Competition between translation initiation factor eIF5 and its mimic protein 5MP determines non-AUG initiation rate genome-wide

In the human genome, translation initiation from non-AUG codons plays an important role in various gene regulation programs. However, mechanisms regulating the non-AUG initiation rate remain poorly understood. Here, we show that the non-AUG initiation rate is nearly consistent under a fixed nucleoti...

Descripción completa

Detalles Bibliográficos
Autores principales: Tang, Leiming, Morris, Jacob, Wan, Ji, Moore, Chelsea, Fujita, Yoshihiko, Gillaspie, Sarah, Aube, Eric, Nanda, Jagpreet, Marques, Maud, Jangal, Maika, Anderson, Abbey, Cox, Christian, Hiraishi, Hiroyuki, Dong, Leiming, Saito, Hirohide, Singh, Chingakham Ranjit, Witcher, Michael, Topisirovic, Ivan, Qian, Shu-Bing, Asano, Katsura
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2017
Materias:
RNA and RNA-protein complexes
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5714202/
https://www.ncbi.nlm.nih.gov/pubmed/28981728
http://dx.doi.org/10.1093/nar/gkx808
_version_ 1783283543957307392
author Tang, Leiming
Morris, Jacob
Wan, Ji
Moore, Chelsea
Fujita, Yoshihiko
Gillaspie, Sarah
Aube, Eric
Nanda, Jagpreet
Marques, Maud
Jangal, Maika
Anderson, Abbey
Cox, Christian
Hiraishi, Hiroyuki
Dong, Leiming
Saito, Hirohide
Singh, Chingakham Ranjit
Witcher, Michael
Topisirovic, Ivan
Qian, Shu-Bing
Asano, Katsura
author_facet Tang, Leiming
Morris, Jacob
Wan, Ji
Moore, Chelsea
Fujita, Yoshihiko
Gillaspie, Sarah
Aube, Eric
Nanda, Jagpreet
Marques, Maud
Jangal, Maika
Anderson, Abbey
Cox, Christian
Hiraishi, Hiroyuki
Dong, Leiming
Saito, Hirohide
Singh, Chingakham Ranjit
Witcher, Michael
Topisirovic, Ivan
Qian, Shu-Bing
Asano, Katsura
author_sort Tang, Leiming
collection PubMed
description In the human genome, translation initiation from non-AUG codons plays an important role in various gene regulation programs. However, mechanisms regulating the non-AUG initiation rate remain poorly understood. Here, we show that the non-AUG initiation rate is nearly consistent under a fixed nucleotide context in various human and insect cells. Yet, it ranges from <1% to nearly 100% compared to AUG translation, depending on surrounding sequences, including Kozak, and possibly additional nucleotide contexts. Mechanistically, this range of non-AUG initiation is controlled in part, by the eIF5-mimic protein (5MP). 5MP represses non-AUG translation by competing with eIF5 for the Met-tRNAi-binding factor eIF2. Consistently, eIF5 increases, whereas 5MP decreases translation of NAT1/EIF4G2/DAP5, whose sole start codon is GUG. By modulating eIF5 and 5MP1 expression in combination with ribosome profiling we identified a handful of previously unknown non-AUG initiation sites, some of which serve as the exclusive start codons. If the initiation rate for these codons is low, then an AUG-initiated downstream ORF prevents the generation of shorter, AUG-initiated isoforms. We propose that the homeostasis of the non-AUG translatome is maintained through balanced expression of eIF5 and 5MP.
format Online
Article
Text
id pubmed-5714202
institution National Center for Biotechnology Information
language English
publishDate 2017
publisher Oxford University Press
record_format MEDLINE/PubMed
spelling pubmed-57142022017-12-08 Competition between translation initiation factor eIF5 and its mimic protein 5MP determines non-AUG initiation rate genome-wide Tang, Leiming Morris, Jacob Wan, Ji Moore, Chelsea Fujita, Yoshihiko Gillaspie, Sarah Aube, Eric Nanda, Jagpreet Marques, Maud Jangal, Maika Anderson, Abbey Cox, Christian Hiraishi, Hiroyuki Dong, Leiming Saito, Hirohide Singh, Chingakham Ranjit Witcher, Michael Topisirovic, Ivan Qian, Shu-Bing Asano, Katsura Nucleic Acids Res RNA and RNA-protein complexes In the human genome, translation initiation from non-AUG codons plays an important role in various gene regulation programs. However, mechanisms regulating the non-AUG initiation rate remain poorly understood. Here, we show that the non-AUG initiation rate is nearly consistent under a fixed nucleotide context in various human and insect cells. Yet, it ranges from <1% to nearly 100% compared to AUG translation, depending on surrounding sequences, including Kozak, and possibly additional nucleotide contexts. Mechanistically, this range of non-AUG initiation is controlled in part, by the eIF5-mimic protein (5MP). 