Central Apparatus, the Molecular Kickstarter of Ciliary and Flagellar Nanomachines

Samsel, Zuzanna; Sekretarska, Justyna; Osinka, Anna; Włoga, Dorota; Joachimiak, Ewa

doi:10.3390/ijms22063013

Cited by 15 publications

(14 citation statements)

References 148 publications

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“…The central microtubules, C1 and C2, are linked by so-called bridge and are a docking site for C1a-C1f and C2a-C2e complexes, called projections, and together form so-called central apparatus (CA). The CA projections differ in their size, architecture, protein composition, and likely function 3 , 4 . In consequence, the CA is asymmetric, which could be important for the generation of asymmetric waveforms.…”

Section: Introductionmentioning

confidence: 99%

Composition and function of the C1b/C1f region in the ciliary central apparatus

Joachimiak

Osinka

Farahat

et al. 2021

Sci Rep

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Motile cilia are ultrastructurally complex cell organelles with the ability to actively move. The highly conserved central apparatus of motile 9 × 2 + 2 cilia is composed of two microtubules and several large microtubule-bound projections, including the C1b/C1f supercomplex. The composition and function of C1b/C1f subunits has only recently started to emerge. We show that in the model ciliate Tetrahymena thermophila, C1b/C1f contains several evolutionarily conserved proteins: Spef2A, Cfap69, Cfap246/LRGUK, Adgb/androglobin, and a ciliate-specific protein Tt170/TTHERM_00205170. Deletion of genes encoding either Spef2A or Cfap69 led to a loss of the entire C1b projection and resulted in an abnormal vortex motion of cilia. Loss of either Cfap246 or Adgb caused only minor alterations in ciliary motility. Comparative analyses of wild-type and C1b-deficient mutant ciliomes revealed that the levels of subunits forming the adjacent C2b projection but not C1d projection are greatly reduced, indicating that C1b stabilizes C2b. Moreover, the levels of several IFT and BBS proteins, HSP70, and enzymes that catalyze the final steps of the glycolytic pathway: enolase ENO1 and pyruvate kinase PYK1, are also reduced in the C1b-less mutants.

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Section: Introductionmentioning

confidence: 99%

Composition and function of the C1b/C1f region in the ciliary central apparatus

Joachimiak

Osinka

Farahat

et al. 2021

Sci Rep

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“…On a deeper, subcellular level where structures have always been regarded as maximally conserved, the cilium reveals an unexpected heterogeneity of its central apparatus' protein composition: two recent proteomic studies of flagella in the Chlamydomonas green alga identified ~40 novel candidate proteins, of which only 15 have human orthologues, whereas the central apparatus' functionality and ultrastructural morphology remain universally stable (see Samsel et al [2021] for a review). Certainly, this evidence does not question the homology of eukaryotic cilium, although it does elicit that even critically important end‐function genes are prone to significant evolutionary change, which may not affect morphology or primary function.…”

Section: Implications Of Cell Type Theory In Evo‐devo Studiesmentioning

confidence: 99%

Evolution of homology: From archetype towards a holistic concept of cell type

Rusin

2023

Journal of Morphology

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“…Two central microtubules (grey), together with associated complexes, a connecting bridge and projections (yellow), form a central apparatus. Main outer doublets (grey) complexes: outer dynein arms (ODAs, greenish), inner dynein arms (IDAs, purple), radial spokes (RSs, dark grey), nexin-dynein regulatory complex (N-DRC, orange); ( B ) Fragment of the outer doublet showing organization of ciliary complexes within a 96-nm outer doublet axonemal unit [ 9 , 10 ]. ODA (7K5B, PDB DOI: 10.2210/pdb7K5B/pdb [ 11 ]) and RS (7JTK, PDB DOI: 10.2210/pdb7JTK/pdb [ 12 ]) structures were obtained from a Protein Data Bank ( (accessed on 20 November 2022)).…”

Section: Figurementioning

confidence: 99%

Cfap91-Dependent Stability of the RS2 and RS3 Base Proteins and Adjacent Inner Dynein Arms in Tetrahymena Cilia

Joachimiak

Urbańska

Osinka

et al. 2022

Cells

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Motile cilia and eukaryotic flagella are specific cell protrusions that are conserved from protists to humans. They are supported by a skeleton composed of uniquely organized microtubules—nine peripheral doublets and two central singlets (9 × 2 + 2). Microtubules also serve as docking sites for periodically distributed multiprotein ciliary complexes. Radial spokes, the T-shaped ciliary complexes, repeat along the outer doublets as triplets and transduce the regulatory signals from the cilium center to the outer doublet-docked dynein arms. Using the genetic, proteomic, and microscopic approaches, we have shown that lack of Tetrahymena Cfap91 protein affects stable docking/positioning of the radial spoke RS3 and the base of RS2, and adjacent inner dynein arms, possibly due to the ability of Cfap91 to interact with a molecular ruler protein, Ccdc39. The localization studies confirmed that the level of RS3-specific proteins, Cfap61 and Cfap251, as well as RS2-associated Cfap206, are significantly diminished in Tetrahymena CFAP91-KO cells. Cilia of Tetrahymena cells with knocked-out CFAP91 beat in an uncoordinated manner and their beating frequency is dramatically reduced. Consequently, CFAP91-KO cells swam about a hundred times slower than wild-type cells. We concluded that Tetrahymena Cfap91 localizes at the base of radial spokes RS2 and RS3 and likely plays a role in the radial spoke(s) positioning and stability.

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Central Apparatus, the Molecular Kickstarter of Ciliary and Flagellar Nanomachines

Cited by 15 publications

References 148 publications

Composition and function of the C1b/C1f region in the ciliary central apparatus

Composition and function of the C1b/C1f region in the ciliary central apparatus

Evolution of homology: From archetype towards a holistic concept of cell type

Cfap91-Dependent Stability of the RS2 and RS3 Base Proteins and Adjacent Inner Dynein Arms in Tetrahymena Cilia

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