The MBO2/FAP58 heterodimer stabilizes assembly of inner arm dynein <i>b</i> and reveals axoneme asymmetries involved in ciliary waveform

Fu, Gang; Augspurger, Katherine; Sakizadeh, Jason; Reck, Jaimee; Bower, Raqual; Tritschler, Douglas; Gui, Long; Nicastro, Daniela; Porter, Mary E.

doi:10.1091/mbc.e23-11-0439

MBoC

2024

DOI: 10.1091/mbc.e23-11-0439

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The MBO2/FAP58 heterodimer stabilizes assembly of inner arm dynein b and reveals axoneme asymmetries involved in ciliary waveform

Gang Fu,

Katherine Augspurger,

Jason Sakizadeh

et al.

Abstract: Cilia generate three-dimensional waveforms required for cell motility and transport of fluid, mucus, and particles over the cell surface. This movement is driven by multiple dynein motors attached to nine outer doublet microtubules that form the axoneme. The outer and inner arm dyneins are organized into 96 nm repeats tandemly arrayed along the length of the doublets. Motility is regulated in part by projections from the two central pair microtubules that contact radial spokes located near the base of the inne… Show more

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Cited by 3 publications

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The mechanics of cilia and flagella: What we know and what we need to know

Lindemann,

Lesich

2024

Cytoskeleton

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In this review, we provide a condensed overview of what is currently known about the mechanical functioning of the flagellar/ciliary axoneme. We also present a list of 10 specific areas where our current knowledge is incomplete and explain the benefits of further experimental investigation. Many of the physical parameters of the axoneme and its component parts have not been determined. This limits our ability to understand how the axoneme structure contributes to its functioning in several regards. It restricts our ability to understand how the mechanics of the structure contribute to the regulation of motor function. It also confines our ability to understand the three‐dimensional workings of the axoneme and how various beating modes are accomplished. Lastly, it prevents accurate computational modeling of the axoneme in three‐dimensions.

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The mechanics of cilia and flagella: What we know and what we need to know

Lindemann,

Lesich

2024

Cytoskeleton

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An amino acid-resolution interactome for motile cilia identifies the structure and function of ciliopathy protein complexes

McCafferty,

Papoulas,

Lee

et al. 2024

Developmental Cell

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Motile Cilia in Female and Male Reproductive Tracts and Fertility

Wloga,

Joachimiak,

Osinka

et al. 2024

Cells

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Motile cilia are evolutionarily conserved organelles. In humans, multiciliated cells (MCCs), assembling several hundred motile cilia on their apical surface, are components of the monolayer epithelia lining lower and upper airways, brain ventricles, and parts of the reproductive tracts, the fallopian tube and uterus in females, and efferent ductules in males. The coordinated beating of cilia generates a force that enables a shift of the tubular fluid, particles, or cells along the surface of the ciliated epithelia. Uncoordinated or altered cilia motion or cilia immotility may result in subfertility or even infertility. Here, we summarize the current knowledge regarding the localization and function of MCCs in the human reproductive tracts, discuss how cilia and cilia beating-generated fluid flow directly and indirectly contribute to the processes in these organs, and how lack or improper functioning of cilia influence human fertility.

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The MBO2/FAP58 heterodimer stabilizes assembly of inner arm dynein b and reveals axoneme asymmetries involved in ciliary waveform

Cited by 3 publications

References 88 publications

The mechanics of cilia and flagella: What we know and what we need to know

The mechanics of cilia and flagella: What we know and what we need to know

An amino acid-resolution interactome for motile cilia identifies the structure and function of ciliopathy protein complexes

Motile Cilia in Female and Male Reproductive Tracts and Fertility

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