A comprehensive overview of lncRNA annotation resources

Xu, Jiu Hua; Bai, Jing; Zhang, Xinxin; Lv, Yanling; Gong, Yuanfeng; Liu, Ling; Zhao, Hongying; Yu, Fulong; Ping, Yanyan; Zhang, Guanxiong; Lan, Yujia; Xiao, Yun; Li, Xia

doi:10.1093/bib/bbw015

Cited by 97 publications

(108 citation statements)

References 63 publications

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“…Using RNA-seq, the Illumina Human BodyMap and Genotype-Tissue Expression Project (GTEx, (30)) has reported a median count of less than 5000 lncRNA genes across a large number of human tissue and cell types (123), often with only a few hundred per tissue-type. The present analysis, which relies on a probe-level signal filter (study specificity), a secondary transcript-level ‘noise’ filter and confirmation that the low-end of the dynamic expression range equates to known low-expressed RNA and proteins (Supplemental data S10 and raw data), demonstrates the advantages of our new approach to customising array processing to tissue/study specific patterns of RNA detection.…”

Section: Discussionmentioning

confidence: 99%

A coding and non-coding transcriptomic perspective on the genomics of human metabolic disease

Timmons

Atherton

Larsson

et al. 2018

Nucleic Acids Research

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Genome-wide association studies (GWAS), relying on hundreds of thousands of individuals, have revealed >200 genomic loci linked to metabolic disease (MD). Loss of insulin sensitivity (IS) is a key component of MD and we hypothesized that discovery of a robust IS transcriptome would help reveal the underlying genomic structure of MD. Using 1,012 human skeletal muscle samples, detailed physiology and a tissue-optimized approach for the quantification of coding (>18,000) and non-coding (>15,000) RNA (ncRNA), we identified 332 fasting IS-related genes (CORE-IS). Over 200 had a proven role in the biochemistry of insulin and/or metabolism or were located at GWAS MD loci. Over 50% of the CORE-IS genes responded to clinical treatment; 16 quantitatively tracking changes in IS across four independent studies (P = 0.0000053: negatively: AGL, G0S2, KPNA2, PGM2, RND3 and TSPAN9 and positively: ALDH6A1, DHTKD1, ECHDC3, MCCC1, OARD1, PCYT2, PRRX1, SGCG, SLC43A1 and SMIM8). A network of ncRNA positively related to IS and interacted with RNA coding for viral response proteins (P < 1 × 10−48), while reduced amino acid catabolic gene expression occurred without a change in expression of oxidative-phosphorylation genes. We illustrate that combining in-depth physiological phenotyping with robust RNA profiling methods, identifies molecular networks which are highly consistent with the genetics and biochemistry of human metabolic disease.

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Section: Discussionmentioning

confidence: 99%

A coding and non-coding transcriptomic perspective on the genomics of human metabolic disease

Timmons

Atherton

Larsson

et al. 2018

Nucleic Acids Research

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“…9 This study represents the first in-depth analysis of lncRNAs in cardiac development in humans. Although this approach naturally represented a snapshot of lncRNA profiles in time, and prevented a thorough analysis of lnRNAs expression at each stage of cardiac development or identification of contributing cell types to the same degree as what can be accomplished in mice, these data provide a unique resource for the future study of lncRNAs that may functionally contribute …”

Section: Circ Cardiovasc Genetmentioning

confidence: 99%

Long Noncoding RNAs in the Heart

Rayner

2016

Circ Cardiovasc Genet

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“…The annotation of more than 300 000 human lncRNAs (hg19) was obtained from LNCat (6), the most comprehensive annotation resources for human lncRNAs. The lncRNA annotation of mouse (mm10) was downloaded from NONCODE (version 2016) (3) and GENCODE (M10) (34), while the lncRNA annotations of rhesus (mac3) and fly (dm6) were downloaded from NONCODE (version 2016).…”

Section: Data Collection and Database Contentmentioning

confidence: 99%

“…Therefore, several databases have been developed to annotate lncRNAs, such as NONCODE (3), LNCipedia (4) and GENCODE (5). The most comprehensive lncRNA database, LNCat, combined 24 lncRNA annotation resources and annotated >300 000 lncRNA transcripts in over 50 tissues and cell lines in the human genome (6). LncRNAs play key roles in various biological processes, such as imprinting control, cell differentiation, immune response and chromatin modification (7,8).…”

Section: Introductionmentioning

confidence: 99%

LNCediting: a database for functional effects of RNA editing in lncRNAs

et al. 2016

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RNA editing is a widespread post-transcriptional mechanism that can make a single base change on specific nucleotide sequence in an RNA transcript. RNA editing events can result in missense codon changes and modulation of alternative splicing in mRNA, and modification of regulatory RNAs and their binding sites in noncoding RNAs. Recent computational studies accurately detected more than 2 million A-to-I RNA editing sites from next-generation sequencing (NGS). However, the vast majority of these RNA editing sites have unknown functions and are in noncoding regions of the genome. To provide a useful resource for the functional effects of RNA editing in long noncoding RNAs (lncRNAs), we systematically analyzed the A-to-I editing sites in lncRNAs across human, rhesus, mouse, and fly, and observed an appreciable number of RNA editing sites which can significantly impact the secondary structures of lncRNAs and lncRNA–miRNA interactions. All the data were compiled into LNCediting, a user-friendly database (http://bioinfo.life.hust.edu.cn/LNCediting/). LNCediting provides customized tools to predict functional effects of novel editing sites in lncRNAs. We hope that it will become an important resource for exploring functions of RNA editing sites in lncRNAs.

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A comprehensive overview of lncRNA annotation resources

Cited by 97 publications

References 63 publications

A coding and non-coding transcriptomic perspective on the genomics of human metabolic disease

A coding and non-coding transcriptomic perspective on the genomics of human metabolic disease

Long Noncoding RNAs in the Heart

LNCediting: a database for functional effects of RNA editing in lncRNAs

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