The molecular structure of IFT-A and IFT-B in anterograde intraflagellar transport trains

Article Biochemistry & Molecular Biology

Cryo-EM structure of an active central apparatus

Long Han et al.

Summary: In this study, the authors solve cryo-EM structures of the central apparatus of motile cilia and analyze its dynamic conformations to elucidate the mechanism of ciliary beating.

NATURE STRUCTURAL & MOLECULAR BIOLOGY (2022)

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Article Biochemistry & Molecular Biology

Conversion of anterograde into retrograde trains is an intrinsic property of intraflagellar transport

Adrian Pascal Nievergelt et al.

Summary: Cilia or eukaryotic flagella are microtubule-based organelles involved in intraflagellar transport (IFT), a system that moves cargo required for their assembly and maintenance. Previous studies suggested the presence of specific machinery at the ciliary tip to control IFT, but this research shows that IFT can be induced at arbitrary distances from the tip, independent of calcium ions.

CURRENT BIOLOGY (2022)

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Article Biology

Integrative modeling reveals the molecular architecture of the intraflagellar transport A (IFT-A) complex

Caitlyn L. McCafferty et al.

Summary: Intraflagellar transport (IFT) is a crucial process for cargo transport in cilia and is associated with the etiology of genetic diseases. This study combines experimental and computational approaches to determine the overall structure of IFT and provide insights into the pleiotropic nature of ciliopathy-associated genetic variants.

ELIFE (2022)

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Article Multidisciplinary Sciences

In situ architecture of the ciliary base reveals the stepwise assembly of intraflagellar transport trains

Hugo van den Hoek et al.

Summary: The cilium is an organelle similar to an antenna that plays various important roles in cellular functions. The base of the cilium has a selective barrier that controls the entry of large cargo proteins required for ciliary assembly and maintenance. This study used in situ cryo-electron tomography and ultrastructure expansion microscopy to reveal the native structures of the ciliary base and the assembly process of IFT trains.

SCIENCE (2022)

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Article Biochemistry & Molecular Biology

IFT-A structure reveals carriages for membrane protein transport into cilia

Sophie J. Hesketh et al.

Summary: In this study, researchers successfully reconstituted the complete human IFT-A complex and determined its structure using cryo-EM. They discovered how IFT-A interacts with IFT-B and uses specific domains to create carriages for protein transport in the IFT train. The results also highlight the essential role of IFT-A and TULP adaptor proteins in cilia localization and regulation of protein transport speed by the key kinase ICK.

CELL (2022)

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Article Biochemistry & Molecular Biology

Biochemically validated structural model of the 15-subunit intraflagellar transport complex IFT-B

Narcis A. Petriman et al.

Summary: Cilia are essential organelles for cellular functions such as motility, signaling, and sensory reception. In this study, the researchers used Alphafold to model the structure of the IFT-B complex, which is involved in cilium formation. The results provide insights into the assembly and function of the IFT-B complex.

EMBO JOURNAL (2022)

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Article Biochemistry & Molecular Biology

UCSF ChimeraX: Structure visualization for researchers, educators, and developers

Eric F. Pettersen et al.

Summary: UCSF ChimeraX is a powerful visualization program with enhanced performance and graphics, offering new tools and analysis features, support for various areas like virtual reality, and improved ease of use, along with an app store for researchers to contribute new tools.

PROTEIN SCIENCE (2021)

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Article Biochemistry & Molecular Biology

IFT54 directly interacts with kinesin-II and IFT dynein to regulate anterograde intraflagellar transport

Xin Zhu et al.

Summary: This study revealed that the IFT-B protein IFT54 interacts with both kinesin-II and IFT dynein, regulating anterograde transport. Deletions of specific residues in IFT54 resulted in disrupted anterograde trafficking of IFT, with accumulations of IFT motors and complexes in different regions of cilia. This suggests a central role for IFT54 in binding IFT motors during anterograde transport.

EMBO JOURNAL (2021)

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Article Cell Biology

Cooperation of the IFT-A complex with the IFT-B complex is required for ciliary retrograde protein trafficking and GPCR import

Takuya Kobayashi et al.

