T. Avsic-zupanc et al., Genetic analysis of wild-type Dobrava hantavirus in Slovenia: co-existenceof two distinct genetic lineages within the same natural focus, J GEN VIROL, 81, 2000, pp. 1747-1755
Genetic analysis was performed of wild-type (wt) Dobrava hantavirus (DOE) s
trains from Slovenia, the country where the virus was first discovered and
where it was found to cause haemorrhagic fever with renal syndrome (HFRS),
with a fatality rate of 12 %, Two hundred and sixty mice of the genus Apode
mus, trapped in five natural foci of DOE-associated HERS during 1990-1996,
were screened for the presence of anti-hantavirus antibodies and 49 Apodemu
s flavicollis and four Apodemus agrarius were found to be positive, RT-PCR
was used to recover partial sequences of the wt-DOE medium (M) and small (S
) genome segments from nine A. flavicollis and one A. agrarius. Sequence co
mparison and phylogenetic analysis of the Slovenian wt-DOE strains revealed
close relatedness of all A. flavicollis-derived virus sequences (nucleotid
e diversity up to 6% for the M segment and 5% for the S segment) and the ge
ographical clustering of genetic variants. In contrast, the strain harboure
d by A. agrarius showed a high level of genetic diversity from other Sloven
ian DOE strains (14%) and clustered together on phylogenetic trees with oth
er DOE strains harboured by A. agrarius from Russia, Estonia and Slovakia,
These findings suggest that the DOE variants carried by the two species of
Apodemus in Europe represent two distinct genetic lineages.