scholarly journals Improved TGIRT-seq methods for comprehensive transcriptome profiling with decreased adapter dimer formation and bias correction

2018 ◽  
Author(s):  
Hengyi Xu ◽  
Jun Yao ◽  
Douglas C. Wu ◽  
Alan M. Lambowitz
Keyword(s):  
Rna Structure ◽  
Transcriptome Profiling ◽  
Rna Seq ◽  
Structure Mapping ◽  
Dimer Formation ◽  
Biochemical Basis ◽  
Reverse Transcriptases ◽  
Small Ncrnas ◽  
Rna Structure Mapping ◽  
Insight Into

ABSTRACTThermostable group II intron reverse transcriptases (TGIRTs) with high fidelity and processivity have been used for a variety of RNA sequencing (RNA-seq) applications, including comprehensive profiling of whole-cell, exosomal, and human plasma RNAs; quantitative tRNA-seq based on the ability of TGIRT enzymes to give full-length reads of tRNAs and other structured small ncRNAs; high-throughput mapping of post-transcriptional modifications; and RNA structure mapping. Here, we improved TGIRT-seq methods for comprehensive transcriptome profiling by (i) rationally designing RNA-seq adapters that minimize adapter dimer formation, and (ii) developing biochemical and computational methods that remediate 5’- and 3’-end biases. These improvements, some of which may be applicable to other RNA-seq methods, increase the efficiency of TGIRT-seq library construction and improve coverage of very small RNAs, such as miRNAs. Our findings provide insight into the biochemical basis of 5’- and 3’-end biases in RNA-seq and suggest general approaches for remediating biases and decreasing adapter dimer formation.

scholarly journals Evaluation of the information content of RNA structure mapping data for secondary structure prediction

RNA ◽  
2010 ◽  
Vol 16 (6) ◽  
pp. 1108-1117 ◽  
Author(s):  
S. Quarrier ◽  
J. S. Martin ◽  
L. Davis-Neulander ◽  
A. Beauregard ◽  
A. Laederach
Keyword(s):  
Secondary Structure ◽  
Information Content ◽  
Rna Structure ◽  
Structure Prediction ◽  
Secondary Structure Prediction ◽  
Structure Mapping ◽  
Mapping Data ◽  
Rna Structure Mapping

scholarly journals Transcriptome Profiling Analyses in Psoriasis: A Dynamic Contribution of Keratinocytes to the Pathogenesis

Genes ◽  
2020 ◽  
Vol 11 (10) ◽  
pp. 1155 ◽  
Author(s):  
Geneviève Rioux ◽  
Zainab Ridha ◽  
Mélissa Simard ◽  
Florence Turgeon ◽  
Sylvain L. Guérin ◽  
...  
Keyword(s):  
Disease Onset ◽  
Transcriptome Profiling ◽  
Relevant Information ◽  
Genomic Alteration ◽  
Psoriatic Skin ◽  
Rna Seq ◽  
Altered Expression ◽  
Immune Mediated ◽  
New Biomarkers ◽  
Insight Into

Psoriasis is an immune-mediated inflammatory skin disease with a complex etiology involving environmental and genetic factors. A better insight into related genomic alteration helps design precise therapies leading to better treatment outcome. Gene expression in psoriasis can provide relevant information about the altered expression of mRNA transcripts, thus giving new insights into the disease onset. Techniques for transcriptome analyses, such as microarray and RNA sequencing (RNA-seq), are relevant tools for the discovery of new biomarkers as well as new therapeutic targets. This review summarizes the findings related to the contribution of keratinocytes in the pathogenesis of psoriasis by an in-depth review of studies that have examined psoriatic transcriptomes in the past years. It also provides valuable information on reconstructed 3D psoriatic skin models using cells isolated from psoriatic patients for transcriptomic studies.

scholarly journals An RNA Mapping DataBase for curating RNA structure mapping experiments

2012 ◽  
Vol 28 (22) ◽  
pp. 3006-3008 ◽  
Author(s):  
Pablo Cordero ◽  
Julius B. Lucks ◽  
Rhiju Das
Keyword(s):  
Rna Structure ◽  
Structure Mapping ◽  
Rna Mapping ◽  
Rna Structure Mapping

scholarly journals Rational experiment design for sequencing-based RNA structure mapping

RNA ◽  
2014 ◽  
Vol 20 (12) ◽  
pp. 1864-1877 ◽  
Author(s):  
Sharon Aviran ◽  
Lior Pachter
Keyword(s):  
Rna Structure ◽  
Experiment Design ◽  
Structure Mapping ◽  
Rna Structure Mapping

scholarly journals Keth-seq for transcriptome-wide RNA structure mapping

2020 ◽  
Vol 16 (5) ◽  
pp. 489-492 ◽  
Author(s):  
Xiaocheng Weng ◽  
Jing Gong ◽  
Yi Chen ◽  
Tong Wu ◽  
Fang Wang ◽  
...  
Keyword(s):  
Rna Structure ◽  
Structure Mapping ◽  
Rna Structure Mapping

scholarly journals Anomalous reverse transcription through chemical modifications in polyadenosine stretches

2020 ◽  
Author(s):  
Wipapat Kladwang ◽  
Ved V. Topkar ◽  
Bei Liu ◽  
Tracy L. Hodges ◽  
Sarah C. Keane ◽  
...  
Keyword(s):  
Reverse Transcriptase ◽  
Reverse Transcription ◽  
Rna Structure ◽  
Dimethyl Sulfate ◽  
Resonance Spectroscopy ◽  
Structure Mapping ◽  
Chemical Modifications ◽  
Unusual Structure ◽  
Reverse Transcriptases ◽  
Chemically Modified

AbstractThermostable reverse transcriptases are workhorse enzymes underlying nearly all modern techniques for RNA structure mapping and for transcriptome-wide discovery of RNA chemical modifications. Despite their wide use, these enzymes’ behaviors at chemical modified nucleotides remain poorly understood. Wellington-Oguri et al. recently reported an apparent loss of chemical modification within putatively unstructured polyadenosine stretches modified by dimethyl sulfate or 2’ hydroxyl acylation, as probed by reverse transcription. Here, re-analysis of these and other publicly available data, capillary electrophoresis experiments on chemically modified RNAs, and nuclear magnetic resonance spectroscopy on A12 and variants show that this effect is unlikely to arise from an unusual structure of polyadenosine. Instead, tests of different reverse transcriptases on chemically modified RNAs and molecules synthesized with single 1-methyladenosines implicate a previously uncharacterized reverse transcriptase behavior: near-quantitative bypass through chemical modifications within polyadenosine stretches. All tested natural and engineered reverse transcriptases (MMLV; SuperScript II, III, and IV; TGIRT-III; and MarathonRT) exhibit this anomalous bypass behavior. Accurate DMS-guided structure modeling of the polyadenylated HIV-1 3’ untranslated region RNA requires taking into account this anomaly. Our results suggest that poly(rA-dT) hybrid duplexes can trigger unexpectedly effective reverse transcriptase bypass and that chemical modifications in poly(A) mRNA tails may be generally undercounted.

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