Axonemal protofilament ribbons, DM10 domains, and the link to juvenile myoclonic epilepsy

King, Stephen M.

doi:10.1002/cm.20129

Cited by 50 publications

(35 citation statements)

References 42 publications

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“…How the human mutations of EFHC1 interfere with its function at the mitotic apparatus and how they might contribute to epilepsy through its role in mitosis and/or cilia associated function [27] is currently being investigated in our laboratory. 5 -The N-terminus of EFHC1 mediates its association with the mitotic spindle.…”

Section: Discussionmentioning

confidence: 99%

EFHC1, a protein mutated in juvenile myoclonic epilepsy, associates with the mitotic spindle through its N-terminus

Nijs

Lakaye

Coumans

et al. 2006

Experimental Cell Research

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Section: Discussionmentioning

confidence: 99%

EFHC1, a protein mutated in juvenile myoclonic epilepsy, associates with the mitotic spindle through its N-terminus

Nijs

Lakaye

Coumans

et al. 2006

Experimental Cell Research

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“…For many of these genes, the works by Baron et al and Broadhead et al represent, to our knowledge, the first time that the connection to human disease has been made and, in some cases, the first functional characterization. For example, while it was known that protofilament ribbon protein 72 (Rib72) was biochemically associated with flagellar protofilament ribbons (Patel-King, 2002;Ikeda and Kamiya, 2003), and that mutations in Rib72 are associated with juvenile myoclonic epilepsy (Suzuki et al, 2004;King, 2006), studies in T. brucei demonstrated a requirement for Rib72 in flagellar motility (Baron et al, 2007b). Similarly, mutations in hydin induce hydrocephalus and studies in T. brucei were among the first to show a specific flagellum function, demonstrating that hydin knockdown leads to defects in the positioning and formation/ stability of the axonemal central pair (Broadhead et al, 2006;Dawe et al, 2007;Lechtreck and Witman, 2007).…”

Section: Flagellum Composition Revealed Through Genomic and Proteomicmentioning

confidence: 99%

The flagellum of Trypanosoma brucei: New tricks from an old dog

Ralston

Hill

2008

International Journal for Parasitology

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African trypanosomes, i.e. Trypanosoma brucei and related sub-species, are devastating human and animal pathogens that cause significant human mortality and limit sustained economic development in sub-Saharan Africa. Trypanosoma brucei is a highly motile protozoan parasite and coordinated motility is central to both disease pathogenesis in the mammalian host and parasite development in the tsetse fly vector. Since motility is critical for parasite development and pathogenesis, understanding unique aspects of the T. brucei flagellum may uncover novel targets for therapeutic intervention in African sleeping sickness. Moreover, studies of conserved features of the T. brucei flagellum are directly relevant to understanding fundamental aspects of flagellum and cilium function in other eukaryotes, making T. brucei an important model system. The T. brucei flagellum contains a canonical 9 + 2 axoneme, together with additional features that are unique to kinetoplastids and a few closely-related organisms. Until recently, much of our knowledge of the structure and function of the trypanosome flagellum was based on analogy and inference from other organisms. There has been an explosion in functional studies in T. brucei in recent years, revealing conserved as well as novel and unexpected structural and functional features of the flagellum. Most notably, the flagellum has been found to be an essential organelle, with critical roles in parasite motility, morphogenesis, cell division and immune evasion. This review highlights recent discoveries on the T. brucei flagellum.

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“…According to this hypothesis of ciliary origin, the original invading virus would deliver tektin and associated ribbon proteins, e.g. rib74 [Linck and Norrander, 2003;King, 2006]-as well as unique tubulin genes, to the forming eukaryotic cell, making possible the polymerization of the compound microtubules of the centriole, and later of the axoneme. Tektins are immunologically and structurally related to intermediate filament proteins [Chang and Piperno, 1987;Steffen and Linck, 1989].…”

Section: Unique Centriolar Proteinsmentioning

confidence: 99%

Evolution and persistence of the cilium

Satir

Guerra

Bell

2007

Cell Motil. Cytoskeleton

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The origin of cilia, a fundamental eukaryotic organelle, not present in prokaryotes, poses many problems, including the origins of motility and sensory function, the origins of nine-fold symmetry, of basal bodies, and of transport and selective mechanisms involved in ciliogenesis. We propose the basis of ciliary origin to be a self-assembly RNA enveloped virus that contains unique tubulin and tektin precursors. The virus becomes the centriole and basal body, which would account for the self-assembly and self-replicative properties of these organelles, in contrast to previous proposals of spirochaete origin or endogenous differentiation, which do not readily account for the centriole or its properties. The viral envelope evolves into a sensory bud. The host cell supplies the transport machinery and molecular motors to construct the axoneme. Polymerization of cytoplasmic microtubules in the 9 1 0 axoneme completes the 9 1 2 pattern. Cell Motil. Cytoskeleton 64: 906-913, 2007. ' 2007

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Axonemal protofilament ribbons, DM10 domains, and the link to juvenile myoclonic epilepsy

Cited by 50 publications

References 42 publications

EFHC1, a protein mutated in juvenile myoclonic epilepsy, associates with the mitotic spindle through its N-terminus

EFHC1, a protein mutated in juvenile myoclonic epilepsy, associates with the mitotic spindle through its N-terminus

The flagellum of Trypanosoma brucei: New tricks from an old dog

Evolution and persistence of the cilium

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