Identification and mapping of post-transcriptional modifications on the HIV-1 antisense transcript Ast in human cells
- Mariana Estevez1,
- Rui Li2,
- Biplab Paul3,
- Kaveh Daneshvar3,
- Alan C. Mullen4,
- Fabio Romerio2,6 and
- Balasubrahmanyam Addepalli5
- 1 Department of Chemistry, University of Cincinnati;
- 2 Department of Molecular and Comparative Pathobiology; Johns Hopkins University School of Medicine;
- 3 Harvard Medical School; Massachusetts General Hospital;
- 4 Massachusetts General Hospital;
- 5 Department of Chemistry; University of Cincinnati
- ↵* Corresponding author; email: fromeri2{at}jhmi.edu
Abstract
The human immunodeficiency virus type 1 (HIV-1) encodes multiple RNA molecules. Transcripts that originate from the proviral 5’ long terminal repeat (LTR) function as messenger RNAs for the expression of 16 different mature viral proteins. In addition, HIV-1 expresses an antisense tran-script (Ast) from the 3’LTR, which has both protein-coding and noncoding properties. While the mechanisms that regulate the coding and noncoding activities of Ast remain unknown, post-transcriptional modifications are known to influence RNA stability, interaction with protein part-ners, and translation capacity. Here we report the nucleoside modification profile of Ast obtained through liquid chromatography coupled with mass spectrometry (LC-MS) analysis. The epitran-scriptome includes a limited set of modified nucleosides but predominantly ribose methylations. A number of these modifications were mapped to specific positions of the sequence through RNA modification mapping procedures. The presence of modifications on Ast is consistent with the RNA-modifying enzymes interacting with Ast. The identification and mapping of Ast post-transcriptional modifications is expected to elucidate the mechanisms through which this versa-tile molecule can carry out diverse activities in different cell compartments. Manipulation of post-transcriptional modifications on the Ast RNA may have therapeutic implications.
Keywords
- Received November 5, 2021.
- Accepted January 29, 2022.
- Published by Cold Spring Harbor Laboratory Press for the RNA Society
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