Gerhard Wallner scite author profile

The sequences of the 3'-noncoding regions (NCR) of 12 strains of tick-borne encephalitis (TBE) virus were analyzed and found to vary in length from 350 to approximately 750 nucleotides. The size heterogeneity is restricted to a variable region following the stop codon, whereas the most 3'-terminal 350 nucleotides form a highly conserved core element containing several potentially important sequence motifs and secondary structure elements. A homoadenosine tract previously thought to form the 3'-terminus of some TBE virus strains was now shown to be an internal part of the variable region of certain strains. The strains included in this study were isolated from both humans and ticks over a time period of more than 40 years at various locations throughout the entire endemic area of TBE virus, but there was no correlation between these parameters and the observed lengths of the 3'-NCRs. Identity data calculated from common 3'-NCR sequences and also from short sections of the open reading frame indicated that coding and noncoding sequences were linked during evolution, but the lengths of the 3'-NCRs were independent of these relationships. These observations together with detailed analyses and alignments of the sequences suggest that the variable region was originally acquired through duplication and recombination events, but--much more recently during evolution--various portions of this region were lost again, resulting in the now observed heterogeneous 3'-NCRs.

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Characterization and complete genome sequences of high- and low-virulence variants of tick-borne encephalitis virus

Wallner

Mandl²,

Ecker³

et al. 1996

Journal of General Virology

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The entire genomic sequences of two strains (Hypr and 263) of the flavivirus tick-borne encephalitis (TBE) virus differing in virulence from the prototypic strain Neudoerfl were determined. Strain Hypr is a human isolate of TBE virus with a high laboratory passage history which exhibits a significantly higher neuroinvasiveness in mice compared to the prototype strain. Strain 263 is a low-passage tick-isolate with a temperature-sensitive and attenuated phenotype. Except for the heterogeneous 3' non-coding regions strains Hypr and 263 share, respectively, 97.2 % and 97-6% nucleotide sequence identity with strain Neudoerfl, and differ by a total of 42 and 36 amino acids from the prototypic strain. Of these, only 12 amino acids for each of the two strains represent non-conservative differences unique to an individual strain and some of these are located at positions highly conserved among flaviviruses. Based on these observations, the potential biological significance of particular sequence differences is discussed in the context of the current knowledge about molecular determinants of flavivirus virulence.

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Sequence of the genes encoding the structural proteins of the low-virulence tick-borne flaviviruses Langat TP21 and Yelantsev

et al. 1991

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Gerhard Wallner

The Flavivirus 3′-Noncoding Region: Extensive Size Heterogeneity Independent of Evolutionary Relationships among Strains of Tick-Borne Encephalitis Virus

Characterization and complete genome sequences of high- and low-virulence variants of tick-borne encephalitis virus

Sequence of the genes encoding the structural proteins of the low-virulence tick-borne flaviviruses Langat TP21 and Yelantsev

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