Direct tracking of reverse-Transcriptase speed and template sensitivity: Implications for sequencing and analysis of long RNA molecules

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Abstract

Although reverse-Transcriptase (RT) enzymes are critical reagents for research and biotechnology, their mechanical properties are not well understood. In particular, we know little about their relative speed and response to structural obstacles in the template. Commercial retroviral RTs stop at many positions along mixed sequence templates, resulting in truncated cDNA products that complicate downstream analysis. By contrast, group II intron-encoded RTs appear to copy long RNAs with high processivity and minimal stops. However, their speed, consistency and pausing behavior have not been explored. Here, we analyze RT velocity as the enzyme moves through heterogeneous sequences and structures that are embedded within a long noncoding RNA transcript. We observe that heterogeneities in the template are highly disruptive to primer extension by retroviral RTs. However, sequence composition and template structure have negligible effects on behavior of group II intron RTs, such as MarathonRT (MRT). Indeed, MRT copies long RNAs in a single pass, and displays synchronized primer extension at a constant speed of 25 nt/sec. In addition, it passes through stable RNA structural motifs without perturbation of velocity. Taken together, the results demonstrate that consistent, robust translocative behavior is a hallmark of group II intron-encoded RTs, some of which operate at high velocity.

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Guo, L. T., Olson, S., Patel, S., Graveley, B. R., & Pyle, A. M. (2022). Direct tracking of reverse-Transcriptase speed and template sensitivity: Implications for sequencing and analysis of long RNA molecules. Nucleic Acids Research, 50(12), 6980–6989. https://doi.org/10.1093/nar/gkac518

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