Tomato spotted wilt virus S-segment mRNAs have overlapping 3'-ends containing a predicted stem-loop structure and conserved sequence motif

van Knippenberg, I.; Goldbach, R.; Kormelink, R.

doi:10.1016/j.virusres.2005.01.012

All Outputs (2)

Tomato spotted wilt virus transcriptase in vitro displays a preference for cap donors with multiple base complementarity to the viral template (2005)
Journal Article
van Knippenberg, I., Lamine, M., Goldbach, R., & Kormelink, R. (2005). Tomato spotted wilt virus transcriptase in vitro displays a preference for cap donors with multiple base complementarity to the viral template. Virology, 335(1), 122-130. https://doi.org/10.1016/j.virol.2005.01.041

Transcription of segmented negative-strand RNA viruses is initiated by cap snatching: a host mRNA is cleaved generally at 10–20 nt from its 5′ capped end and the resulting capped leader used to prime viral transcription. For Tomato spotted wilt virus... Read More about Tomato spotted wilt virus transcriptase in vitro displays a preference for cap donors with multiple base complementarity to the viral template.

Tomato spotted wilt virus S-segment mRNAs have overlapping 3'-ends containing a predicted stem-loop structure and conserved sequence motif (2005)
Journal Article
van Knippenberg, I., Goldbach, R., & Kormelink, R. (2005). Tomato spotted wilt virus S-segment mRNAs have overlapping 3'-ends containing a predicted stem-loop structure and conserved sequence motif. Virus Research, 110(1-2), 125-131. https://doi.org/10.1016/j.virusres.2005.01.012

The Tomato spotted wilt virus ambisense M- and S-RNA segments contain an A/U-rich intergenic region predicted to form a stable hairpin structure. The site of transcription termination of S-segment encoded N and NSs mRNAs synthesised in an in vitro tr... Read More about Tomato spotted wilt virus S-segment mRNAs have overlapping 3'-ends containing a predicted stem-loop structure and conserved sequence motif.