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PLoS Negl Trop Dis. 2016 Jan 28;10(1):e0004312. doi: 10.1371/journal.pntd.0004312. eCollection 2016 Jan.

3D Architecture of the Trypanosoma brucei Flagella Connector, a Mobile Transmembrane Junction.

Author information

1
Sir William Dunn School of Pathology, University of Oxford, Oxford, United Kingdom.
2
The Boulder Laboratory for 3D Electron Microscopy of Cells, Department of MCD Biology, University of Colorado, Boulder, Colorado, United States of America.
3
FEI Company, Hillsboro, Oregon, United States of America.

Abstract

BACKGROUND:

Cellular junctions are crucial for the formation of multicellular organisms, where they anchor cells to each other and/or supportive tissue and enable cell-to-cell communication. Some unicellular organisms, such as the parasitic protist Trypanosoma brucei, also have complex cellular junctions. The flagella connector (FC) is a three-layered transmembrane junction that moves with the growing tip of a new flagellum and attaches it to the side of the old flagellum. The FC moves via an unknown molecular mechanism, independent of new flagellum growth. Here we describe the detailed 3D architecture of the FC suggesting explanations for how it functions and its mechanism of motility.

METHODOLOGY/PRINCIPAL FINDINGS:

We have used a combination of electron tomography and cryo-electron tomography to reveal the 3D architecture of the FC. Cryo-electron tomography revealed layers of repetitive filamentous electron densities between the two flagella in the interstitial zone. Though the FC does not change in length and width during the growth of the new flagellum, the interstitial zone thickness decreases as the FC matures. This investigation also shows interactions between the FC layers and the axonemes of the new and old flagellum, sufficiently strong to displace the axoneme in the old flagellum. We describe a novel filament, the flagella connector fibre, found between the FC and the axoneme in the old flagellum.

CONCLUSIONS/SIGNIFICANCE:

The FC is similar to other cellular junctions in that filamentous proteins bridge the extracellular space and are anchored to underlying cytoskeletal structures; however, it is built between different portions of the same cell and is unique because of its intrinsic motility. The detailed description of its structure will be an important tool to use in attributing structure / function relationships as its molecular components are discovered in the future. The FC is involved in the inheritance of cell shape, which is important for the life cycle of this human parasite.

PMID:
26820516
PMCID:
PMC4731218
DOI:
10.1371/journal.pntd.0004312
[Indexed for MEDLINE]
Free PMC Article

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