Author
Listed:
- Yok Hian Chionh
(Infectious Disease Interdisciplinary Research Group, Singapore-MIT Alliance for Research and Technology
Yong Loo Lin School of Medicine, 28 Medical Drive, Centre for Life Sciences, Level 3, National University of Singapore)
- Megan McBee
(Infectious Disease Interdisciplinary Research Group, Singapore-MIT Alliance for Research and Technology
Massachusetts Institute of Technology
Present address: Tychan Private Ltd, 80 Robinson Road, #17-02 Singapore 068898, Singapore)
- I. Ramesh Babu
(Massachusetts Institute of Technology
Present address: Alnylam Pharmaceuticals Ltd, Cambridge, Massachusetts 02142, USA)
- Fabian Hia
(Infectious Disease Interdisciplinary Research Group, Singapore-MIT Alliance for Research and Technology)
- Wenwei Lin
(Yong Loo Lin School of Medicine, 28 Medical Drive, Centre for Life Sciences, Level 3, National University of Singapore
Present address: SPRINT-TB Programme, Yong Loo Lin School of Medicine, 14 Medical Drive, MD6 #15-02T, National University of Singapore, Singapore 117599, Singapore)
- Wei Zhao
(Infectious Disease Interdisciplinary Research Group, Singapore-MIT Alliance for Research and Technology)
- Jianshu Cao
(Infectious Disease Interdisciplinary Research Group, Singapore-MIT Alliance for Research and Technology
Massachusetts Institute of Technology)
- Agnieszka Dziergowska
(Institute of Organic Chemistry, Lodz University of Technology)
- Andrzej Malkiewicz
(Institute of Organic Chemistry, Lodz University of Technology)
- Thomas J. Begley
(College of Nanoscale Science and Engineering, State University of New York)
- Sylvie Alonso
(Infectious Disease Interdisciplinary Research Group, Singapore-MIT Alliance for Research and Technology
Yong Loo Lin School of Medicine, 28 Medical Drive, Centre for Life Sciences, Level 3, National University of Singapore)
- Peter C. Dedon
(Infectious Disease Interdisciplinary Research Group, Singapore-MIT Alliance for Research and Technology
Massachusetts Institute of Technology
Center for Environmental Health Sciences, Massachusetts Institute of Technology)
Abstract
Microbial pathogens adapt to the stress of infection by regulating transcription, translation and protein modification. We report that changes in gene expression in hypoxia-induced non-replicating persistence in mycobacteria—which models tuberculous granulomas—are partly determined by a mechanism of tRNA reprogramming and codon-biased translation. Mycobacterium bovis BCG responded to each stage of hypoxia and aerobic resuscitation by uniquely reprogramming 40 modified ribonucleosides in tRNA, which correlate with selective translation of mRNAs from families of codon-biased persistence genes. For example, early hypoxia increases wobble cmo5U in tRNAThr(UGU), which parallels translation of transcripts enriched in its cognate codon, ACG, including the DosR master regulator of hypoxic bacteriostasis. Codon re-engineering of dosR exaggerates hypoxia-induced changes in codon-biased DosR translation, with altered dosR expression revealing unanticipated effects on bacterial survival during hypoxia. These results reveal a coordinated system of tRNA modifications and translation of codon-biased transcripts that enhance expression of stress response proteins in mycobacteria.
Suggested Citation
Yok Hian Chionh & Megan McBee & I. Ramesh Babu & Fabian Hia & Wenwei Lin & Wei Zhao & Jianshu Cao & Agnieszka Dziergowska & Andrzej Malkiewicz & Thomas J. Begley & Sylvie Alonso & Peter C. Dedon, 2016.
"tRNA-mediated codon-biased translation in mycobacterial hypoxic persistence,"
Nature Communications, Nature, vol. 7(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms13302
DOI: 10.1038/ncomms13302
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Citations
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Cited by:
- Wei Lin Lee & Ameya Sinha & Ling Ning Lam & Hooi Linn Loo & Jiaqi Liang & Peiying Ho & Liang Cui & Cheryl Siew Choo Chan & Thomas Begley & Kimberly Ann Kline & Peter Dedon, 2023.
"An RNA modification enzyme directly senses reactive oxygen species for translational regulation in Enterococcus faecalis,"
Nature Communications, Nature, vol. 14(1), pages 1-12, December.
- Jennifer Jungfleisch & René Böttcher & Marc Talló-Parra & Gemma Pérez-Vilaró & Andres Merits & Eva Maria Novoa & Juana Díez, 2022.
"CHIKV infection reprograms codon optimality to favor viral RNA translation by altering the tRNA epitranscriptome,"
Nature Communications, Nature, vol. 13(1), pages 1-12, December.
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