Paulina Urbańska scite author profile

Cilia beating is powered by the inner and outer dynein arms (IDAs and ODAs). These multi-subunit macrocomplexes are arranged in two rows on each outer doublet along the entire cilium length, except its distal end. To generate cilia beating, the activity of ODAs and IDAs must be strictly regulated locally by interactions with the dynein arm-associated structures within each ciliary unit and coordinated globally in time and space between doublets and along the axoneme. Here, we provide evidence of a novel ciliary complex composed of two conserved WD-repeat proteins, Fap43p and Fap44p. This complex is adjacent to another WD-repeat protein, Fap57p, and most likely the two-headed inner dynein arm, IDA I1. Loss of either protein results in altered waveform, beat stroke and reduced swimming speed. The ciliary localization of Fap43p and Fap44p is interdependent in the ciliate Tetrahymena thermophila.Electronic supplementary materialThe online version of this article (10.1007/s00018-018-2819-7) contains supplementary material, which is available to authorized users.

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FAP206 is a microtubule-docking adapter for ciliary radial spoke 2 and dynein c

Vasudevan

Song

Alford

et al. 2015

MBoC

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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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Multiple phosphorylation sites on γ‐tubulin are essential and contribute to the biogenesis of basal bodies in Tetrahymena

Joachimiak

Jerka‐Dziadosz

Krzemień‐Ojak

et al. 2018

Journal Cellular Physiology

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The mechanisms that regulate γ-tubulin, including its post-translational modifications, are poorly understood. γ-Tubulin is important for the duplication of centrioles and structurally similar basal bodies (BBs), organelles which contain a ring of nine triplet microtubules. The ciliate Tetrahymena thermophila carries hundreds of cilia in a single cell and provides an excellent model to specifically address the role of γ-tubulin in the BBs assembly and maintenance. The genome of Tetrahymena contains a single γ-tubulin gene. We show here that there are multiple isoforms of γ-tubulin that are likely generated by post-translational modifications. We identified evolutionarily conserved serine and threonine residues as potential phosphosites of γ-tubulin, including S80, S129, S131, T283, and S360. Several mutations that either prevent (S80A, S131A, T283A, S360A) or mimic (T283D) phosphorylation were conditionally lethal and at a higher temperature phenocopied a loss of γ-tubulin. Cells that overproduced S360D γ-tubulin displayed phenotypes consistent with defects in the microtubule-dependent functions, including an asymmetric division of the macronucleus and abnormalities in the pattern of BB rows, including gaps, fragmentation, and misalignment. In contrast, overexpression of S129D γ-tubulin affected the orientation, docking, and structure of the BBs, including a loss of either the B- or C-subfibers or the entire triplets. We conclude that conserved potentially phosphorylated amino acids of γ-tubulin are important for either the assembly or stability of BBs.

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Computed tomography-assisted morphological assessment of the components of the temporomandibular joint – a pilot study

Stańczyk¹,

Lukashevich²,

Gorzkowska³

et al. 2020

New Med

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Introduction. Temporomandibular joint (TMJ) disorders are a common diagnostic problem. No universal radiological parameter of the analysis was introduced. Aim. Comparison of values of selected radiological parameters between asymptomatic patients and those with the TMJ arthropathy. Material and methods. Retrospective analysis of CT scans of patients of the Department of Dental and Maxillofacial Radiology and the Department of Cranio-Maxillofacial Surgery, Oral Surgery and Implantology, Medical University of Warsaw. Patients were divided into two groups: 1. without TMJ disorders, 2. with TMJ dysfunction symptoms. Following parameters of heads of mandible were analyzed bilaterally: shape, anteroposterior and lateromedial dimensions, the distance between lateral points of both heads (HL-HR), distance between a head and the mandibular fossa. The angle between the horizontal axis of the head of mandible and the line drawn by posterior points of heads of mandible was measured. Results. The most common type of the head of mandible in group 1 (40 patients; 13 women, 27 men) was convex (14 patients), in group 2 (16 patients; 14 women, 2 men) – plane (8 patients). Significant differences between groups were obtained for: GL-GP (group 1 – 120.35 mm, group 2 – 115.4 mm), dimensions of heads of mandible: lateromedial – 19.7 mm, 18.14 mm, anteroposterior – 8.03 mm, 7.04 mm for group 1 and 2, respectively. Conclusions. Computed tomography allowed for an accurate analysis of the TMJ components. Measurements of structures discussed in this work should be a part of the diagnosis of patients with TMJ dysfunction.

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Budowa rzęsek – od ultrastruktury do funkcji

Urbańska

Joachimiak

Bazan

et al. 2018

Kosmos

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Rzęski są strukturami zachowanymi w toku ewolucji, występującymi u większości Eukaryota. Ze względu na strukturę i pełnione funkcje wyróżnia się dwa typy rzęsek: nieruchome rzęski pierwotne, tworzone w fazie spoczynkowej cyklu komórkowego oraz rzęski ruchome. Rzęski pierwotne są odpowiedzialne za odbieranie i przekazywanie sygnałów ze środowiska do wnętrza komórki, natomiast rzęski ruchome umożliwiają ruch pojedynczych komórek, a w organizmach wielokomórkowych, w tym u człowieka, przemieszczanie wydzielin lub drobin wzdłuż powierzchni komórek nabłonka wyścielającego m.in. drogi oddechowe, jajowód i komory mózgowia. Szkielet obu typów rzęsek, tzw. aksomena, zbudowany jest z dziewięciu obwodowych par mikrotubul. Rzęski ruchome mają dodatkowo dwie mikrotubule centralne, które wraz z przyłączonymi do nich kompleksami białkowymi tworzą kompleks pary centralnej, oraz makrokompleksy białek przyłączone do mikrotubul obwodowych. Makrokompleksy te są rozmieszczone periodycznie wzdłuż mikrotubul obwodowych, tworząc wzór powtarzający się co 96 nm. W każdym powtórzeniu znajdują się cztery zewnętrzne ramiona dyneinowe, siedem wewnętrznych ramion dyneinowych, trzy promienie łączące, po jednym kompleksie N-DRC i MIA, oraz inne, mniejsze kompleksy. Skoordynowane działanie tych makrokompleksów jest niezbędne do prawidłowego ruchu rzęsek.

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