Jacqueline H. Scherret scite author profile

In late summer 1999, an outbreak of human encephalitis occurred in the northeastern United States that was concurrent with extensive mortality in crows (Corvus species) as well as the deaths of several exotic birds at a zoological park in the same area. Complete genome sequencing of a flavivirus isolated from the brain of a dead Chilean flamingo (Phoenicopterus chilensis), together with partial sequence analysis of envelope glycoprotein (E-glycoprotein) genes amplified from several other species including mosquitoes and two fatal human cases, revealed that West Nile (WN) virus circulated in natural transmission cycles and was responsible for the human disease. Antigenic mapping with E-glycoprotein-specific monoclonal antibodies and E-glycoprotein phylogenetic analysis confirmed these viruses as WN. This North American WN virus was most closely related to a WN virus isolated from a dead goose in Israel in 1998.

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Genetic analysis of West Nile New York 1999 encephalitis virus

Jia

et al. 1999

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The Relationships between West Nile and Kunjin Viruses

Scherret

Poidinger

Mackenzie

et al. 2001

Emerg. Infect. Dis.

126

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Until recently, West Nile (WN) and Kunjin (KUN) viruses were classified as distinct types in the Flavivirus genus. However, genetic and antigenic studies on isolates of these two viruses indicate that the relationship between them is more complex. To better define this relationship, we performed sequence analyses on 32 isolates of KUN virus and 28 isolates of WN virus from different geographic areas, including a WN isolate from the recent outbreak in New York. Sequence comparisons showed that the KUN virus isolates from Australia were tightly grouped but that the WN virus isolates exhibited substantial divergence and could be differentiated into four distinct groups. KUN virus isolates from Australia were antigenically homologous and distinct from the WN isolates and a Malaysian KUN virus. Our results suggest that KUN and WN viruses comprise a group of closely related viruses that can be differentiated into subgroups on the basis of genetic and antigenic analyses.

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The Relationships between West Nile and Kunjin Viruses

Scherret

Poidinger

Mackenzie

et al. 2001

Emerg. Infect. Dis.

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Loss of Dimerisation of the Nonstructural Protein NS1 of Kunjin Virus Delays Viral Replication and Reduces Virulence in Mice, but Still Allows Secretion of NS1

et al. 1999

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The flavivirus nonstructural protein NS1 has been implicated in viral RNA replication, although its precise role has not been identified. In its native state NS1 exists as a heat labile homodimer that is thought to be required for NS1 function and secretion. However, we have recently identified a cDNA clone of KUN virus (FLSD) that replicates efficiently in cell culture but produces and secretes NS1 in monomeric form. Sequence analysis of the NS1 gene in FLSD revealed a single amino acid substitution (proline(250) to leucine) when compared with the parental KUN virus. When site-directed mutagenesis was used to substitute leucine(250) with proline in FLSD to produce the clone 250pro, dimerisation was fully restored. Furthermore, time course experiments revealed that 250pro replicated in Vero cells significantly faster than FLSD and produced 100-fold more infectious virus early (12-24 h) in infection. This correlated with our observations that FLSD required approximately 10-fold more infectious virus than 250pro to produce disease in weanling mice after intraperitoneal inoculation. Taken together our results indicate that mutation from proline to leucine at residue 250 in KUN NS1 ablates dimer formation, slows virus replication, and reduces virulence in mice.

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