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Outputs (13)

In vitro transcription of Tomato spotted wilt virus is independent of translation (2004)
Journal Article
van Knippenberg, I., Goldbach, R., & Kormelink, R. (2004). In vitro transcription of Tomato spotted wilt virus is independent of translation. Journal of General Virology, 85(5), https://doi.org/10.1099/vir.0.19767-0

Ongoing transcription in vitro of Tomato spotted wilt virus (TSWV) has previously been demonstrated to require the presence of reticulocyte lysate. This dependence was further investigated by testing the occurrence of transcription in the presence of... Read More about In vitro transcription of Tomato spotted wilt virus is independent of translation.

Purified tomato spotted wilt virus particles support both genome replication and transcription in vitro (2002)
Journal Article
van Knippenberg, I., Goldbach, R., & Kormelink, R. (2002). Purified tomato spotted wilt virus particles support both genome replication and transcription in vitro. Virology, 303(2), 278-286. https://doi.org/10.1006/viro.2002.1632

Purified Tomato spotted wilt virus particles were shown to support either genome replication or transcription in vitro, depending on the conditions chosen. Transcriptional activity was observed only upon addition of rabbit reticulocyte lysate, indica... Read More about Purified tomato spotted wilt virus particles support both genome replication and transcription in vitro.

Characterization of the Escherichia coli damage-independent UvrBC endonuclease activity (1998)
Journal Article
Bazuine, M., van Knippenberg, I., Visse, R., & Goosen, N. (1998). Characterization of the Escherichia coli damage-independent UvrBC endonuclease activity. Journal of Biological Chemistry, 273(52), 34896-34903. https://doi.org/10.1074/jbc.273.52.34896

Incision of damaged DNA templates by UvrBC inEscherichia coli depends on UvrA, which loads UvrB on the site of the damage. A 50-base pair 3′ prenicked DNA substrate containing a cholesterol lesion is incised by UvrABC at two positions 5′ to the lesio... Read More about Characterization of the Escherichia coli damage-independent UvrBC endonuclease activity.