Molecular characterization of foveaviruses associated with the cherry necrotic mottle leaf disease and complete sequencing of an European isolate of Cherry green ring mottle virus.

Analysis of the P1C124 source (associated with the cherry necrotic mottle leaf (CNML) disease) revealed the presence of two different viral agents. The complete nucleotide sequence of one of these agents, P1A, had an overall nucleotide sequence similarity of 83% with a previously sequenced North American isolate of Cherry green ring mottle virus (CGRMV) and should therefore be regarded as an European isolate of CGRMV. Approximately 2 kb of the 5' end of the genome of the second agent, P1B, were also sequenced and were shown to be 82% homologous with Cherry necrotic rusty mottle virus (CNRMV), another member of the Foveavirus genus. The possible involvement of CGRMV-P1A and of CNRMV-P1B in the etiology of the CNML disease is discussed.

Comparison of monoclonal antibodies and polymerase chain reaction assays for the typing of isolates belonging to the d and m serotypes of plum pox potyvirus.

ABSTRACT Plum pox potyvirus (PPV) isolates may be divided into four groups separated by serological, molecular, and epidemiological differences. Monoclonal antibodies specific for the two major groups of isolates, represented by the D and M serotypes of the virus, have been obtained. Polymerase chain reaction (PCR)-based assays allowing the direct detection and differentiation of PPV isolates have also been developed. We now report on a large-scale comparison of these two typing approaches. The results obtained show an overall excellent correlation between the results obtained in indirect double-antibody sandwich enzyme-linked immunosorbent assay using PPV-D- and PPV-M-specific monoclonal antibodies and those derived from either specific PCR assays or restriction fragment length polymorphism analysis of PCR fragments. Without exception, all isolates reacting positively with the PPV-M-specific monoclonal antibody were found to belong to the M serotype using the PCR-based assays, while 51 out of 53 isolates recognized by the D-specific monoclonal antibodies belonged to the D serotype according to the PCR typing results. However, failure to react with a specific monoclonal antibody did not prove as effective a predictor of the serotype of the isolate analyzed. In a few cases, the results obtained with the various techniques diverged, indicating low level variability of the epitopes recognized by the serotype-specific monoclonal antibodies. Isolates belonging to the two minor groups of PPV (El Amar and Cherry) also gave divergent results, indicating that the current typing assays are not suited for the analysis of such isolates.

A highly sensitive immunocapture polymerase chain reaction method for plum pox potyvirus detection.

A highly sensitive assay, based on polymerase chain reaction amplification of cDNA synthesized from the viral RNA of antibody-captured viral particles, has been developed for plum pox potyvirus (PPV) detection. The reaction, called immunocapture/PCR (IC/PCR), yields a specific 243-bp product. The immunocapture step, by allowing the use of large sample volumes and by the viral particle prepurification it achieves, dramatically increases the sensitivity of the assay. As few as 8000 target viral particles per ml of plant extract could be detected by IC/PCR. When compared to direct PCR (Wetzel et al., 1991), molecular hybridization using 32P-labeled cRNA probes and ELISA, this result corresponds to a 250-fold, 625-fold and 5000-fold increased sensitivity, respectively. The high sensitivity of IC/PCR was confirmed during an indexing trial with field samples collected from naturally infected trees. This very powerful technique should have wide ranging applications for the detection of a number of other viruses and pathogens for which specific antisera and sequence data are available.

32P- and biotin-labelled in vitro transcribed cRNA probes for the detection of potato spindle tuber viroid and chrysanthemum stunt viroid.

Replacing nick-translated DNA probes by in vitro transcribed complementary RNA (cRNA) probes considerably increased the sensitivity of dot-blot detection tests of potato spindle tuber viroid and chrysanthemum stunt viroid. As compared to the limit of detection of 5-10 pg of viroid obtained with 32P-labelled DNA probes, cRNA probes allow the detection of less than 1 pg of pure viroid. When labelled with biotin by incorporation of biotin-labelled ribonucleotides, the cRNA probes have a limit of detection of approximately 5 pg of purified viroid.

Detection of Chrysanthemum stunt viroid (CSV) using nick translated probes in a dot-blot hybridization assay.

We developed a dot-blot hydridization assay for the detection of Chrysanthemum stunt viroid (CSV) in Chrysanthemum plant samples. The probe, a recombinant plasmid containing a full-length monomeric cDNA copy of CSV, is labelled with (32P) by nick-translation. The influence of the hybridization conditions, of the sample denaturation technique and of the plant sap components on the final sensitivity has been studied. The optimized system, involving a formaldehyde denaturation step, allows the detection of as little as 5 pg of purified viroid. Under these conditions, 100 pg of pure viroid diluted in plant sap, or infected plant extract diluted 1:25 in healthy extract can be detected, showing the potential of this method for indexing of Chrysanthemum for CSV infection.