SLAM-seq reveals independent contributions of RNA processing and stability to gene expression in African trypanosomes

Vanessa Luzak; Esteban Osses; Anna Danese; Christoff Odendaal; Raúl O. Cosentino; Stefan H. Stricker; Jurgen R. Haanstra; Florian Erhard; T. Nicolai Siegel

doi:10.1093/nar/gkae1203

SLAM-seq reveals independent contributions of RNA processing and stability to gene expression in African trypanosomes

Vanessa Luzak, Esteban Osses, Anna Danese, Christoff Odendaal, Raúl O. Cosentino, Stefan H. Stricker, Jurgen R. Haanstra, Florian Erhard, T. Nicolai Siegel^*

^*Corresponding author for this work

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

Gene expression is a multi-step process that converts DNA-encoded information into proteins, involving RNA transcription, maturation, degradation, and translation. While transcriptional control is a major regulator of protein levels, the role of post-transcriptional processes such as RNA processing and degradation is less well understood due to the challenge of measuring their contributions individually. To address this challenge, we investigated the control of gene expression in Trypanosoma brucei, a unicellular parasite assumed to lack transcriptional control. Instead, mRNA levels in T. brucei are controlled by post-transcriptional processes, which enabled us to disentangle the contribution of both processes to total mRNA levels. In this study, we developed an efficient metabolic RNA labeling approach and combined ultra-short metabolic labeling with transient transcriptome sequencing (TT-seq) to confirm the long-standing assumption that RNA polymerase II transcription is unregulated in T. brucei. In addition, we established thiol (SH)-linked alkylation for metabolic sequencing of RNA (SLAM-seq) to globally quantify RNA processing rates and half-lives. Our data, combined with scRNA-seq data, indicate that RNA processing and stability independently affect total mRNA levels and contribute to the variability seen between individual cells in African trypanosomes.

Original language	English
Article number	gkae1203
Pages (from-to)	1-16
Number of pages	16
Journal	Nucleic acids research
Volume	53
Issue number	3
Early online date	14 Dec 2024
DOIs	https://doi.org/10.1093/nar/gkae1203
Publication status	Published - 10 Feb 2025

Bibliographical note

Publisher Copyright:
© The Author(s) 2024. Published by Oxford University Press on behalf of Nucleic Acids Research.

Funding

We thank all members of the Siegel, Ladurner, Meissner and Boshart laboratories for valuable discussions, T. Straub (Bioinformatics Core Facility, BMC) for providing server space, and the Core Unit LAFUGA at the Gene Center Munich for next-generation sequencing. Furthermore, we thank Zhibek Keneskhanova for sharing scRNA-seq data prepublication; Irina Shcherbakova and Gunnar Schotta for providing the plasmids for RNA spike-in preparation and Christine Clayton for valuable discussions. The graphical abstract was generated using BioRender. German Research Foundation [SI 1610/3-1 to T.N.S., STR 1385/5-1 to S.H.S., ER 927/2-1 to F.E., 213249687\u2014SFB 1064 to T.N.S.]; Center for Integrative Protein Science (CIPSM) (to T.N.S.); an ERC-StG and ERC-CoG [3D_Tryps 715466 and SwitchDecoding 101044320 to T.N.S.]; a PhD fellowship from the German Academic Scholarship Foundation (to V.L.). German Research Foundation [SI 1610/3-1 to T.N.S., STR 1385/5-1 to S.H.S., ER 927/2-1 to F.E., 213249687\u2014SFB 1064 to T.N.S.]; Center for Integrative Protein Science (CIPSM) (to T.N.S.); an ERC-StG and ERC-CoG [3D_Tryps 715466 and SwitchDecoding 101044320 to T.N.S.]; a PhD fellowship from the German Academic Scholarship Foundation (to V.L.).

Funders	Funder number
German Academic Scholarship Foundation
ERC-StG
CIPSM
Center for Integrative Protein Science
ERC-Cog	101044320, 715466
Deutsche Forschungsgemeinschaft	SI 1610/3-1, 213249687—SFB 1064, STR 1385/5-1, ER 927/2-1

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title = "SLAM-seq reveals independent contributions of RNA processing and stability to gene expression in African trypanosomes",

abstract = "Gene expression is a multi-step process that converts DNA-encoded information into proteins, involving RNA transcription, maturation, degradation, and translation. While transcriptional control is a major regulator of protein levels, the role of post-transcriptional processes such as RNA processing and degradation is less well understood due to the challenge of measuring their contributions individually. To address this challenge, we investigated the control of gene expression in Trypanosoma brucei, a unicellular parasite assumed to lack transcriptional control. Instead, mRNA levels in T. brucei are controlled by post-transcriptional processes, which enabled us to disentangle the contribution of both processes to total mRNA levels. In this study, we developed an efficient metabolic RNA labeling approach and combined ultra-short metabolic labeling with transient transcriptome sequencing (TT-seq) to confirm the long-standing assumption that RNA polymerase II transcription is unregulated in T. brucei. In addition, we established thiol (SH)-linked alkylation for metabolic sequencing of RNA (SLAM-seq) to globally quantify RNA processing rates and half-lives. Our data, combined with scRNA-seq data, indicate that RNA processing and stability independently affect total mRNA levels and contribute to the variability seen between individual cells in African trypanosomes.",

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AU - Cosentino, Raúl O.

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AU - Haanstra, Jurgen R.

AU - Erhard, Florian

AU - Siegel, T. Nicolai

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SLAM-seq reveals independent contributions of RNA processing and stability to gene expression in African trypanosomes

Abstract

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