Post-Transcriptional Gene Regulation
This volume aims to provide the most recent advances in techniques for studying gene expression regulation at the post-transcriptional level. Post-Transcriptional Gene Regulation, Second Edition is organized in six sections describing bioinformatics approaches for studying post-transcriptional regul...
Other Authors: | |
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Format: | eBook |
Language: | English |
Published: |
New York, NY
Springer New York
2016, 2016
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Edition: | 2nd ed. 2016 |
Series: | Methods in Molecular Biology
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Subjects: | |
Online Access: | |
Collection: | Springer eBooks 2005- - Collection details see MPG.ReNa |
Table of Contents:
- Introduction to Bioinformatics Resources for Post-Transcriptional Regulation of Gene Expression
- A Computational Approach for the Discovery of Protein-RNA Networks
- Transcriptional Regulation with CRISPR/Cas9 Effectors in Mammalian Cells
- Studying the Translatome with Polysome Profiling
- Exploring Ribosome Positioning on Translating Transcripts with Ribosome Profiling
- Studying Isoform-Specific Recruitment to Polyribosomes with Frac-Seq
- Use of the Pbutr Reporter System for Scalable Analysis of 3' UTR-Mediated Gene Regulation
- Comprehensive Identification of RNA-Binding Proteins by RNA Interactome Capture
- Identifying RBP Targets with RIP-Seq
- PAR-CLIP: A Method for Transcriptome-Wide Identification of RNA Binding Protein Interaction Sites
- Profiling the Binding Sites of RNA-Binding Proteins with Nucleotide Resolution Using Iclip
- A Pipeline for PAR-CLIP Data Analysis
- Capture and Identification Of Mirna Targets By Biotin Pulldown And RNA-Seq
- Identification of Mirna-Target RNA Interactions Using CLASH
- Genome-Wide Analysis of A-To-I RNA Editing
- Nucleotide-Level Profiling Of M5c RNA Methylation
- Probing N6-Methyladenosine (M6a) RNA Modification in Total RNA with SCARLET
- Genome-Wide Identification of Alternative Polyadenylation Events Using 3’T-Fill
- Genome-Wide Profiling Of Alternative Translation Initiation Sites
- Genome-Wide Study Of Mrna Isoform Half-Lives
- Visualizing Mrna Dynamics in Live Neurons and Brain Tissues
- Single Molecule Live-Cell Visualization of Pre-Mrna Splicing