Ph. Chung et al., DIVERSITY OF CRYPHONECTRIA-PARASITICA HYPOVIRULENCE-ASSOCIATED DOUBLE-STRANDED RNAS WITHIN A CHESTNUT POPULATION IN NEW-JERSEY, Phytopathology, 84(9), 1994, pp. 984-990
The effects on colony morphology, sporulation, laccase production, and
virulence of hypovirulence-associated double-stranded (ds)RNAs of the
chestnut blight fungus, Cryphonectria parasitica, from a population o
f chestnut trees in eastern New Jersey were examined. Size and number
of dsRNAs were determined by gel electrophoresis, and their genetic va
riability was determined by polymerase chain reaction (PCR) and nucleo
tide sequencing. The New Jersey hypovirulent isolates were similar in
cultural phenotype and electrophoretic characteristics of their dsRNAs
. PCR amplification primed by oligonucleotides specific for a conserve
d region of a New Jersey-derived Cryphonectria hypovirus dsRNA (CHV2-N
B58) for which the entire nucleotide sequence is known resulted in amp
lification of a single band of predicted size from all but one of the
New Jersey dsRNAs. Neither the European-derived dsRNA, CHV1-EP713, nor
a Rhode Island dsRNA amplified with these primers. The sequences of 4
00 nucleotides of PCR-amplified products primed by two oligonucleotide
s (200 residues from each primer) were determined. Alignments of these
sequences with CHV1-EP713 and CHV2-NB58 and phylogenetic trees drawn
from these alignments indicated that all New Jersey isolates were clos
ely related and easily distinguishable from CHV1-EP713. In the region
sequenced, none of the dsRNAs from fungal isolates from different tree
s were identical; however, CHV2-NB58 dsRNA isolated in 1992 was identi
cal to the original 1988 CHV2-NB58 dsRNA from the same tree. This sugg
ests that there is significant drift among dsRNA sequences even within
a small C. parasitica population but that there is stability within a
particular fungal thallus.