B. Bencharki et al., Severity of infection of Moroccan barley yellow dwarf virus PAV isolates correlates with variability in their coat protein sequences, ANN AP BIOL, 134(1), 1999, pp. 89-99
Biological properties and deduced amino acid sequences of the overlapping c
oat and 17kDa proteins were compared for 12 barley yellow dwarf virus PAV-t
ype isolates collected at different locations in Morocco. The biological va
riability of the 12 isolates was investigated by inoculation to a set of as
many as eight barley cultivars and an oat cultivar. Significant biological
variability was observed among the Moroccan PAV-type isolates, with the is
olates falling into two clusters. Cluster 1 contained isolates MA9501, MA95
02, MA9504, MA9512 and MA9513, and cluster 2 the MA9415, MA9505, MA9508, MA
9511, MA9514, MA9516 and MA9517. Isolates of cluster 2 produced more severe
symptoms and stunting than did those of cluster 1 when inoculated to appro
priate index plants. In parallel, the nucleic acid sequences were obtained
for the region containing the cistron coding for the coat protein (CP) and
17 kDa protein for all 12 isolates by reverse transcription followed by the
polymerase chain reaction. Sequence homology grouping yielded the same two
clusters of the isolates as found by measuring biological variability. Com
parisons of the CP sequences between the two clusters revealed 87.4% to 90.
5% nucleotide identity and 82.6% to 87.6% amino acid identity. Comparison w
ith other sequenced isolates demonstrated that the CP's of cluster 1 were c
losely related to the Australian (Vic-PAV), the North American (NY-PAV, P-P
AV), and Japanese (JPN-PAV) PAV-type isolates. The CP's of cluster 2, on th
e other hand, were closely related to the North American PAV-129 isolate. F
inally, an RFLP test on CP gene-derived PCR products has been developed whi
ch distinguishes between the two clusters of the PAV-type isolates.