sg:pub.10.1186/s40104-019-0331-z - Springer Nature SciGraph

Article Info

DATE

2019-12

AUTHORS

Yuanyuan Zhang, Deping Han, Xianggui Dong, Jiankui Wang, Jianfei Chen, Yanzhu Yao, Hesham Y. A. Darwish, Wansheng Liu, Xuemei Deng

ABSTRACT

Background: The widely observed RNA-DNA differences (RDDs) have been found to be due to nucleotide alteration by RNA editing. Canonical RNA editing (i.e., A-to-I and C-to-U editing) mediated by the adenosine deaminases acting on RNA (ADAR) family and apolipoprotein B mRNA editing catalytic polypeptide-like (APOBEC) family during the transcriptional process is considered common and essential for the development of an individual. To date, an increasing number of RNA editing sites have been reported in human, rodents, and some farm animals; however, genome-wide detection of RNA editing events in sheep has not been reported. The aim of this study was to identify RNA editing events in sheep by comparing the RNA-seq and DNA-seq data from three biological replicates of the kidney and spleen tissues. Results: A total of 607 and 994 common edited sites within the three biological replicates were identified in the ovine kidney and spleen, respectively. Many of the RDDs were specific to an individual. The RNA editing-related genes identified in the present study might be evolved for specific biological functions in sheep, such as structural constituent of the cytoskeleton and microtubule-based processes. Furthermore, the edited sites found in the ovine BLCAP and NEIL1 genes are in line with those in previous reports on the porcine and human homologs, suggesting the existence of evolutionarily conserved RNA editing sites and they may play an important role in the structure and function of genes. Conclusions: Our study is the first to investigate RNA editing events in sheep. We screened out 607 and 994 RNA editing sites in three biological replicates of the ovine kidney and spleen and annotated 164 and 247 genes in the kidney and spleen, respectively. The gene function and conservation analysis of these RNA editing-related genes suggest that RNA editing is associated with important gene function in sheep. The putative functionally important RNA editing sites reported in the present study will help future studies on the relationship between these edited sites and the genetic traits in sheep. More... »

PAGES

References to SciGraph publications

2011-02. Transcriptome-wide sequencing reveals numerous APOBEC1 mRNA-editing targets in transcript 3′ UTRs in NATURE STRUCTURAL & MOLECULAR BIOLOGY

2009-01. Systematic and integrative analysis of large gene lists using DAVID bioinformatics resources in NATURE PROTOCOLS

2017-12. Evidence for transcriptome-wide RNA editing among Sus scrofa PRE-1 SINE elements in BMC GENOMICS

2012-06. Accurate identification of human Alu and non-Alu RNA editing sites in NATURE METHODS

2015-04. Genome sequence–independent identification of RNA editing sites in NATURE METHODS

2016-12. Complex regulation of ADAR-mediated RNA-editing across tissues in BMC GENOMICS

2015-10-09. Profiling RNA editing in human tissues: towards the inosinome Atlas in SCIENTIFIC REPORTS

2014-01. The role of replicates for error mitigation in next-generation sequencing in NATURE REVIEWS GENETICS

2013-12. Adenosine-to-inosine RNA editing and human disease in GENOME MEDICINE

2017-01. ADARB1 catalyzes circadian A-to-I editing and regulates RNA rhythm in NATURE GENETICS

2004-08. Systematic identification of abundant A-to-I editing sites in the human transcriptome in NATURE BIOTECHNOLOGY

2013-01. Differential analysis of gene regulation at transcript resolution with RNA-seq in NATURE BIOTECHNOLOGY

2015-12. The origin of the ADAR gene family and animal RNA editing in BMC EVOLUTIONARY BIOLOGY

2017-12. Population and allelic variation of A-to-I RNA editing in human transcriptomes in GENOME BIOLOGY

2011-05. A framework for variation discovery and genotyping using next-generation DNA sequencing data in NATURE GENETICS

Journal

TITLE

Journal of Animal Science and Biotechnology

ISSUE

VOLUME

Subjects

FOR: Genetics

FOR: Biological Sciences

Author Affiliations

Pennsylvania State University

China Agricultural University

Identifiers

URI

http://scigraph.springernature.com/pub.10.1186/s40104-019-0331-z

DOI

http://dx.doi.org/10.1186/s40104-019-0331-z

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1112765564

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/30918658

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N-Triples is a line-based linked data format ideal for batch operations.

curl -H 'Accept: application/n-triples' 'https://scigraph.springernature.com/pub.10.1186/s40104-019-0331-z'

Turtle is a human-readable linked data format.

curl -H 'Accept: text/turtle' 'https://scigraph.springernature.com/pub.10.1186/s40104-019-0331-z'

RDF/XML is a standard XML format for linked data.

curl -H 'Accept: application/rdf+xml' 'https://scigraph.springernature.com/pub.10.1186/s40104-019-0331-z'

This table displays all metadata directly associated to this object as RDF triples.

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44	″	schema:description	Background: The widely observed RNA-DNA differences (RDDs) have been found to be due to nucleotide alteration by RNA editing. Canonical RNA editing (i.e., A-to-I and C-to-U editing) mediated by the adenosine deaminases acting on RNA (ADAR) family and apolipoprotein B mRNA editing catalytic polypeptide-like (APOBEC) family during the transcriptional process is considered common and essential for the development of an individual. To date, an increasing number of RNA editing sites have been reported in human, rodents, and some farm animals; however, genome-wide detection of RNA editing events in sheep has not been reported. The aim of this study was to identify RNA editing events in sheep by comparing the RNA-seq and DNA-seq data from three biological replicates of the kidney and spleen tissues. Results: A total of 607 and 994 common edited sites within the three biological replicates were identified in the ovine kidney and spleen, respectively. Many of the RDDs were specific to an individual. The RNA editing-related genes identified in the present study might be evolved for specific biological functions in sheep, such as structural constituent of the cytoskeleton and microtubule-based processes. Furthermore, the edited sites found in the ovine BLCAP and NEIL1 genes are in line with those in previous reports on the porcine and human homologs, suggesting the existence of evolutionarily conserved RNA editing sites and they may play an important role in the structure and function of genes. Conclusions: Our study is the first to investigate RNA editing events in sheep. We screened out 607 and 994 RNA editing sites in three biological replicates of the ovine kidney and spleen and annotated 164 and 247 genes in the kidney and spleen, respectively. The gene function and conservation analysis of these RNA editing-related genes suggest that RNA editing is associated with important gene function in sheep. The putative functionally important RNA editing sites reported in the present study will help future studies on the relationship between these edited sites and the genetic traits in sheep.
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