Human nucleolar protein Nop52 (RRP1/NNP-1) is involved in site 2 cleavage in internal transcribed spacer 1 of pre-rRNAs at early stages of ribosome biogenesis

During the early steps of ribosome biogenesis in mammals, the two ribosomal subunits 40S and 60S are produced via splitting of the large 90S pre-ribosomal particle (90S) into pre-40S and pre-60S pre-ribosomal particles (pre-40S and pre-60S). We previously proposed that replacement of fibrillarin by...

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Autores principales: Yoshikawa, Harunori, Ishikawa, Hideaki, Izumikawa, Keiichi, Miura, Yutaka, Hayano, Toshiya, Isobe, Toshiaki, Simpson, Richard J., Takahashi, Nobuhiro
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2015
Materias:
Molecular Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4477673/
https://www.ncbi.nlm.nih.gov/pubmed/25969445
http://dx.doi.org/10.1093/nar/gkv470
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author Yoshikawa, Harunori
Ishikawa, Hideaki
Izumikawa, Keiichi
Miura, Yutaka
Hayano, Toshiya
Isobe, Toshiaki
Simpson, Richard J.
Takahashi, Nobuhiro
author_facet Yoshikawa, Harunori
Ishikawa, Hideaki
Izumikawa, Keiichi
Miura, Yutaka
Hayano, Toshiya
Isobe, Toshiaki
Simpson, Richard J.
Takahashi, Nobuhiro
author_sort Yoshikawa, Harunori
collection PubMed
description During the early steps of ribosome biogenesis in mammals, the two ribosomal subunits 40S and 60S are produced via splitting of the large 90S pre-ribosomal particle (90S) into pre-40S and pre-60S pre-ribosomal particles (pre-40S and pre-60S). We previously proposed that replacement of fibrillarin by Nop52 (RRP1/NNP-1) for the binding to p32 (C1QBP) is a key event that drives this splitting process. However, how the replacement by RRP1 is coupled with the endo- and/or exo-ribonucleolytic cleavage of pre-rRNA remains unknown. In this study, we demonstrate that RRP1 deficiency suppressed site 2 cleavage on ITS1 of 47S/45S, 41S and 36S pre-rRNAs in human cells. RRP1 was also present in 90S and was localized in the dense fibrillar component of the nucleolus dependently on active RNA polymerase I transcription. In addition, double knockdown of XRN2 and RRP1 revealed that RRP1 accelerated the site 2 cleavage of 47S, 45S and 41S pre-rRNAs. These data suggest that RRP1 is involved not only in competitive binding with fibrillarin to C1QBP on 90S but also in site 2 cleavage in ITS1 of pre-rRNAs at early stages of human ribosome biogenesis; thus, it is likely that RRP1 integrates the cleavage of site 2 with the physical split of 90S into pre-40S and pre-60S.
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spelling pubmed-44776732015-06-29 Human nucleolar protein Nop52 (RRP1/NNP-1) is involved in site 2 cleavage in internal transcribed spacer 1 of pre-rRNAs at early stages of ribosome biogenesis Yoshikawa, Harunori Ishikawa, Hideaki Izumikawa, Keiichi Miura, Yutaka Hayano, Toshiya Isobe, Toshiaki Simpson, Richard J. Takahashi, Nobuhiro Nucleic Acids Res Molecular Biology During the early steps of ribosome biogenesis in mammals, the two ribosomal subunits 40S and 60S are produced via splitting of the large 90S pre-ribosomal particle (90S) into pre-40S and pre-60S pre-ribosomal particles (pre-40S and pre-60S). We previously proposed that replacement of fibrillarin by Nop52 (RRP1/NNP-1) for the binding to p32 (C1QBP) is a key event that drives this splitting process. However, how the replacement by RRP1 is coupled with the endo- and/or exo-ribonucleolytic cleavage of pre-rRNA remains unknown. In this study, we demonstrate that RRP1 deficiency suppressed site 2 cleavage on ITS1 of 47S/45S, 41S and 36S pre-rRNAs in human cells. RRP1 was also present in 90S and was localized in the dense fibrillar component of the nucleolus dependently on active RNA polymerase I transcription. In addition, double knockdown of XRN2 and RRP1 revealed that RRP1 accelerated the site 2 cleavage of 47S, 45S and 41S pre-rRNAs. These data suggest that RRP1 is involved not only in competitive binding with fibrillarin to C1QBP on 90S but also in site 2 cleavage in ITS1 of pre-rRNAs at early stages of human ribosome biogenesis; thus, it is likely that RRP1 integrates the cleavage of site 2 with the physical split of 90S into pre-40S and pre-60S. Oxford University Press 2015-06-23 2015-05-12 /pmc/articles/PMC4477673/ /pubmed/25969445 http://dx.doi.org/10.1093/nar/gkv470 Text en © The Author(s) 2015. Published by Oxford University Press on behalf of Nucleic Acids Research. http://creativecommons.org/licenses/by/4.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Molecular Biology
Yoshikawa, Harunori
Ishikawa, Hideaki
Izumikawa, Keiichi
Miura, Yutaka
Hayano, Toshiya
Isobe, Toshiaki
Simpson, Richard J.
Takahashi, Nobuhiro
Human nucleolar protein Nop52 (RRP1/NNP-1) is involved in site 2 cleavage in internal transcribed spacer 1 of pre-rRNAs at early stages of ribosome biogenesis
title Human nucleolar protein Nop52 (RRP1/NNP-1) is involved in site 2 cleavage in internal transcribed spacer 1 of pre-rRNAs at early stages of ribosome biogenesis
title_full Human nucleolar protein Nop52 (RRP1/NNP-1) is involved in site 2 cleavage in internal transcribed spacer 1 of pre-rRNAs at early stages of ribosome biogenesis
title_fullStr Human nucleolar protein Nop52 (RRP1/NNP-1) is involved in site 2 cleavage in internal transcribed spacer 1 of pre-rRNAs at early stages of ribosome biogenesis
title_full_unstemmed Human nucleolar protein Nop52 (RRP1/NNP-1) is involved in site 2 cleavage in internal transcribed spacer 1 of pre-rRNAs at early stages of ribosome biogenesis
title_short Human nucleolar protein Nop52 (RRP1/NNP-1) is involved in site 2 cleavage in internal transcribed spacer 1 of pre-rRNAs at early stages of ribosome biogenesis
title_sort human nucleolar protein nop52 (rrp1/nnp-1) is involved in site 2 cleavage in internal transcribed spacer 1 of pre-rrnas at early stages of ribosome biogenesis
topic Molecular Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4477673/
https://www.ncbi.nlm.nih.gov/pubmed/25969445
http://dx.doi.org/10.1093/nar/gkv470
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