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| Status |
Public on Mar 05, 2021 |
| Title |
Learning cis-regulatory principles of ADAR-based RNA editing from CRISPR-mediated mutagenesis |
| Organism |
Homo sapiens |
| Experiment type |
Other
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| Summary |
Adenosine-to-inosine (A-to-I) RNA editing catalyzed by ADAR enzymes occurs in double-stranded RNAs. Despite a compelling need towards predictive understanding of natural and engineered editing events, how the RNA sequence and structure determine the editing efficiency and specificity (i.e., cis-regulation) is poorly understood. We apply a CRISPR/Cas9-mediated saturation mutagenesis approach to generate libraries of mutations near three natural editing substrates at their endogenous genomic loci. We use machine learning to integrate diverse RNA sequence and structure features to model editing levels measured by deep sequencing. We confirm known features and identify new features important for RNA editing. Training and testing XGBoost algorithm within the same substrate yield models that explain 68 to 86 percent of substrate-specific variation in editing levels. However, the models do not generalize across substrates, suggesting complex and context-dependent regulation patterns. Our integrative approach can be applied to larger scale experiments towards deciphering the RNA editing code.
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| Overall design |
To study the effects of mutation on the RNA structure, we used chemical probing of in intro transcribed RNA to infer secondary structure of RNA libraries. Each RNA is barcoded with unique sequences. Libraries of RNA with designed mutations were made by in vitro transcribed using T7 RNA polymerase and DNA templates. RNA were purified by AMpure RNA beads before chemical treatmentment. RT-PCR reaction are followed to construct sequencing library to count chemically induced mutation rate (called reactivity) to infer the secodnary structure of RNA.
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| Contributor(s) |
Xin L, Jin Billy L |
| Citation missing |
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| Submission date |
Mar 04, 2021 |
| Last update date |
Mar 05, 2021 |
| Contact name |
Xin Liu |
| E-mail(s) |
[email protected]
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| Organization name |
Stanford University
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| Department |
Genetics
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| Street address |
300 Pasteur Drive
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| City |
Stanford |
| ZIP/Postal code |
94305 |
| Country |
USA |
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| Platforms (1) |
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| Samples (6)
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| Relations |
| BioProject |
PRJNA706647 |
| SRA |
SRP309271 |
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