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Literature DB >> 24927568

Probing nuclear pore complex architecture with proximity-dependent biotinylation.

Dae In Kim¹, K C Birendra¹, Wenhong Zhu², Khatereh Motamedchaboki², Valérie Doye³, Kyle J Roux⁴.

Abstract

Proximity-dependent biotin identification (BioID) is a method for identifying protein associations that occur in vivo. By fusing a promiscuous biotin ligase to a protein of interest expressed in living cells, BioID permits the labeling of proximate proteins during a defined labeling period. In this study we used BioID to study the human nuclear pore complex (NPC), one of the largest macromolecular assemblies in eukaryotes. Anchored within the nuclear envelope, NPCs mediate the nucleocytoplasmic trafficking of numerous cellular components. We applied BioID to constituents of the Nup107-160 complex and the Nup93 complex, two conserved NPC subcomplexes. A strikingly different set of NPC constituents was detected depending on the position of these BioID-fusion proteins within the NPC. By applying BioID to several constituents located throughout the extremely stable Nup107-160 subcomplex, we refined our understanding of this highly conserved subcomplex, in part by demonstrating a direct interaction of Nup43 with Nup85. Furthermore, by using the extremely stable Nup107-160 structure as a molecular ruler, we defined the practical labeling radius of BioID. These studies further our understanding of human NPC organization and demonstrate that BioID is a valuable tool for exploring the constituency and organization of large protein assemblies in living cells.

Entities: Chemical Gene Species

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Year: 2014 PMID： 24927568 PMCID： PMC4066523 DOI： 10.1073/pnas.1406459111

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

63 in total

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6. Nup358/RanBP2 attaches to the nuclear pore complex via association with Nup88 and Nup214/CAN and plays a supporting role in CRM1-mediated nuclear protein export.

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7. The C-terminal domain of Nup93 is essential for assembly of the structural backbone of nuclear pore complexes.

Authors: Ruchika Sachdev; Cornelia Sieverding; Matthias Flötenmeyer; Wolfram Antonin
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8. A promiscuous biotin ligase fusion protein identifies proximal and interacting proteins in mammalian cells.

Authors: Kyle J Roux; Dae In Kim; Manfred Raida; Brian Burke
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9. Novel vertebrate nucleoporins Nup133 and Nup160 play a role in mRNA export.

Authors: S Vasu; S Shah; A Orjalo; M Park; W H Fischer; D J Forbes
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10. Cell type-specific nuclear pores: a case in point for context-dependent stoichiometry of molecular machines.

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202 in total

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2. RNA-protein interaction detection in living cells.

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Probing nuclear pore complex architecture with proximity-dependent biotinylation.

1. The N-terminal domain of the mammalian nucleoporin p62 interacts with other nucleoporins of the FXFG family during interphase.

Review 2. Functional architecture of the nuclear pore complex.

3. Biotin ligase tagging identifies proteins proximal to E-cadherin, including lipoma preferred partner, a regulator of epithelial cell-cell and cell-substrate adhesion.

4. Cytoplasmic annulate lamellae in cultured cells: composition, distribution, and mitotic behavior.

5. Protein interaction network of the mammalian Hippo pathway reveals mechanisms of kinase-phosphatase interactions.

6. Nup358/RanBP2 attaches to the nuclear pore complex via association with Nup88 and Nup214/CAN and plays a supporting role in CRM1-mediated nuclear protein export.

7. The C-terminal domain of Nup93 is essential for assembly of the structural backbone of nuclear pore complexes.

8. A promiscuous biotin ligase fusion protein identifies proximal and interacting proteins in mammalian cells.

9. Novel vertebrate nucleoporins Nup133 and Nup160 play a role in mRNA export.

10. Cell type-specific nuclear pores: a case in point for context-dependent stoichiometry of molecular machines.

1. Agonist-specific Protein Interactomes of Glucocorticoid and Androgen Receptor as Revealed by Proximity Mapping.

2. RNA-protein interaction detection in living cells.

3. Nup133 Is Required for Proper Nuclear Pore Basket Assembly and Dynamics in Embryonic Stem Cells.

4. Proximity-dependent biotin labelling in yeast using the engineered ascorbate peroxidase APEX2.

Review 5. Toward the atomic structure of the nuclear pore complex: when top down meets bottom up.

6. Probing mammalian centrosome structure using BioID proximity-dependent biotinylation.

7. Mapping the native organization of the yeast nuclear pore complex using nuclear radial intensity measurements.

8. BioID as a Tool for Protein-Proximity Labeling in Living Cells.

Review 9. Filling the Void: Proximity-Based Labeling of Proteins in Living Cells.

10. Direct Proximity Tagging of Small Molecule Protein Targets Using an Engineered NEDD8 Ligase.