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Literature DB >> 16495338

FUS1 regulates the opening and expansion of fusion pores between mating yeast.

Scott Nolan¹, Ann E Cowan, Dennis E Koppel, Hui Jin, Eric Grote.

Abstract

Mating yeast cells provide a genetically accessible system for the study of cell fusion. The dynamics of fusion pores between yeast cells were analyzed by following the exchange of fluorescent markers between fusion partners. Upon plasma membrane fusion, cytoplasmic GFP and DsRed diffuse between cells at rates proportional to the size of the fusion pore. GFP permeance measurements reveal that a typical fusion pore opens with a burst and then gradually expands. In some mating pairs, a sudden increase in GFP permeance was found, consistent with the opening of a second pore. In contrast, other fusion pores closed after permitting a limited amount of cytoplasmic exchange. Deletion of FUS1 from both mating partners caused a >10-fold reduction in the initial permeance and expansion rate of the fusion pore. Although fus1 mating pairs also have a defect in degrading the cell wall that separates mating partners before plasma membrane fusion, other cell fusion mutants with cell wall remodeling defects had more modest effects on fusion pore permeance. Karyogamy is delayed by >1 h in fus1 mating pairs, possibly as a consequence of retarded fusion pore expansion.

Entities: Disease Gene Species

Mesh：

Substances：
Fungal Proteins

Year: 2006 PMID： 16495338 PMCID： PMC1446097 DOI： 10.1091/mbc.e05-11-1015

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

75 in total

1. Amino acid sequence requirements of the transmembrane and cytoplasmic domains of influenza virus hemagglutinin for viable membrane fusion.

Authors: G B Melikyan; S Lin; M G Roth; F S Cohen
Journal: Mol Biol Cell Date: 1999-06 Impact factor: 4.138

FUS1 regulates the opening and expansion of fusion pores between mating yeast.

1. Amino acid sequence requirements of the transmembrane and cytoplasmic domains of influenza virus hemagglutinin for viable membrane fusion.

2. Fusion of bone-marrow-derived cells with Purkinje neurons, cardiomyocytes and hepatocytes.

3. The molecular structure of green fluorescent protein.

4. Protein mobility in the cytoplasm of Escherichia coli.

5. Role of the fusion peptide sequence in initial stages of influenza hemagglutinin-induced cell fusion.

6. Cell surface polarization during yeast mating.

7. New potential cell wall glucanases of Saccharomyces cerevisiae and their involvement in mating.

8. O-glycosylation as a sorting determinant for cell surface delivery in yeast.

Review 9. Yeast vacuole inheritance and dynamics.

10. Synaptotagmin VII restricts fusion pore expansion during lysosomal exocytosis.

1. Prm1 targeting to contact sites enhances fusion during mating in Saccharomyces cerevisiae.

2. Genetic control of fusion pore expansion in the epidermis of Caenorhabditis elegans.

3. The class V myosin Myo2p is required for Fus2p transport and actin polarization during the yeast mating response.

4. The exomer coat complex transports Fus1p to the plasma membrane via a novel plasma membrane sorting signal in yeast.

5. Flow cytometry-based purification of S. cerevisiae zygotes.

6. Plasma membrane polarization during mating in yeast cells.

7. Prm1 functions as a disulfide-linked complex in yeast mating.

8. Detection of hyphal fusion in filamentous fungi using differently fluorescence-labeled histones.

9. Fusion-pore expansion during syncytium formation is restricted by an actin network.

10. A role for a complex between activated G protein-coupled receptors in yeast cellular mating.