Summary: The study demonstrates the important role of IFT-A's IFT144-IFT122 and IFT-B's IFT88-IFT52 in mediating ciliary transport through their cooperation, facilitating the entry of GPCRs and retrograde trafficking of the IFT machinery from the ciliary tip.

MOLECULAR BIOLOGY OF THE CELL (2021)

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Article Biochemistry & Molecular Biology

Impaired cooperation between IFT74/BBS22-IFT81 and IFT25-IFT27/BBS19 causes Bardet-Biedl syndrome

Zhuang Zhou et al.

Summary: The impaired interaction between IFT74-IFT81 and IFT25-IFT27 is found to cause BBS-associated ciliary defects in this study.

HUMAN MOLECULAR GENETICS (2021)

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Article Biochemical Research Methods

Multi-particle cryo-EM refinement with M visualizes ribosome-antibiotic complex at 3.5 Å in cells

Dimitry Tegunov et al.

Summary: The software tool M establishes a reference-based multi-particle refinement framework for cryo-EM data and enables residue-level structure determination inside cells when combined with CTF correction and map denoising.

NATURE METHODS (2021)

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Article Cell Biology

The structural basis of intraflagellar transport at a glance

Mareike A. Jordan et al.

Summary: The intraflagellar transport (IFT) system is a crucial molecular machine used by cells to assemble and maintain the cilium, shuttling structural components and signaling receptors within the organelle. IFT trains, composed of IFT-A and IFT-B adaptor protein complexes, are powered by kinesin-2 and IFT-dynein motors for bidirectional movement along microtubules.

JOURNAL OF CELL SCIENCE (2021)

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Article Biochemistry & Molecular Biology

Disease related single point mutations alter the global dynamics of a tetratricopeptide (TPR) α-solenoid domain

Salome Llabres et al.

JOURNAL OF STRUCTURAL BIOLOGY (2020)

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Article Genetics & Heredity

FLS2 is a CDK-like kinase that directly binds IFT70 and is required for proper ciliary disassembly in Chlamydomonas

Qin Zhao et al.

PLOS GENETICS (2020)

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Review Genetics & Heredity

The Human Gene Mutation Database (HGMD(R)): optimizing its use in a clinical diagnostic or research setting

Peter D. Stenson et al.

HUMAN GENETICS (2020)

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Review Urology & Nephrology

Cellular signalling by primary cilia in development, organ function and disease

Zeinab Anvarian et al.

NATURE REVIEWS NEPHROLOGY (2019)

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Article Biochemistry & Molecular Biology

Binding of IFT22 to the intraflagellar transport complex is essential for flagellum assembly

Stefanie Wachter et al.

EMBO JOURNAL (2019)

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Article Biochemistry & Molecular Biology

Human IFT52 mutations uncover a novel role for the protein in microtubule dynamics and centrosome cohesion

Marie Alice Dupont et al.

HUMAN MOLECULAR GENETICS (2019)

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Article Chemistry, Multidisciplinary

Namdinator - automatic molecular dynamics flexible fitting of structural models into cryo-EM and crystallography experimental maps

Rune Thomas Kidmose et al.

IUCRJ (2019)

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Article Biochemistry & Molecular Biology

Structure of the dynein-2 complex and its assembly with intraflagellar transport trains

Katerina Toropova et al.

NATURE STRUCTURAL & MOLECULAR BIOLOGY (2019)

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Article Biochemical Research Methods

Real-time cryo-electron microscopy data preprocessing with Warp

Dimitry Tegunov et al.

NATURE METHODS (2019)

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Article Cell Biology

The IDA3 adapter, required for intraflagellar transport of I1 dynein, is regulated by ciliary length

Emily L. Hunter et al.

MOLECULAR BIOLOGY OF THE CELL (2018)

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Article Biology

Crystal structure of intraflagellar transport protein 80 reveals a homo-dimer required for ciliogenesis

Michael Taschner et al.

ELIFE (2018)

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Article Cell Biology

In vivo analysis of outer arm dynein transport reveals cargo-specific intraflagellar transport properties

Jin Dai et al.

MOLECULAR BIOLOGY OF THE CELL (2018)

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Article Cell Biology

The cryo-EM structure of intraflagellar transport trains reveals how dynein is inactivated to ensure unidirectional anterograde movement in cilia

Mareike A. Jordan et al.

