Detection, distribution, and genetic variability of European mountain ash ringspot-associated virus.
View/ Open
Author
Kalkkinen, A.K.
Lindberg, I.L.
Tugume, A.K.
Valkonen, J.P.T.
Metadata
Show full item recordAbstract
European mountain ash ringspot-associated virus (EMARAV) was
recently characterized from mountain ash (rowan) (Sorbus aucuparia) in
Germany. The virus belongs tentatively to family Bunyaviridae but is not
closely related to any classified virus. How commonly EMARAV occurs
in ringspot disease (EMARSD) affected mountain ash trees was not reported
and was investigated here. Virus-specific detection tools such as
reverse transcription-polymerase chain reaction and dot blot hybridization
using digoxigenin-labeled RNA probes were developed to test 73 mountain
ash trees including 16 trees with no virus-like symptoms from 16
districts in Finland and Viipuri, Russia. All trees were infected with
EMARAV. Hence, EMARAV is associated with EMARSD and can also
cause latent infections in mountain ash. Symptom expression and the
variable relative concentrations of viral RNA detected in leaves showed
no correlation. Infectious EMARAV was detected also in dormant branches
of trees in winter. Subsequently, genetic variability, geographical differentiation,
and evolutionary selection pressures were investigated by analyzing
RNA3 sequences from 17 isolates. The putative nucleocapsid (NP)
gene sequence (944 nucleotides) showed little variability (identities 97 to
99%) and was under strong purifying selection. Amino acid substitutions
were detected in two positions at the N terminus and one position at the C
terminus of NP in four isolates. The 3′ untranslated region (442 nucleotides)
was more variable (identities 94 to 99%). Six isolates from a single
sampling site exhibited as wide a genetic variability as isolates from sites
that were hundreds of kilometers apart and no spatial differentiation of
populations of EMARAV was observed.