Principles for RNA metabolism and alternative transcription initiation within closely spaced promoters

Yun Chen; Athma A Pai; Jan Herudek; Michal Lubas; Nicola Meola; Aino I. Järvelin; Robin Andersson; Vicent Pelechano; Lars M. Steinmetz; Torben Heick Jensen; Albin Gustav Sandelin

doi:10.1038/ng.3616

Principles for RNA metabolism and alternative transcription initiation within closely spaced promoters

Yun Chen, Athma A Pai, Jan Herudek, Michal Lubas, Nicola Meola, Aino I. Järvelin, Robin Andersson, Vicent Pelechano, Lars M. Steinmetz, Torben Heick Jensen, Albin Gustav Sandelin

Computational and RNA Biology

41 Citations (Scopus)

Abstract

Mammalian transcriptomes are complex and formed by extensive promoter activity. In addition, gene promoters are largely divergent and initiate transcription of reverse-oriented promoter upstream transcripts (PROMPTs). Although PROMPTs are commonly terminated early, influenced by polyadenylation sites, promoters often cluster so that the divergent activity of one might impact another. Here we found that the distance between promoters strongly correlates with the expression, stability and length of their associated PROMPTs. Adjacent promoters driving divergent mRNA transcription support PROMPT formation, but owing to polyadenylation site constraints, these transcripts tend to spread into the neighboring mRNA on the same strand. This mechanism to derive new alternative mRNA transcription start sites (TSSs) is also evident at closely spaced promoters supporting convergent mRNA transcription. We suggest that basic building blocks of divergently transcribed core promoter pairs, in combination with the wealth of TSSs in mammalian genomes, provide a framework with which evolution shapes transcriptomes.

Original language	English
Journal	Nature Genetics
Volume	48
Issue number	9
Pages (from-to)	984-994
Number of pages	11
ISSN	1061-4036
DOIs	https://doi.org/10.1038/ng.3616
Publication status	Published - 1 Sept 2016

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Journal Article

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10.1038/ng.3616

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abstract = "Mammalian transcriptomes are complex and formed by extensive promoter activity. In addition, gene promoters are largely divergent and initiate transcription of reverse-oriented promoter upstream transcripts (PROMPTs). Although PROMPTs are commonly terminated early, influenced by polyadenylation sites, promoters often cluster so that the divergent activity of one might impact another. Here we found that the distance between promoters strongly correlates with the expression, stability and length of their associated PROMPTs. Adjacent promoters driving divergent mRNA transcription support PROMPT formation, but owing to polyadenylation site constraints, these transcripts tend to spread into the neighboring mRNA on the same strand. This mechanism to derive new alternative mRNA transcription start sites (TSSs) is also evident at closely spaced promoters supporting convergent mRNA transcription. We suggest that basic building blocks of divergently transcribed core promoter pairs, in combination with the wealth of TSSs in mammalian genomes, provide a framework with which evolution shapes transcriptomes.",

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AU - Chen, Yun

AU - Pai, Athma A

AU - Herudek, Jan

AU - Lubas, Michal

AU - Meola, Nicola

AU - Järvelin, Aino I.

AU - Andersson, Robin

AU - Pelechano, Vicent

AU - Steinmetz, Lars M.

AU - Jensen, Torben Heick

AU - Sandelin, Albin Gustav

PY - 2016/9/1

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N2 - Mammalian transcriptomes are complex and formed by extensive promoter activity. In addition, gene promoters are largely divergent and initiate transcription of reverse-oriented promoter upstream transcripts (PROMPTs). Although PROMPTs are commonly terminated early, influenced by polyadenylation sites, promoters often cluster so that the divergent activity of one might impact another. Here we found that the distance between promoters strongly correlates with the expression, stability and length of their associated PROMPTs. Adjacent promoters driving divergent mRNA transcription support PROMPT formation, but owing to polyadenylation site constraints, these transcripts tend to spread into the neighboring mRNA on the same strand. This mechanism to derive new alternative mRNA transcription start sites (TSSs) is also evident at closely spaced promoters supporting convergent mRNA transcription. We suggest that basic building blocks of divergently transcribed core promoter pairs, in combination with the wealth of TSSs in mammalian genomes, provide a framework with which evolution shapes transcriptomes.

AB - Mammalian transcriptomes are complex and formed by extensive promoter activity. In addition, gene promoters are largely divergent and initiate transcription of reverse-oriented promoter upstream transcripts (PROMPTs). Although PROMPTs are commonly terminated early, influenced by polyadenylation sites, promoters often cluster so that the divergent activity of one might impact another. Here we found that the distance between promoters strongly correlates with the expression, stability and length of their associated PROMPTs. Adjacent promoters driving divergent mRNA transcription support PROMPT formation, but owing to polyadenylation site constraints, these transcripts tend to spread into the neighboring mRNA on the same strand. This mechanism to derive new alternative mRNA transcription start sites (TSSs) is also evident at closely spaced promoters supporting convergent mRNA transcription. We suggest that basic building blocks of divergently transcribed core promoter pairs, in combination with the wealth of TSSs in mammalian genomes, provide a framework with which evolution shapes transcriptomes.

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Principles for RNA metabolism and alternative transcription initiation within closely spaced promoters

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