The native structure of cytoplasmic dynein at work translocating vesicles in Paramecium
Autor: | Agnes K. Fok, Masaki Ishida, Richard D. Allen, Marilynn S. Aihara |
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Rok vydání: | 2011 |
Předmět: |
Paramecium
Histology Endosome Phagosome acidification Protein subunit Dynein Fluorescent Antibody Technique macromolecular substances Microtubules Pathology and Forensic Medicine Cell Movement Microtubule Phagosomes Phagosome biology Vesicle Cytoplasmic Vesicles Antibodies Monoclonal Dyneins Membrane Transport Proteins Biological Transport Cell Biology General Medicine biology.organism_classification Cell biology Microscopy Electron sense organs |
Zdroj: | European Journal of Cell Biology. 90:81-92 |
ISSN: | 0171-9335 |
DOI: | 10.1016/j.ejcb.2010.08.005 |
Popis: | In Paramecium multimicronucleatum, the discoidal vesicles, the acidosomes and the 100-nm carrier vesicles are involved in phagosome formation, phagosome acidification and endosomal processing, respectively. Numerous cross bridges link these vesicles to the kinetic side of the microtubules of a cytopharyngeal microtubular ribbon. Vesicles are translocated along these ribbons in a minus-end direction towards the cytopharynx. A monoclonal antibody specific for the light vanadate-photocleaved fragment of the heavy chain of cytoplasmic dynein was used to show that this dynein is located between the discoidal vesicles and the ribbons as well as on the cytosolic surface of the acidosomes and the 100-nm carrier vesicles. This antibody inhibited the docking of the vesicles to the microtubular ribbons so that the transport of discoidal vesicles and acidosomes were reduced by 60% and 70%, respectively. It had little effect on the dynein's velocity of translocation. These results show that cytoplasmic dynein is the motor for vesicle translocation and its location, between the vesicles and the ribbons, indicates that the cross bridges seen at this location in thin sections and in quick-frozen, deep-etched replicas are apparently the working dyneins. Such a working dynein cross bridge, as preserved by ultra-rapid freezing, is 54 nm long and has two legs arising from a globular head that appears to be firmly bound to its cargo vesicle and each leg consists of ≥3 beaded subunits with the last subunit making contact with the microtubular ribbon. |
Databáze: | OpenAIRE |
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