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Literature DB >> 1986370

Localization of a myosin heavy chain-like polypeptide to Drosophila nuclear pore complexes.

Abstract

Antibodies previously used for immunofluorescence localization of a myosin heavy chain-like polypeptide to the nuclear envelope in higher eukaryotic cells crossreact with both muscle and nonmuscle isoforms of Drosophila myosin heavy chain. Analyses of Drosophila tissue culture cells and premyogenic embryos suggest that it is the nonmuscle isoform that is associated with the nuclear envelope. Further immunofluorescence and immunoelectron microscopy indicate that this polypeptide is associated with nuclear pore complexes. These data support the hypothesis put forward previously that myosin or myosin-like molecules play a role in pore complex architecture.

Entities: Gene Species

Mesh：

Substances：

Year: 1991 PMID： 1986370 PMCID： PMC50781 DOI： 10.1073/pnas.88.1.219

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

30 in total

1. A new design of immunofluorescence chamber.

Authors: M Berrios
Journal: Med Lab Sci Date: 1989-07

2. Nuclear protein migration involves two steps: rapid binding at the nuclear envelope followed by slower translocation through nuclear pores.

Authors: W D Richardson; A D Mills; S M Dilworth; R A Laskey; C Dingwall
Journal: Cell Date: 1988-03-11 Impact factor: 41.582

3. Heat shock-induced changes in the structural stability of proteinaceous karyoskeletal elements in vitro and morphological effects in situ.

Authors: M McConnell; A M Whalen; D E Smith; P A Fisher
Journal: J Cell Biol Date: 1987-09 Impact factor: 10.539

4. Primary structure analysis of an integral membrane glycoprotein of the nuclear pore.

Authors: R W Wozniak; E Bartnik; G Blobel
Journal: J Cell Biol Date: 1989-06 Impact factor: 10.539

5. Cytoplasmic myosin from Drosophila melanogaster.

Authors: D P Kiehart; R Feghali
Journal: J Cell Biol Date: 1986-10 Impact factor: 10.539

6. Monoclonal antibodies identify a group of nuclear pore complex glycoproteins.

Authors: C M Snow; A Senior; L Gerace
Journal: J Cell Biol Date: 1987-05 Impact factor: 10.539

7. Inhibition of in vitro nuclear transport by a lectin that binds to nuclear pores.

Authors: D R Finlay; D D Newmeyer; T M Price; D J Forbes
Journal: J Cell Biol Date: 1987-02 Impact factor: 10.539

8. Identification of the gene for fly non-muscle myosin heavy chain: Drosophila myosin heavy chains are encoded by a gene family.

Authors: D P Kiehart; M S Lutz; D Chan; A S Ketchum; R A Laymon; B Nguyen; L S Goldstein
Journal: EMBO J Date: 1989-03 Impact factor: 11.598

9. A myosin heavy-chain-like polypeptide is associated with the nuclear envelope in higher eukaryotic cells.

Authors: M Berrios; P A Fisher
Journal: J Cell Biol Date: 1986-09 Impact factor: 10.539

10. Biosynthesis and interconversion of Drosophila nuclear lamin isoforms during normal growth and in response to heat shock.

Authors: D E Smith; Y Gruenbaum; M Berrios; P A Fisher
Journal: J Cell Biol Date: 1987-08 Impact factor: 10.539

6 in total

Localization of a myosin heavy chain-like polypeptide to Drosophila nuclear pore complexes.

1. A new design of immunofluorescence chamber.

2. Nuclear protein migration involves two steps: rapid binding at the nuclear envelope followed by slower translocation through nuclear pores.

3. Heat shock-induced changes in the structural stability of proteinaceous karyoskeletal elements in vitro and morphological effects in situ.

4. Primary structure analysis of an integral membrane glycoprotein of the nuclear pore.

5. Cytoplasmic myosin from Drosophila melanogaster.

6. Monoclonal antibodies identify a group of nuclear pore complex glycoproteins.

7. Inhibition of in vitro nuclear transport by a lectin that binds to nuclear pores.

8. Identification of the gene for fly non-muscle myosin heavy chain: Drosophila myosin heavy chains are encoded by a gene family.

9. A myosin heavy-chain-like polypeptide is associated with the nuclear envelope in higher eukaryotic cells.

10. Biosynthesis and interconversion of Drosophila nuclear lamin isoforms during normal growth and in response to heat shock.

Review 1. The long journey of actin and actin-associated proteins from genes to polysomes.

2. Intranuclear distribution of DNA topoisomerase II and chromatin.

3. Architecture of the Xenopus nuclear pore complex revealed by three-dimensional cryo-electron microscopy.

4. The yeast nuclear pore complex: composition, architecture, and transport mechanism.

5. MYH9 binds to dNTPs via deoxyribose moiety and plays an important role in DNA synthesis.

6. Nup180, a novel nuclear pore complex protein localizing to the cytoplasmic ring and associated fibrils.