NATURE CELL BIOLOGY (2018)

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Article Multidisciplinary Sciences

Membrane association and remodeling by intraflagellar transport protein IFT172

Qianmin Wang et al.

NATURE COMMUNICATIONS (2018)

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Article Biology

New tools for automated high-resolution cryo-EM structure determination in RELION-3

Jasenko Zivanov et al.

ELIFE (2018)

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Structural basis of outer dynein arm intraflagellar transport by the transport adaptor protein ODA16 and the intraflagellar transport protein IFT46

Michael Taschner et al.

JOURNAL OF BIOLOGICAL CHEMISTRY (2017)

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Article Cell Biology

The N-terminus of IFT46 mediates intraflagellar transport of outer arm dynein and its cargo-adaptor ODA16

Yuqing Hou et al.

MOLECULAR BIOLOGY OF THE CELL (2017)

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Review Cell Biology

Genes and molecular pathways underpinning ciliopathies

Jeremy F. Reiter et al.

NATURE REVIEWS MOLECULAR CELL BIOLOGY (2017)

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Intraflagellar transport proteins 172, 80, 57, 54, 38, and 20 form a stable tubulin-binding IFT-B2 complex

Michael Taschner et al.

EMBO JOURNAL (2016)

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Article Biochemistry & Molecular Biology

Overall Architecture of the Intraflagellar Transport (IFT)-B Complex Containing Cluap1/IFT38 as an Essential Component of the IFT-B Peripheral Subcomplex

Yohei Katoh et al.

JOURNAL OF BIOLOGICAL CHEMISTRY (2016)

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The Intraflagellar Transport Machinery

Michael Taschner et al.

COLD SPRING HARBOR PERSPECTIVES IN BIOLOGY (2016)

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An organelle-specific protein landscape identifies novel diseases and molecular mechanisms

Karsten Boldt et al.

NATURE COMMUNICATIONS (2016)

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CTFFIND4: Fast and accurate defocus estimation from electron micrographs

Alexis Rohou et al.

JOURNAL OF STRUCTURAL BIOLOGY (2015)

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Article Cell Biology

Crystal structures of IFT70/52 and IFT52/46 provide insight into intraflagellar transport B core complex assembly

Michael Taschner et al.

JOURNAL OF CELL BIOLOGY (2014)

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TTC26/DYF13 is an intraflagellar transport protein required for transport of motility-related proteins into flagella

Hiroaki Ishikawa et al.

ELIFE (2014)

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Molecular Basis of Tubulin Transport Within the Cilium by IFT74 and IFT81

Sagar Bhogaraju et al.

SCIENCE (2013)

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Subunit Interactions and Organization of the Chlamydomonas reinhardtii Intraflagellar Transport Complex A Proteins

Robert H. Behal et al.

JOURNAL OF BIOLOGICAL CHEMISTRY (2012)

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Dissecting the Sequential Assembly and Localization of Intraflagellar Transport Particle Complex B in Chlamydomonas

Elizabeth A. Richey et al.

PLOS ONE (2012)

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Crystal structure of the intraflagellar transport complex 25/27

Sagar Bhogaraju et al.

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The Ndc80 kinetochore complex forms oligomeric arrays along microtubules

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NATURE (2010)

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Electron-tomographic analysis of intraflagellar transport particle trains in situ

Gaia Pigino et al.

JOURNAL OF CELL BIOLOGY (2009)

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The Chlamydomonas reinhardtii BBSome is an IFT cargo required for export of specific signaling proteins from flagella

Karl-Ferdinand Lechtreck et al.

JOURNAL OF CELL BIOLOGY (2009)

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Automated electron microscope tomography using robust prediction of specimen movements

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Intraflagellar transport (IFT) cargo: IFT transports flagellar precursors to the tip and turnover products to the cell body

HM Qin et al.

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Coot:: model-building tools for molecular graphics

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The bld1 mutation identifies the Chlamydomonas osm-6 homolog as a gene required for flagellar assembly

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The molecular structure of IFT-A and IFT-B in anterograde intraflagellar transport trains

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