit in soil samples corresponded to 1 000 resting spores g-1soil.Bait plants were used to validate the real-time PCR assay.This developed real-time PCR assay allows for fast and sensitive detection of P.brassicae in soil and should be useful in disease management and pest interception so as to prevent further spread of P.brassicae.
LI Jin-pingLI YanSHI Yan-xiaXIE Xue-wenChai A-liLI Bao-ju
