Environmental exposures and RNA N6-Methyladenosine modified long Non-Coding RNAs

Recent advances in the field of RNA modifications and long non-coding RNAs (lncRNAs) have provided substantial evidence on important biological functions. LncRNAs are defined as longer than 200 nucleotides which are not translated into proteins. The term "epitranscriptome" refers to all mo...

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Published in	Critical reviews in toxicology Vol. 50; no. 8; pp. 641 - 649
Main Author	Cayir, Akin
Format	Journal Article
Language	English
Published	England Taylor & Francis 13.09.2020
Subjects	Adenosine - analogs & derivatives Adenosine - genetics biomarker Environmental Exposure Humans Long non-coding RNAs N6-methyladenosine Neoplasms RNA modification RNA, Long Noncoding RNA modification Long non-coding RNAs N6-methyladenosine biomarker environmental exposure
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Abstract	Recent advances in the field of RNA modifications and long non-coding RNAs (lncRNAs) have provided substantial evidence on important biological functions. LncRNAs are defined as longer than 200 nucleotides which are not translated into proteins. The term "epitranscriptome" refers to all modifications in RNA types. Adenine-6 methylation (m 6 A) is the most common, dynamic and prominent modifications in coding and non-coding RNAs and has critical and previously unappreciated functional roles. Accumulation evidence indicated the association between RNA m6A modification and cancer and nonmalignant diseases. Recent studies reported that several lncRNAs including MALAT1, MEG3, XIST, GAS5, and KCNK15-AS1 are subject to m 6 A modification. It can be suggested that lncRNAs modified by m 6 A modification have substantive roles in diseases. Currently limited data are available regarding how environmental exposure affects m 6 A-modified lncRNAs. Furthermore, we do not know the interaction of environmental exposure and m 6 A-modified lncRNAs in development of adverse human health outcomes. Thus, in this systematic review, we aimed to present the data of the studies that reported a significant association between environmental exposure and expression/DNA methylation of m 6 A-modified long non-coding RNAs.
AbstractList	Recent advances in the field of RNA modifications and long non-coding RNAs (lncRNAs) have provided substantial evidence on important biological functions. LncRNAs are defined as longer than 200 nucleotides which are not translated into proteins. The term "epitranscriptome" refers to all modifications in RNA types. Adenine-6 methylation (m A) is the most common, dynamic and prominent modifications in coding and non-coding RNAs and has critical and previously unappreciated functional roles. Accumulation evidence indicated the association between RNA m6A modification and cancer and nonmalignant diseases. Recent studies reported that several lncRNAs including and - are subject to m A modification. It can be suggested that lncRNAs modified by m A modification have substantive roles in diseases. Currently limited data are available regarding how environmental exposure affects m A-modified lncRNAs. Furthermore, we do not know the interaction of environmental exposure and m A-modified lncRNAs in development of adverse human health outcomes. Thus, in this systematic review, we aimed to present the data of the studies that reported a significant association between environmental exposure and expression/DNA methylation of m A-modified long non-coding RNAs. Recent advances in the field of RNA modifications and long non-coding RNAs (lncRNAs) have provided substantial evidence on important biological functions. LncRNAs are defined as longer than 200 nucleotides which are not translated into proteins. The term "epitranscriptome" refers to all modifications in RNA types. Adenine-6 methylation (m 6 A) is the most common, dynamic and prominent modifications in coding and non-coding RNAs and has critical and previously unappreciated functional roles. Accumulation evidence indicated the association between RNA m6A modification and cancer and nonmalignant diseases. Recent studies reported that several lncRNAs including MALAT1, MEG3, XIST, GAS5, and KCNK15-AS1 are subject to m 6 A modification. It can be suggested that lncRNAs modified by m 6 A modification have substantive roles in diseases. Currently limited data are available regarding how environmental exposure affects m 6 A-modified lncRNAs. Furthermore, we do not know the interaction of environmental exposure and m 6 A-modified lncRNAs in development of adverse human health outcomes. Thus, in this systematic review, we aimed to present the data of the studies that reported a significant association between environmental exposure and expression/DNA methylation of m 6 A-modified long non-coding RNAs. Recent advances in the field of RNA modifications and long non-coding RNAs (lncRNAs) have provided substantial evidence on important biological functions. LncRNAs are defined as longer than 200 nucleotides which are not translated into proteins. The term "epitranscriptome" refers to all modifications in RNA types. Adenine-6 methylation (m6A) is the most common, dynamic and prominent modifications in coding and non-coding RNAs and has critical and previously unappreciated functional roles. Accumulation evidence indicated the association between RNA m6A modification and cancer and nonmalignant diseases. Recent studies reported that several lncRNAs including MALAT1, MEG3, XIST, GAS5, and KCNK15-AS1 are subject to m6A modification. It can be suggested that lncRNAs modified by m6A modification have substantive roles in diseases. Currently limited data are available regarding how environmental exposure affects m6A-modified lncRNAs. Furthermore, we do not know the interaction of environmental exposure and m6A-modified lncRNAs in development of adverse human health outcomes. Thus, in this systematic review, we aimed to present the data of the studies that reported a significant association between environmental exposure and expression/DNA methylation of m6A-modified long non-coding RNAs.Recent advances in the field of RNA modifications and long non-coding RNAs (lncRNAs) have provided substantial evidence on important biological functions. LncRNAs are defined as longer than 200 nucleotides which are not translated into proteins. The term "epitranscriptome" refers to all modifications in RNA types. Adenine-6 methylation (m6A) is the most common, dynamic and prominent modifications in coding and non-coding RNAs and has critical and previously unappreciated functional roles. Accumulation evidence indicated the association between RNA m6A modification and cancer and nonmalignant diseases. Recent studies reported that several lncRNAs including MALAT1, MEG3, XIST, GAS5, and KCNK15-AS1 are subject to m6A modification. It can be suggested that lncRNAs modified by m6A modification have substantive roles in diseases. Currently limited data are available regarding how environmental exposure affects m6A-modified lncRNAs. Furthermore, we do not know the interaction of environmental exposure and m6A-modified lncRNAs in development of adverse human health outcomes. Thus, in this systematic review, we aimed to present the data of the studies that reported a significant association between environmental exposure and expression/DNA methylation of m6A-modified long non-coding RNAs.
Author	Cayir, Akin
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SubjectTerms	Adenosine - analogs & derivatives Adenosine - genetics biomarker Environmental Exposure Humans Long non-coding RNAs N6-methyladenosine Neoplasms RNA modification RNA, Long Noncoding
Title	Environmental exposures and RNA N6-Methyladenosine modified long Non-Coding RNAs
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