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Literature DB >> 11102515

Self-association of coilin reveals a common theme in nuclear body localization.

Abstract

We have found that coilin, the marker protein for Cajal bodies (coiled bodies, CBs), is a self-interacting protein, and we have mapped the domain responsible for this activity to the amino-terminus. Together with a nuclear localization signal, the self-interaction domain is necessary and sufficient for localization to CBs. Overexpression of various wild-type and mutant coilin constructs in HeLa cells results in disruption of both CBs and survival motor neurons (SMN) gems. Additionally, we have identified a cryptic nucleolar localization signal (NoLS), within the coilin protein, which may be exposed in specific coilin phospho-isoforms. The implications of these findings are discussed in light of the fact that other proteins known to localize within nuclear bodies (e. g., PML, SMN and Sam68) can also self-associate. Thus protein self-interaction appears to be a general feature of nuclear body marker proteins.

Entities: Gene Species

Mesh：

Substances：

Year: 2000 PMID： 11102515 PMCID： PMC15064 DOI： 10.1091/mbc.11.12.4159

Source DB: PubMed Journal: Mol Biol Cell ISSN： 1059-1524 Impact factor: 4.138

44 in total

1. Identification of a cryptic nucleolar-localization signal in MDM2.

Authors: M A Lohrum; M Ashcroft; M H Kubbutat; K H Vousden
Journal: Nat Cell Biol Date: 2000-03 Impact factor: 28.824

2. The relationship between SMN, the spinal muscular atrophy protein, and nuclear coiled bodies in differentiated tissues and cultured cells.

Authors: P J Young; T T Le; N thi Man; A H Burghes; G E Morris
Journal: Exp Cell Res Date: 2000-05-01 Impact factor: 3.905

3. Role of SUMO-1-modified PML in nuclear body formation.

Authors: S Zhong; S Müller; S Ronchetti; P S Freemont; A Dejean; P P Pandolfi
Journal: Blood Date: 2000-05-01 Impact factor: 22.113

4. The paranucleolar structure, accessory body of Cajal, sex chromatin, and related structures in nuclei of rat trigeminal neurons: a cytochemical and ultrastructural study.

Authors: J H Hardin; S S Spicer; W B Greene
Journal: Anat Rec Date: 1969-08

5. Nucleolar Arf sequesters Mdm2 and activates p53.

Authors: J D Weber; L J Taylor; M F Roussel; C J Sherr; D Bar-Sagi
Journal: Nat Cell Biol Date: 1999-05 Impact factor: 28.824

6. A role for polyproline motifs in the spinal muscular atrophy protein SMN. Profilins bind to and colocalize with smn in nuclear gems.

Authors: T Giesemann; S Rathke-Hartlieb; M Rothkegel; J W Bartsch; S Buchmeier; B M Jockusch; H Jockusch
Journal: J Biol Chem Date: 1999-12-31 Impact factor: 5.157

7. Cell cycle-dependent localization of the CDK2-cyclin E complex in Cajal (coiled) bodies.

Authors: J Liu; M D Hebert; Y Ye; D J Templeton; H Kung; A G Matera
Journal: J Cell Sci Date: 2000-05 Impact factor: 5.285

8. The spinal muscular atrophy disease gene product, SMN: A link between snRNP biogenesis and the Cajal (coiled) body.

Authors: T Carvalho; F Almeida; A Calapez; M Lafarga; M T Berciano; M Carmo-Fonseca
Journal: J Cell Biol Date: 1999-11-15 Impact factor: 10.539

9. Gemin4. A novel component of the SMN complex that is found in both gems and nucleoli.

Authors: B Charroux; L Pellizzoni; R A Perkinson; J Yong; A Shevchenko; M Mann; G Dreyfuss
Journal: J Cell Biol Date: 2000-03-20 Impact factor: 10.539

10. Gemin3: A novel DEAD box protein that interacts with SMN, the spinal muscular atrophy gene product, and is a component of gems.

Authors: B Charroux; L Pellizzoni; R A Perkinson; A Shevchenko; M Mann; G Dreyfuss
Journal: J Cell Biol Date: 1999-12-13 Impact factor: 10.539

96 in total

1. Basic domains target protein subunits of the RNase MRP complex to the nucleolus independently of complex association.

Authors: H van Eenennaam; A van der Heijden; R J Janssen; W J van Venrooij; G J Pruijn
Journal: Mol Biol Cell Date: 2001-11 Impact factor: 4.138

Review 2. Functional architecture in the cell nucleus.

Authors: M Dundr; T Misteli
Journal: Biochem J Date: 2001-06-01 Impact factor: 3.857

3. A distant coilin homologue is required for the formation of cajal bodies in Arabidopsis.

Authors: Sarah Collier; Alison Pendle; Kurt Boudonck; Tjeerd van Rij; Liam Dolan; Peter Shaw
Journal: Mol Biol Cell Date: 2006-04-19 Impact factor: 4.138

4. Movement protein of hordeivirus interacts in vitro and in vivo with coilin, a major structural protein of Cajal bodies.

Authors: M A Semashko; D V Rakitina; I González; T Canto; N O Kalinina; M E Taliansky
Journal: Dokl Biochem Biophys Date: 2012-03-15 Impact factor: 0.788

5. Nucleolar targeting of coilin is regulated by its hypomethylation state.

Authors: Olga Tapia; Rocio Bengoechea; Maria T Berciano; Miguel Lafarga
Journal: Chromosoma Date: 2010-05-07 Impact factor: 4.316

Review 6. The Cajal body and histone locus body.

Authors: Zehra Nizami; Svetlana Deryusheva; Joseph G Gall
Journal: Cold Spring Harb Perspect Biol Date: 2010-05-26 Impact factor: 10.005

Review 7. Biogenesis of nuclear bodies.

Authors: Miroslav Dundr; Tom Misteli
Journal: Cold Spring Harb Perspect Biol Date: 2010-11-10 Impact factor: 10.005