Genome-wide profiling of tRNA modifications by Induro-tRNAseq reveals coordinated changes

Yuko Nakano; Howard Gamper; Henri McGuigan; Sunita Maharjan; Jiatong Li; Zhiyi Sun; Erbay Yigit; Sebastian Grünberg; Keerthana Krishnan; Nan Sheng Li; Joseph A. Piccirilli; Ralph Kleiner; Nicole Nichols; Brian D. Gregory; Ya Ming Hou

doi:10.1038/s41467-025-56348-1

Genome-wide profiling of tRNA modifications by Induro-tRNAseq reveals coordinated changes

Yuko Nakano, Howard Gamper, Henri McGuigan, Sunita Maharjan, Jiatong Li, Zhiyi Sun, Erbay Yigit, Sebastian Grünberg, Keerthana Krishnan, Nan Sheng Li, Joseph A. Piccirilli, Ralph Kleiner, Nicole Nichols, Brian D. Gregory, Ya Ming Hou

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Abstract

While all native tRNAs undergo extensive post-transcriptional modifications as a mechanism to regulate gene expression, mapping these modifications remains challenging. The critical barrier is the difficulty of readthrough of modifications by reverse transcriptases (RTs). Here we use Induro—a new group-II intron-encoded RT—to map and quantify genome-wide tRNA modifications in Induro-tRNAseq. We show that Induro progressively increases readthrough over time by selectively overcoming RT stops without altering the misincorporation frequency. In a parallel analysis of Induro vs. a related RT, we provide comparative datasets to facilitate the prediction of each modification. We assess tRNA modifications across five human cell lines and three mouse tissues and show that, while the landscape of modifications is highly variable throughout the tRNA sequence framework, it is stabilized for modifications that are required for reading of the genetic code. The coordinated changes have fundamental importance for development of tRNA modifications in protein homeostasis.

Original language	English (US)
Article number	1047
Journal	Nature communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-56348-1
State	Published - Dec 2025

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Nakano, Y., Gamper, H., McGuigan, H., Maharjan, S., Li, J., Sun, Z., Yigit, E., Grünberg, S., Krishnan, K., Li, N. S., Piccirilli, J. A., Kleiner, R., Nichols, N., Gregory, B. D., & Hou, Y. M. (2025). Genome-wide profiling of tRNA modifications by Induro-tRNAseq reveals coordinated changes. Nature communications, 16(1), Article 1047. https://doi.org/10.1038/s41467-025-56348-1

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abstract = "While all native tRNAs undergo extensive post-transcriptional modifications as a mechanism to regulate gene expression, mapping these modifications remains challenging. The critical barrier is the difficulty of readthrough of modifications by reverse transcriptases (RTs). Here we use Induro—a new group-II intron-encoded RT—to map and quantify genome-wide tRNA modifications in Induro-tRNAseq. We show that Induro progressively increases readthrough over time by selectively overcoming RT stops without altering the misincorporation frequency. In a parallel analysis of Induro vs. a related RT, we provide comparative datasets to facilitate the prediction of each modification. We assess tRNA modifications across five human cell lines and three mouse tissues and show that, while the landscape of modifications is highly variable throughout the tRNA sequence framework, it is stabilized for modifications that are required for reading of the genetic code. The coordinated changes have fundamental importance for development of tRNA modifications in protein homeostasis.",

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AU - Nakano, Yuko

AU - Gamper, Howard

AU - McGuigan, Henri

AU - Maharjan, Sunita

AU - Li, Jiatong

AU - Sun, Zhiyi

AU - Yigit, Erbay

AU - Grünberg, Sebastian

AU - Krishnan, Keerthana

AU - Li, Nan Sheng

AU - Piccirilli, Joseph A.

AU - Kleiner, Ralph

AU - Nichols, Nicole

AU - Gregory, Brian D.

AU - Hou, Ya Ming

PY - 2025/12

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N2 - While all native tRNAs undergo extensive post-transcriptional modifications as a mechanism to regulate gene expression, mapping these modifications remains challenging. The critical barrier is the difficulty of readthrough of modifications by reverse transcriptases (RTs). Here we use Induro—a new group-II intron-encoded RT—to map and quantify genome-wide tRNA modifications in Induro-tRNAseq. We show that Induro progressively increases readthrough over time by selectively overcoming RT stops without altering the misincorporation frequency. In a parallel analysis of Induro vs. a related RT, we provide comparative datasets to facilitate the prediction of each modification. We assess tRNA modifications across five human cell lines and three mouse tissues and show that, while the landscape of modifications is highly variable throughout the tRNA sequence framework, it is stabilized for modifications that are required for reading of the genetic code. The coordinated changes have fundamental importance for development of tRNA modifications in protein homeostasis.

AB - While all native tRNAs undergo extensive post-transcriptional modifications as a mechanism to regulate gene expression, mapping these modifications remains challenging. The critical barrier is the difficulty of readthrough of modifications by reverse transcriptases (RTs). Here we use Induro—a new group-II intron-encoded RT—to map and quantify genome-wide tRNA modifications in Induro-tRNAseq. We show that Induro progressively increases readthrough over time by selectively overcoming RT stops without altering the misincorporation frequency. In a parallel analysis of Induro vs. a related RT, we provide comparative datasets to facilitate the prediction of each modification. We assess tRNA modifications across five human cell lines and three mouse tissues and show that, while the landscape of modifications is highly variable throughout the tRNA sequence framework, it is stabilized for modifications that are required for reading of the genetic code. The coordinated changes have fundamental importance for development of tRNA modifications in protein homeostasis.

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Genome-wide profiling of tRNA modifications by Induro-tRNAseq reveals coordinated changes

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