Computational identification of protein binding sites on RNAs using high-throughput RNA structure-probing data

Xihao Hu; Thomas K.F. Wong; Zhi John Lu; Ting Fung Chan; Terrence Chi Kong Lau; Siu Ming Yiu; Kevin Y. Yip

doi:10.1093/bioinformatics/btt757

Computational identification of protein binding sites on RNAs using high-throughput RNA structure-probing data

Xihao Hu, Thomas K.F. Wong, Zhi John Lu, Ting Fung Chan, Terrence Chi Kong Lau, Siu Ming Yiu, Kevin Y. Yip^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

Motivation: High-throughput sequencing has been used to probe RNA structures, by treating RNAs with reagents that preferentially cleave or mark certain nucleotides according to their local structures, followed by sequencing of the resulting fragments. The data produced contain valuable information for studying various RNA properties.Results: We developed methods for statistically modeling these structure-probing data and extracting structural features from them. We show that the extracted features can be used to predict RNA 'zipcodes' in yeast, regions bound by the She complex in asymmetric localization. The prediction accuracy was better than using raw RNA probing data or sequence features. We further demonstrate the use of the extracted features in identifying binding sites of RNA binding proteins from whole-transcriptome global photoactivatable-ribonucleoside-enhanced cross-linking and immunopurification (gPAR-CLIP) data.

Original language	English
Pages (from-to)	1049-1055
Number of pages	7
Journal	Bioinformatics
Volume	30
Issue number	8
DOIs	https://doi.org/10.1093/bioinformatics/btt757
Publication status	Published - 2014

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title = "Computational identification of protein binding sites on RNAs using high-throughput RNA structure-probing data",

abstract = "Motivation: High-throughput sequencing has been used to probe RNA structures, by treating RNAs with reagents that preferentially cleave or mark certain nucleotides according to their local structures, followed by sequencing of the resulting fragments. The data produced contain valuable information for studying various RNA properties.Results: We developed methods for statistically modeling these structure-probing data and extracting structural features from them. We show that the extracted features can be used to predict RNA 'zipcodes' in yeast, regions bound by the She complex in asymmetric localization. The prediction accuracy was better than using raw RNA probing data or sequence features. We further demonstrate the use of the extracted features in identifying binding sites of RNA binding proteins from whole-transcriptome global photoactivatable-ribonucleoside-enhanced cross-linking and immunopurification (gPAR-CLIP) data.",

author = "Xihao Hu and Wong, {Thomas K.F.} and Lu, {Zhi John} and Chan, {Ting Fung} and Lau, {Terrence Chi Kong} and Yiu, {Siu Ming} and Yip, {Kevin Y.}",

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T1 - Computational identification of protein binding sites on RNAs using high-throughput RNA structure-probing data

AU - Hu, Xihao

AU - Wong, Thomas K.F.

AU - Lu, Zhi John

AU - Chan, Ting Fung

AU - Lau, Terrence Chi Kong

AU - Yiu, Siu Ming

AU - Yip, Kevin Y.

PY - 2014

Y1 - 2014

N2 - Motivation: High-throughput sequencing has been used to probe RNA structures, by treating RNAs with reagents that preferentially cleave or mark certain nucleotides according to their local structures, followed by sequencing of the resulting fragments. The data produced contain valuable information for studying various RNA properties.Results: We developed methods for statistically modeling these structure-probing data and extracting structural features from them. We show that the extracted features can be used to predict RNA 'zipcodes' in yeast, regions bound by the She complex in asymmetric localization. The prediction accuracy was better than using raw RNA probing data or sequence features. We further demonstrate the use of the extracted features in identifying binding sites of RNA binding proteins from whole-transcriptome global photoactivatable-ribonucleoside-enhanced cross-linking and immunopurification (gPAR-CLIP) data.

AB - Motivation: High-throughput sequencing has been used to probe RNA structures, by treating RNAs with reagents that preferentially cleave or mark certain nucleotides according to their local structures, followed by sequencing of the resulting fragments. The data produced contain valuable information for studying various RNA properties.Results: We developed methods for statistically modeling these structure-probing data and extracting structural features from them. We show that the extracted features can be used to predict RNA 'zipcodes' in yeast, regions bound by the She complex in asymmetric localization. The prediction accuracy was better than using raw RNA probing data or sequence features. We further demonstrate the use of the extracted features in identifying binding sites of RNA binding proteins from whole-transcriptome global photoactivatable-ribonucleoside-enhanced cross-linking and immunopurification (gPAR-CLIP) data.

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DO - 10.1093/bioinformatics/btt757

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SN - 1367-4803

VL - 30

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JO - Bioinformatics

JF - Bioinformatics

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Computational identification of protein binding sites on RNAs using high-throughput RNA structure-probing data

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