The dynamics of the alternatively spliced NOL7 gene products and role in nucleolar architecture

Noa Kinor; Yaron Shav-Tal

doi:10.4161/nucl.2.3.15893

The dynamics of the alternatively spliced NOL7 gene products and role in nucleolar architecture

Noa Kinor, Yaron Shav-Tal

The Mina and Everard Goodman Faculty of Life Sciences - at Bar-Ilan University

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

Three alternatively spliced forms of the human NOL7 gene coding for relatively small proteins were identified. The two horter forms were generated by intron retention events, and each isoform was differently localized within the cell. The OL7-SP1 long form (29 kD) localized to the nucleolus, SP2 was nucleoplasmic, while SP3 was distributed throughout he whole cell. NOL7-SP1 was confined to the nucleolar granular component, and during cell division disassociated from he nucleolus. Knockdown of NOL7-SP1 levels abrogated nucleolar architecture, in particular the internal regions, and educed cell proliferation. Analysis of the nucleolar dynamics of the SP1 protein during interphase showed nucleolar high inding affinity. Dissection of protein domains showed that nucleolar targeting was mediated by a unique C-terminal ucleolar localization sequence (NoLS). However, this sequence was not sufficient for conferring high binding affinity, hich required additional regions of the protein. Our analysis shows that NOL7 is important for maintaining internal ucleolar structure and cell growth rates, and that while specific protein localization can be obtained by specific short ocalization motifs, nucleolar residency through binding must be mediated by a synergistic combination of protein odules.

Original language	English
Pages (from-to)	229-245
Number of pages	17
Journal	Nucleus
Volume	2
Issue number	3
DOIs	https://doi.org/10.4161/nucl.2.3.15893
State	Published - 2011

Bibliographical note

Funding Information:
We thank Uri Alon (Weizmann Institute) for the NOL-YFP cell line, Miroslav Dundr (Rosalind Franklin University of Medicine and Science) for GFP-UBF1, Tom Meier (Albert Einstein College of Medicine) for anti-Nopp140 Ab, Yehuda Brody for FRAP fitting, and Rakefet Ben-Yishay for graphic assistance. This work was supported by the German-Israeli Project Cooperation (DIP) Foundation, the Israel Science Foundation and the Alon Fellowship. Y.S.T. thanks the Israel Science Foundation for the fluorescence live-cell imaging microscope. Y.S.T. is the Jane Stern Lebell Family Fellow in Life Sciences at BIU.

Funding

We thank Uri Alon (Weizmann Institute) for the NOL-YFP cell line, Miroslav Dundr (Rosalind Franklin University of Medicine and Science) for GFP-UBF1, Tom Meier (Albert Einstein College of Medicine) for anti-Nopp140 Ab, Yehuda Brody for FRAP fitting, and Rakefet Ben-Yishay for graphic assistance. This work was supported by the German-Israeli Project Cooperation (DIP) Foundation, the Israel Science Foundation and the Alon Fellowship. Y.S.T. thanks the Israel Science Foundation for the fluorescence live-cell imaging microscope. Y.S.T. is the Jane Stern Lebell Family Fellow in Life Sciences at BIU.

Funders	Funder number
DIP
German-Israeli Project Cooperation
Israel Science Foundation

Keywords

Alternative splicing
NOL7
Nuclear dynamics
Nucleolar localization sequence
Nucleolus

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10.4161/nucl.2.3.15893

Cite this

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title = "The dynamics of the alternatively spliced NOL7 gene products and role in nucleolar architecture",

abstract = "Three alternatively spliced forms of the human NOL7 gene coding for relatively small proteins were identified. The two horter forms were generated by intron retention events, and each isoform was differently localized within the cell. The OL7-SP1 long form (29 kD) localized to the nucleolus, SP2 was nucleoplasmic, while SP3 was distributed throughout he whole cell. NOL7-SP1 was confined to the nucleolar granular component, and during cell division disassociated from he nucleolus. Knockdown of NOL7-SP1 levels abrogated nucleolar architecture, in particular the internal regions, and educed cell proliferation. Analysis of the nucleolar dynamics of the SP1 protein during interphase showed nucleolar high inding affinity. Dissection of protein domains showed that nucleolar targeting was mediated by a unique C-terminal ucleolar localization sequence (NoLS). However, this sequence was not sufficient for conferring high binding affinity, hich required additional regions of the protein. Our analysis shows that NOL7 is important for maintaining internal ucleolar structure and cell growth rates, and that while specific protein localization can be obtained by specific short ocalization motifs, nucleolar residency through binding must be mediated by a synergistic combination of protein odules.",

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author = "Noa Kinor and Yaron Shav-Tal",

note = "Funding Information: We thank Uri Alon (Weizmann Institute) for the NOL-YFP cell line, Miroslav Dundr (Rosalind Franklin University of Medicine and Science) for GFP-UBF1, Tom Meier (Albert Einstein College of Medicine) for anti-Nopp140 Ab, Yehuda Brody for FRAP fitting, and Rakefet Ben-Yishay for graphic assistance. This work was supported by the German-Israeli Project Cooperation (DIP) Foundation, the Israel Science Foundation and the Alon Fellowship. Y.S.T. thanks the Israel Science Foundation for the fluorescence live-cell imaging microscope. Y.S.T. is the Jane Stern Lebell Family Fellow in Life Sciences at BIU.",

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N2 - Three alternatively spliced forms of the human NOL7 gene coding for relatively small proteins were identified. The two horter forms were generated by intron retention events, and each isoform was differently localized within the cell. The OL7-SP1 long form (29 kD) localized to the nucleolus, SP2 was nucleoplasmic, while SP3 was distributed throughout he whole cell. NOL7-SP1 was confined to the nucleolar granular component, and during cell division disassociated from he nucleolus. Knockdown of NOL7-SP1 levels abrogated nucleolar architecture, in particular the internal regions, and educed cell proliferation. Analysis of the nucleolar dynamics of the SP1 protein during interphase showed nucleolar high inding affinity. Dissection of protein domains showed that nucleolar targeting was mediated by a unique C-terminal ucleolar localization sequence (NoLS). However, this sequence was not sufficient for conferring high binding affinity, hich required additional regions of the protein. Our analysis shows that NOL7 is important for maintaining internal ucleolar structure and cell growth rates, and that while specific protein localization can be obtained by specific short ocalization motifs, nucleolar residency through binding must be mediated by a synergistic combination of protein odules.

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The dynamics of the alternatively spliced NOL7 gene products and role in nucleolar architecture

Abstract

Bibliographical note

Funding

Keywords

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