UPF2 is a critical regulator of liver development, function and regeneration

Lina A Thoren; Gitte Anker Nørgaard; Joachim Lütken Weischenfeldt; Johannes Waage; Janus Schou Jakobsen; Inge Damgaard; Frida C Bergström; Anna M Blom; Rehannah Holga Andrea Borup Helweg-Larsen; Hanne Cathrine Bisgaard; Bo Torben Porse

doi:10.1371/journal.pone.0011650

UPF2 is a critical regulator of liver development, function and regeneration

Lina A Thoren, Gitte Anker Nørgaard, Joachim Lütken Weischenfeldt, Johannes Waage, Janus Schou Jakobsen, Inge Damgaard, Frida C Bergström, Anna M Blom, Rehannah Holga Andrea Borup Helweg-Larsen, Hanne Cathrine Bisgaard, Bo Torben Porse

Department of Clinical Biochemistry

63 Citations (Scopus)

Abstract

Nonsense-mediated mRNA decay (NMD) is a post-transcriptional RNA surveillance process that facilitates the recognition and destruction of mRNAs bearing premature terminations codons (PTCs). Such PTC-containing (PTC+) mRNAs may arise from different processes, including erroneous processing and expression of pseudogenes, but also from more regulated events such as alternative splicing coupled NMD (AS-NMD). Thus, the NMD pathway serves both as a silencer of genomic noise and a regulator of gene expression. Given the early embryonic lethality in NMD deficient mice, uncovering the full regulatory potential of the NMD pathway in mammals will require the functional assessment of NMD in different tissues.

Original language	English
Journal	P L o S One
Volume	5
Issue number	7
Pages (from-to)	e11650
ISSN	1932-6203
DOIs	https://doi.org/10.1371/journal.pone.0011650
Publication status	Published - 1 Jan 2010

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title = "UPF2 is a critical regulator of liver development, function and regeneration",

abstract = "Nonsense-mediated mRNA decay (NMD) is a post-transcriptional RNA surveillance process that facilitates the recognition and destruction of mRNAs bearing premature terminations codons (PTCs). Such PTC-containing (PTC+) mRNAs may arise from different processes, including erroneous processing and expression of pseudogenes, but also from more regulated events such as alternative splicing coupled NMD (AS-NMD). Thus, the NMD pathway serves both as a silencer of genomic noise and a regulator of gene expression. Given the early embryonic lethality in NMD deficient mice, uncovering the full regulatory potential of the NMD pathway in mammals will require the functional assessment of NMD in different tissues.",

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T1 - UPF2 is a critical regulator of liver development, function and regeneration

AU - Thoren, Lina A

AU - Nørgaard, Gitte Anker

AU - Weischenfeldt, Joachim Lütken

AU - Waage, Johannes

AU - Jakobsen, Janus Schou

AU - Damgaard, Inge

AU - Bergström, Frida C

AU - Blom, Anna M

AU - Helweg-Larsen, Rehannah Holga Andrea Borup

AU - Bisgaard, Hanne Cathrine

AU - Porse, Bo Torben

PY - 2010/1/1

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N2 - Nonsense-mediated mRNA decay (NMD) is a post-transcriptional RNA surveillance process that facilitates the recognition and destruction of mRNAs bearing premature terminations codons (PTCs). Such PTC-containing (PTC+) mRNAs may arise from different processes, including erroneous processing and expression of pseudogenes, but also from more regulated events such as alternative splicing coupled NMD (AS-NMD). Thus, the NMD pathway serves both as a silencer of genomic noise and a regulator of gene expression. Given the early embryonic lethality in NMD deficient mice, uncovering the full regulatory potential of the NMD pathway in mammals will require the functional assessment of NMD in different tissues.

AB - Nonsense-mediated mRNA decay (NMD) is a post-transcriptional RNA surveillance process that facilitates the recognition and destruction of mRNAs bearing premature terminations codons (PTCs). Such PTC-containing (PTC+) mRNAs may arise from different processes, including erroneous processing and expression of pseudogenes, but also from more regulated events such as alternative splicing coupled NMD (AS-NMD). Thus, the NMD pathway serves both as a silencer of genomic noise and a regulator of gene expression. Given the early embryonic lethality in NMD deficient mice, uncovering the full regulatory potential of the NMD pathway in mammals will require the functional assessment of NMD in different tissues.

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DO - 10.1371/journal.pone.0011650

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SN - 1932-6203

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UPF2 is a critical regulator of liver development, function and regeneration

Abstract

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