RNA Biology Publications

*Corresponding author(s)

Lyon SE, Chen T-H, Wallace AJ, Adib KL, and Gopalan V*. (2018) An RNase P-based assay for accurate determination of the 5′-deoxy-5′-azidoguanosine-modified fraction of in vitro transcribed RNAs. ChemBioChem, 19: 2353-2359.
Lyon S and Gopalan V*. (2018) A T7 RNA polymerase mutant enhances the yield of 5′-thienoguanosine-initiated RNAs. ChemBioChem, 19: 142-146. (Highlighted on the cover)
Wang Y*°, Qu J°, Ji S, Wallace AJ, Wu J, Li Y, Gopalan V, and Ding B. (2016) A land plant-specific transcription factor directly enhances transcription of a pathogenic noncoding RNA template by DNA-dependent RNA polymerase II. Plant Cell, 28: 1094-1107. [SI] °joint first authors
Gopalan V* and McClain WH*. (2015) RNA: yesterday, today, and tomorrow. RNA, 21: 541-543. (Invited article for a special issue)
Gopalan V*. (2008) Catalytic RNAs in all guises. [Invited review of the book Ribozymes and RNA catalysis, by D Lilley and F Eckstein (Eds.)]. Chemistry World, 5: 64.
Tsai H-Y°, Lai LB°, and Gopalan V*. (2002) A modified pBluescript-based vector for facile cloning and transcription of RNAs. Anal. Biochem., 303: 214-217. °joint first authors
Wu C-W, Eder PS, Gopalan V*, and Behrman EJ*. (2001) Kinetics of coupling reactions that generate monothiophosphate disulfides: implications for modification of RNAs. Bioconjug. Chem., 12: 842-844.
Biswas R, Kühne H, Brudvig GW, and Gopalan V*. (2001) Use of EPR spectroscopy to study macromolecular structure and function. Sci. Prog., 84: 45-68.