Regulatory roles of natural antisense transcripts

Natural antisense transcripts are frequently functional and are involved in regulating gene expression. The authors summarize the proposed actions of antisense transcript into four models, each corresponding to a putative regulatory mechanism for a subset of antisense transcripts. Mammalian genomes...

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Published in	Nature reviews. Molecular cell biology Vol. 10; no. 9; pp. 637 - 643
Main Authors	Faghihi, Mohammad Ali, Wahlestedt, Claes
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 01.09.2009 Nature Publishing Group
Subjects	Animal genetics Animals Antisense RNA Biochemistry Biomedical and Life Sciences Cancer Research Cell Biology Developmental Biology Gene expression Gene Expression Regulation - physiology Genetic transcription Genomes Humans Life Sciences Mammals Physiological aspects progress Proteins RNA polymerase RNA, Antisense - physiology Stem Cells United States
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Abstract	Natural antisense transcripts are frequently functional and are involved in regulating gene expression. The authors summarize the proposed actions of antisense transcript into four models, each corresponding to a putative regulatory mechanism for a subset of antisense transcripts. Mammalian genomes encode numerous natural antisense transcripts, but the function of these transcripts is not well understood. Functional validation studies indicate that antisense transcripts are not a uniform group of regulatory RNAs but instead belong to multiple categories with some common features. Recent evidence indicates that antisense transcripts are frequently functional and use diverse transcriptional and post-transcriptional gene regulatory mechanisms to carry out a wide variety of biological roles.
AbstractList	Mammalian genomes encode numerous natural antisense transcripts, but the function of these transcripts is not well understood. Functional validation studies indicate that antisense transcripts are not a uniform regulatory RNA group, but instead belong to multiple categories with some common features. Recent evidence indicates that antisense transcripts are frequently functional and use diverse transcriptional and post-transcriptional gene regulatory mechanisms to carry out a wide variety of biological roles. Mammalian genomes encode numerous natural antisense transcripts, but the function of these transcripts is not well understood. Functional validation studies indicate that antisense transcripts are not a uniform group of regulatory RNAs but instead belong to multiple categories with some common features. Recent evidence indicates that antisense transcripts are frequently functional and use diverse transcriptional and post-transcriptional gene regulatory mechanisms to carry out a wide variety of biological roles. Mammalian genomes encode numerous natural antisense transcripts, but the function of these transcripts is not well understood. Functional validation studies indicate that antisense transcripts are not a uniform group of regulatory RNAs but instead belong to multiple categories with some common features. Recent evidence indicates that antisense transcripts are frequently functional and use diverse transcriptional and post-transcriptional gene regulatory mechanisms to carry out a wide variety of biological roles.Mammalian genomes encode numerous natural antisense transcripts, but the function of these transcripts is not well understood. Functional validation studies indicate that antisense transcripts are not a uniform group of regulatory RNAs but instead belong to multiple categories with some common features. Recent evidence indicates that antisense transcripts are frequently functional and use diverse transcriptional and post-transcriptional gene regulatory mechanisms to carry out a wide variety of biological roles. Natural antisense transcripts are frequently functional and are involved in regulating gene expression. The authors summarize the proposed actions of antisense transcript into four models, each corresponding to a putative regulatory mechanism for a subset of antisense transcripts. Mammalian genomes encode numerous natural antisense transcripts, but the function of these transcripts is not well understood. Functional validation studies indicate that antisense transcripts are not a uniform group of regulatory RNAs but instead belong to multiple categories with some common features. Recent evidence indicates that antisense transcripts are frequently functional and use diverse transcriptional and post-transcriptional gene regulatory mechanisms to carry out a wide variety of biological roles.
Audience	Academic
Author	Wahlestedt, Claes Faghihi, Mohammad Ali
Author_xml	– sequence: 1 givenname: Mohammad Ali surname: Faghihi fullname: Faghihi, Mohammad Ali organization: Mohammad Ali Faghihi and Claes Wahlestedt are at the Molecular and Integrative Neurosciences Department (MIND), The Scripps Research Institute, Jupiter, Florida 33458, USA – sequence: 2 givenname: Claes surname: Wahlestedt fullname: Wahlestedt, Claes email: clawah@scripps.edu organization: Mohammad Ali Faghihi and Claes Wahlestedt are at the Molecular and Integrative Neurosciences Department (MIND), The Scripps Research Institute, Jupiter, Florida 33458, USA
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/19638999$$D View this record in MEDLINE/PubMed
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Snippet	Natural antisense transcripts are frequently functional and are involved in regulating gene expression. The authors summarize the proposed actions of antisense... Mammalian genomes encode numerous natural antisense transcripts, but the function of these transcripts is not well understood. Functional validation studies...
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SubjectTerms	Animal genetics Animals Antisense RNA Biochemistry Biomedical and Life Sciences Cancer Research Cell Biology Developmental Biology Gene expression Gene Expression Regulation - physiology Genetic transcription Genomes Humans Life Sciences Mammals Physiological aspects progress Proteins RNA polymerase RNA, Antisense - physiology Stem Cells
Title	Regulatory roles of natural antisense transcripts
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