Corbin Black scite author profile

Microtubules are cytoskeletal structures involved in stability, transport and organization in the cell. The building blocks, the α- and β-tubulin heterodimers, form protofilaments that associate laterally into the hollow microtubule. Microtubule also exists as highly stable doublet microtubules in the cilia where stability is needed for ciliary beating and function. The doublet microtubule maintains its stability through interactions at its inner and outer junctions where its A- and B-tubules meet. Here, using cryo-electron microscopy, bioinformatics and mass spectrometry of the doublets of Chlamydomonas reinhardtii and Tetrahymena thermophila, we identified two new inner junction proteins, FAP276 and FAP106, and an inner junction-associated protein, FAP126, thus presenting the complete answer to the inner junction identity and localization. Our structural study of the doublets shows that the inner junction serves as an interaction hub that involves tubulin post-translational modifications. These interactions contribute to the stability of the doublet and hence, normal ciliary motility.

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The Inner Junction Complex of the Cilia is an Interaction Hub that Involves Tubulin Post-translational Modifications

Khalifa

Ichikawa

Dai

et al. 2020

Biophysical Journal

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ABD) preferentially engages actin in the presence of mechanical load across actin filaments (''mechanoaccumulation''), while vinculin's ABD does not. Simultaneous optical trapping and confocal microscopy experiments demonstrate that a load of 1pN across actin activates a-catenin ABD binding. Atomic-resolution cryo-EM structures of the metavinculin ABD-actin (2.9Å ) and a-catenin ABD-actin (3.2Å ) complexes demonstrate both ABDs undergo major conformational changes upon actin engagement, prominently at their N-and C-termini, and their C-terminal regions differentially refold to bind distinct sites on the filament surface. A C-terminal truncation of a-catenin's ABD constitutively binds actin regardless of force, and a chimeric protein of vinculin's ABD featuring a-catenin's flexible termini gains mechanoaccumulation activity, suggesting the a-catenin C-terminus-actin interaction is necessary and sufficient for mechanically regulated binding. This work, for the first time, establishes a force-regulated actin-binding mechanism in structural detail, and lays the groundwork for the rational design of therapeutics targeting cytoskeletal mechanotransduction pathways.

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Remodeling and activation mechanisms of outer arm dyneins revealed by cryo‐EM

et al. 2021

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Cilia are thin microtubule‐based protrusions of eukaryotic cells. The swimming of ciliated protists and sperm cells is propelled by the beating of cilia. Cilia propagate the flow of mucus in the trachea and protect the human body from viral infections. The main force generators of ciliary beating are the outer dynein arms (ODAs) which attach to the doublet microtubules. The bending of cilia is driven by the ODAs' conformational changes caused by ATP hydrolysis. Here, we report the native ODA complex structure attaching to the doublet microtubule by cryo‐electron microscopy. The structure reveals how the ODA complex is attached to the doublet microtubule via the docking complex in its native state. Combined with coarse‐grained molecular dynamic simulations, we present a model of how the attachment of the ODA to the doublet microtubule induces remodeling and activation of the ODA complex.

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Native doublet microtubules from Tetrahymena thermophila reveal the importance of outer junction proteins

et al. 2023

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Cilia are ubiquitous eukaryotic organelles responsible for cellular motility and sensory functions. The ciliary axoneme is a microtubule-based cytoskeleton consisting of two central singlets and nine outer doublet microtubules. Cryo-electron microscopy-based studies have revealed a complex network inside the lumen of both tubules composed of microtubule-inner proteins (MIPs). However, the functions of most MIPs remain unknown. Here, we present single-particle cryo-EM-based analyses of the Tetrahymena thermophila native doublet microtubule and identify 42 MIPs. These data shed light on the evolutionarily conserved and diversified roles of MIPs. In addition, we identified MIPs potentially responsible for the assembly and stability of the doublet outer junction. Knockout of the evolutionarily conserved outer junction component CFAP77 moderately diminishes Tetrahymena swimming speed and beat frequency, indicating the important role of CFAP77 and outer junction stability in cilia beating generation and/or regulation.

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Native doublet microtubules fromTetrahymena thermophilareveal the importance of outer junction proteins

Kubo

Black

Joachimiak

et al. 2022

Preprint

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Cilia are ubiquitous eukaryotic organelles responsible for cellular motility and sensory functions. The ciliary axoneme is a microtubule-based cytoskeleton consisting of two central singlets and nine outer doublet microtubules. Cryo-electron microscopy-based studies have revealed a complex network inside the lumen of both tubules composed of microtubule-inner proteins (MIPs). However, the functions of most MIPs remain unknown. Here, we present single-particle cryo-EM-based analyses of the Tetrahymenathermophila native doublet microtubule and identify 38 MIPs. These data shed light on the evolutionarily conserved and diversified roles of MIPs. In addition, we identified MIPs potentially responsible for the assembly and stability of the doublet outer junction. Knockout of the evolutionarily conserved outer junction component CFAP77 moderately diminishes Tetrahymena swimming speed and beat frequency, indicating the important role of CFAP77 and outer junction stability in cilia beating generation and/or regulation.

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Corbin Black

The inner junction complex of the cilia is an interaction hub that involves tubulin post-translational modifications

The Inner Junction Complex of the Cilia is an Interaction Hub that Involves Tubulin Post-translational Modifications

Remodeling and activation mechanisms of outer arm dyneins revealed by cryo‐EM

Native doublet microtubules from Tetrahymena thermophila reveal the importance of outer junction proteins

Native doublet microtubules fromTetrahymena thermophilareveal the importance of outer junction proteins

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