Baum, D. ., Sinha, J. ., & Testa, S. . (2005). Molecular recognition in a trans excision-splicing ribozyme: non-Watson-Crick base pairs at the 5’ splice site and omegaG at the 3’ splice site can play a role in determining the binding register of reaction substrates. Biochemistry, 44(3), 1067-77. https://doi.org/10.1021/bi0482304 (Original work published 2005)
SM Testa
First name:
SM
Last name:
Testa
Bell, M. ., Sinha, J. ., Johnson, A. ., & Testa, S. . (2004). Enhancing the second step of the trans excision-splicing reaction of a group I ribozyme by exploiting P9.0 and P10 for intermolecular recognition. Biochemistry, 43(14), 4323-31. https://doi.org/10.1021/bi035874n (Original work published 2004)
Alexander, R. ., Johnson, A. ., Thorpe, J. ., Gevedon, T. ., & Testa, S. . (2003). Canonical nucleosides can be utilized by T4 DNA ligase as universal template bases at ligation junctions. Nucleic Acids Research, 31(12), 3208-16. https://doi.org/10.1093/nar/gkg415 (Original work published 2003)
Johnson, A. ., Baum, D. ., Tye, J. ., Bell, M. ., & Testa, S. . (2003). Molecular recognition properties of IGS-mediated reactions catalyzed by a Pneumocystis carinii group I intron. Nucleic Acids Research, 31(7), 1921-34. https://doi.org/10.1093/nar/gkg280 (Original work published 2003)
Bell, M. ., Johnson, A. ., & Testa, S. . (2002). Ribozyme-catalyzed excision of targeted sequences from within RNAs. Biochemistry, 41(51), 15327-33. https://doi.org/10.1021/bi0267386 (Original work published 2002)