5MP represses non-AUG translation by competing with eIF5 for the Met-tRNAi-binding factor eIF2. Consistently, eIF5 increases, whereas 5MP decreases translation of NAT1/EIF4G2/DAP5, whose sole start codon is GUG. By modulating eIF5 and 5MP1 expression in combination with ribosome profiling we identified a handful of previously unknown non-AUG initiation sites, some of which serve as the exclusive start codons. If the initiation rate for these codons is low, then an AUG-initiated downstream ORF prevents the generation of shorter, AUG-initiated isoforms. We propose that the homeostasis of the non-AUG translatome is maintained through balanced expression of eIF5 and 5MP. Oxford University Press 2017-11-16 2017-09-18 /pmc/articles/PMC5714202/ /pubmed/28981728 http://dx.doi.org/10.1093/nar/gkx808 Text en © The Author(s) 2017. Published by Oxford University Press on behalf of Nucleic Acids Research. http://creativecommons.org/licenses/by-nc/4.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited. For commercial re-use, please contact journals.permissions@oup.com
spellingShingle RNA and RNA-protein complexes
Tang, Leiming
Morris, Jacob
Wan, Ji
Moore, Chelsea
Fujita, Yoshihiko
Gillaspie, Sarah
Aube, Eric
Nanda, Jagpreet
Marques, Maud
Jangal, Maika
Anderson, Abbey
Cox, Christian
Hiraishi, Hiroyuki
Dong, Leiming
Saito, Hirohide
Singh, Chingakham Ranjit
Witcher, Michael
Topisirovic, Ivan
Qian, Shu-Bing
Asano, Katsura
Competition between translation initiation factor eIF5 and its mimic protein 5MP determines non-AUG initiation rate genome-wide
title Competition between translation initiation factor eIF5 and its mimic protein 5MP determines non-AUG initiation rate genome-wide
title_full Competition between translation initiation factor eIF5 and its mimic protein 5MP determines non-AUG initiation rate genome-wide
title_fullStr Competition between translation initiation factor eIF5 and its mimic protein 5MP determines non-AUG initiation rate genome-wide
title_full_unstemmed Competition between translation initiation factor eIF5 and its mimic protein 5MP determines non-AUG initiation rate genome-wide
title_short Competition between translation initiation factor eIF5 and its mimic protein 5MP determines non-AUG initiation rate genome-wide
title_sort competition between translation initiation factor eif5 and its mimic protein 5mp determines non-aug initiation rate genome-wide
topic RNA and RNA-protein complexes
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5714202/
https://www.ncbi.nlm.nih.gov/pubmed/28981728
http://dx.doi.org/10.1093/nar/gkx808
work_keys_str_mv AT tangleiming competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT morrisjacob competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT wanji competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT moorechelsea competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT fujitayoshihiko competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT gillaspiesarah competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT aubeeric competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT nandajagpreet competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT marquesmaud competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT jangalmaika competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT andersonabbey competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT coxchristian competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT hiraishihiroyuki competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT dongleiming competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT saitohirohide competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT singhchingakhamranjit competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT witchermichael competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT topisirovicivan competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT qianshubing competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide
AT asanokatsura competitionbetweentranslationinitiationfactoreif5anditsmimicprotein5mpdeterminesnonauginitiationrategenomewide

Ejemplares similares