An alanine expanded PABPN1 causes increased utilization of intronic polyadenylation sites

An alanine expanded PABPN1 causes increased utilization of intronic polyadenylation sites

Muscle degeneration: RNA structures as modulator of muscle function Transcriptional and post-transcriptional regulation of gene expression has a fundamental role in shaping the protein landscape. In skeletal muscles, the RNA landscape plays an important role in muscle function in both health and dis...

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Main Authors: Tooba Abbassi-Daloii, Soheil Yousefi, Eleonora de Klerk, Laurens Grossouw, Muhammad Riaz, Peter A. C. ’t Hoen, Vered Raz
Format: Article
Language:English
Published: Nature Publishing Group 2017-04-01
Series:npj Aging and Mechanisms of Disease
Online Access:https://doi.org/10.1038/s41514-017-0007-x
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spelling doaj-f81d49d188ae4f5e9ff99d5513a561552021-04-02T20:15:11ZengNature Publishing Groupnpj Aging and Mechanisms of Disease2056-39732017-04-01311810.1038/s41514-017-0007-xAn alanine expanded PABPN1 causes increased utilization of intronic polyadenylation sitesTooba Abbassi-Daloii0Soheil Yousefi1Eleonora de Klerk2Laurens Grossouw3Muhammad Riaz4Peter A. C. ’t Hoen5Vered Raz6Department of Human Genetics, Leiden University Medical CenterDepartment of Human Genetics, Leiden University Medical CenterDepartment of Microbiology and Immunology, University of California, San Francisco (UCSF)Department of Human Genetics, Leiden University Medical CenterDepartment of Human Genetics, Leiden University Medical CenterDepartment of Human Genetics, Leiden University Medical CenterDepartment of Human Genetics, Leiden University Medical CenterMuscle degeneration: RNA structures as modulator of muscle function Transcriptional and post-transcriptional regulation of gene expression has a fundamental role in shaping the protein landscape. In skeletal muscles, the RNA landscape plays an important role in muscle function in both health and disease conditions. PABPN1 is a key regulator of mRNA processing in a late-onset muscular dystrophy and in aging. Here, the authors demonstrate that a decrease in PABPN1 function results in genome-wide alterations in mRNA structures. Reduced PABPN1 function alters both mRNA levels and RNA structures leading to altered protein sequences. Importantly, among the affected genes are muscle function regulators. Together, this study calls for a better understanding of alterations in RNA structures in disease and aging.https://doi.org/10.1038/s41514-017-0007-x
collection DOAJ
language English
format Article
sources DOAJ
author Tooba Abbassi-Daloii
Soheil Yousefi
Eleonora de Klerk
Laurens Grossouw
Muhammad Riaz
Peter A. C. ’t Hoen
Vered Raz
spellingShingle Tooba Abbassi-Daloii
Soheil Yousefi
Eleonora de Klerk
Laurens Grossouw
Muhammad Riaz
Peter A. C. ’t Hoen
Vered Raz
An alanine expanded PABPN1 causes increased utilization of intronic polyadenylation sites
npj Aging and Mechanisms of Disease
author_facet Tooba Abbassi-Daloii
Soheil Yousefi
Eleonora de Klerk
Laurens Grossouw
Muhammad Riaz
Peter A. C. ’t Hoen
Vered Raz
author_sort Tooba Abbassi-Daloii
title An alanine expanded PABPN1 causes increased utilization of intronic polyadenylation sites
title_short An alanine expanded PABPN1 causes increased utilization of intronic polyadenylation sites
title_full An alanine expanded PABPN1 causes increased utilization of intronic polyadenylation sites
title_fullStr An alanine expanded PABPN1 causes increased utilization of intronic polyadenylation sites
title_full_unstemmed An alanine expanded PABPN1 causes increased utilization of intronic polyadenylation sites
title_sort alanine expanded pabpn1 causes increased utilization of intronic polyadenylation sites
publisher Nature Publishing Group
series npj Aging and Mechanisms of Disease
issn 2056-3973
publishDate 2017-04-01
description Muscle degeneration: RNA structures as modulator of muscle function Transcriptional and post-transcriptional regulation of gene expression has a fundamental role in shaping the protein landscape. In skeletal muscles, the RNA landscape plays an important role in muscle function in both health and disease conditions. PABPN1 is a key regulator of mRNA processing in a late-onset muscular dystrophy and in aging. Here, the authors demonstrate that a decrease in PABPN1 function results in genome-wide alterations in mRNA structures. Reduced PABPN1 function alters both mRNA levels and RNA structures leading to altered protein sequences. Importantly, among the affected genes are muscle function regulators. Together, this study calls for a better understanding of alterations in RNA structures in disease and aging.
url https://doi.org/10.1038/s41514-017-0007-x
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