| Ribonuclease T1 oligonucleotide fingerprint (ONF) analysis was used to study genomic stability of La Crosse virus (Bunyaviridae) during vertical and horizontal transmission in the laboratory. No RNA genomic changes were detected in vertebrate cell culture-propagated virus isolated (following oral ingestion and replication) from the natural mosquito host, Aedes triseriatus. Genomic changes were not detected during transovarial passage of virus through two generations of mosquitoes or in virus isolated from suckling mice infected by transovarially infected mosquitoes. These results demonstrate that the La Crosse virus genome can remain relatively stable during transovarial transmission (TOT) in the insect host and during transfer between insect and vertebrate hosts.;ONF analysis was used to demonstrate TOT of reassortant California serogroup bunyaviruses in Aedes treiseriatus. Mosquitoes were simultaneously inoculated with temperature sensitive mutants of La Crosse and Snowshoe hare viruses able to replicate at 33;Approximately 75% of the M segment and 25% of the L segment nucleotide sequences of Inkoo virus (Bunyaviridae) were determined by Sanger dideoxynucleotide sequencing of cDNA clones. Comparison of the M segment nucleotide and deduced amino acid sequences with those of four other bunyaviruses, representing two serogroups, revealed greater conservation of nucleotide than of amino acid sequence between serogroups. Areas of the sequences representing nonstructural protein(s) were less conserved than glycoprotein regions.;The L segment nucleotide sequence begins with the known 3... |
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