An ultra low-input method for global RNA structure probing uncovers Regnase-1-mediated regulation in macrophages

Meiling Piao; Pan Li; Xiaomin Zeng; Xi-Wen Wang; Lan Kang; Jinsong Zhang; Yifan Wei; Shaojun Zhang; Lei Tang; Jianghui Zhu; Chun Kit Kwok; Xiaoyu Hu; Qiangfeng Cliff Zhang

doi:10.1016/j.fmre.2021.12.007

An ultra low-input method for global RNA structure probing uncovers Regnase-1-mediated regulation in macrophages

Meiling Piao (Co-first Author)
, Pan Li (Co-first Author)
, Xiaomin Zeng (Co-first Author)
, Xi-Wen Wang (Co-first Author)
, Lan Kang
, Jinsong Zhang
, Yifan Wei
, Shaojun Zhang
, Lei Tang
, Jianghui Zhu
, Chun Kit Kwok
, Xiaoyu Hu^*
, Qiangfeng Cliff Zhang^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

10 Citations (Scopus)

159 Downloads (CityUHK Scholars)

Abstract

To enable diverse functions and precise regulation, an RNA sequence often folds into complex yet distinct structures in different cellular states. Probing RNA in its native environment is essential to uncovering RNA structures of biological contexts. However, current methods generally require large amounts of input RNA and are challenging for physiologically relevant use. Here, we report smartSHAPE, a new RNA structure probing method that requires very low amounts of RNA input due to the largely reduced artefact of probing signals and increased efficiency of library construction. Using smartSHAPE, we showcased the profiling of the RNA structure landscape of mouse intestinal macrophages upon inflammation, and provided evidence that RNA conformational changes regulate immune responses. These results demonstrate that smartSHAPE can greatly expand the scope of RNA structure-based investigations in practical biological systems, and also provide a research paradigm for the study of post-transcriptional regulation.

Original language	English
Pages (from-to)	2-13
Journal	Fundamental Research
Volume	2
Issue number	1
Online published	30 Dec 2021
DOIs	https://doi.org/10.1016/j.fmre.2021.12.007
Publication status	Published - Jan 2022

Research Keywords

Low-input
Macrophage
RNA structure
RNA structure element
RNA structure probing method
RNA structurome

Publisher's Copyright Statement

This full text is made available under CC-BY-NC-ND 4.0. https://creativecommons.org/licenses/by-nc-nd/4.0/

RGC Funding Information

RGC-funded

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10.1016/j.fmre.2021.12.007

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title = "An ultra low-input method for global RNA structure probing uncovers Regnase-1-mediated regulation in macrophages",

abstract = "To enable diverse functions and precise regulation, an RNA sequence often folds into complex yet distinct structures in different cellular states. Probing RNA in its native environment is essential to uncovering RNA structures of biological contexts. However, current methods generally require large amounts of input RNA and are challenging for physiologically relevant use. Here, we report smartSHAPE, a new RNA structure probing method that requires very low amounts of RNA input due to the largely reduced artefact of probing signals and increased efficiency of library construction. Using smartSHAPE, we showcased the profiling of the RNA structure landscape of mouse intestinal macrophages upon inflammation, and provided evidence that RNA conformational changes regulate immune responses. These results demonstrate that smartSHAPE can greatly expand the scope of RNA structure-based investigations in practical biological systems, and also provide a research paradigm for the study of post-transcriptional regulation.",

keywords = "Low-input, Macrophage, RNA structure, RNA structure element, RNA structure probing method, RNA structurome",

author = "Meiling Piao and Pan Li and Xiaomin Zeng and Xi-Wen Wang and Lan Kang and Jinsong Zhang and Yifan Wei and Shaojun Zhang and Lei Tang and Jianghui Zhu and Kwok, \{Chun Kit\} and Xiaoyu Hu and Zhang, \{Qiangfeng Cliff\}",

year = "2022",

month = jan,

doi = "10.1016/j.fmre.2021.12.007",

language = "English",

volume = "2",

pages = "2--13",

journal = "Fundamental Research",

issn = "2667-3258",

publisher = "KeAi Communications",

number = "1",

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An ultra low-input method for global RNA structure probing uncovers Regnase-1-mediated regulation in macrophages. / Piao, Meiling (Co-first Author); Li, Pan (Co-first Author); Zeng, Xiaomin (Co-first Author) et al.
In: Fundamental Research, Vol. 2, No. 1, 01.2022, p. 2-13.

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

TY - JOUR

T1 - An ultra low-input method for global RNA structure probing uncovers Regnase-1-mediated regulation in macrophages

AU - Piao, Meiling

AU - Li, Pan

AU - Zeng, Xiaomin

AU - Wang, Xi-Wen

AU - Kang, Lan

AU - Zhang, Jinsong

AU - Wei, Yifan

AU - Zhang, Shaojun

AU - Tang, Lei

AU - Zhu, Jianghui

AU - Kwok, Chun Kit

AU - Hu, Xiaoyu

AU - Zhang, Qiangfeng Cliff

PY - 2022/1

Y1 - 2022/1

N2 - To enable diverse functions and precise regulation, an RNA sequence often folds into complex yet distinct structures in different cellular states. Probing RNA in its native environment is essential to uncovering RNA structures of biological contexts. However, current methods generally require large amounts of input RNA and are challenging for physiologically relevant use. Here, we report smartSHAPE, a new RNA structure probing method that requires very low amounts of RNA input due to the largely reduced artefact of probing signals and increased efficiency of library construction. Using smartSHAPE, we showcased the profiling of the RNA structure landscape of mouse intestinal macrophages upon inflammation, and provided evidence that RNA conformational changes regulate immune responses. These results demonstrate that smartSHAPE can greatly expand the scope of RNA structure-based investigations in practical biological systems, and also provide a research paradigm for the study of post-transcriptional regulation.

AB - To enable diverse functions and precise regulation, an RNA sequence often folds into complex yet distinct structures in different cellular states. Probing RNA in its native environment is essential to uncovering RNA structures of biological contexts. However, current methods generally require large amounts of input RNA and are challenging for physiologically relevant use. Here, we report smartSHAPE, a new RNA structure probing method that requires very low amounts of RNA input due to the largely reduced artefact of probing signals and increased efficiency of library construction. Using smartSHAPE, we showcased the profiling of the RNA structure landscape of mouse intestinal macrophages upon inflammation, and provided evidence that RNA conformational changes regulate immune responses. These results demonstrate that smartSHAPE can greatly expand the scope of RNA structure-based investigations in practical biological systems, and also provide a research paradigm for the study of post-transcriptional regulation.

KW - Low-input

KW - Macrophage

KW - RNA structure

KW - RNA structure element

KW - RNA structure probing method

KW - RNA structurome

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DO - 10.1016/j.fmre.2021.12.007

M3 - RGC 21 - Publication in refereed journal

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SN - 2667-3258

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JO - Fundamental Research

JF - Fundamental Research

IS - 1

ER -

An ultra low-input method for global RNA structure probing uncovers Regnase-1-mediated regulation in macrophages

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Research Keywords

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NSFC: Investigating the Role of Long-noncoding RNA Structures and Interactions in Human Cancer Cells

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An ultra low-input method for global RNA structure probing uncovers Regnase-1-mediated regulation in macrophages

Abstract

Research Keywords

Publisher's Copyright Statement

RGC Funding Information

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NSFC: Investigating the Role of Long-noncoding RNA Structures and Interactions in Human Cancer Cells

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