Sascha Werner scite author profile

Cilia are evolutionarily conserved structures with many sensory and motility-related functions. The ciliary base, composed of the basal body and the transition zone, is critical for cilia assembly and function, but its contribution to cilia diversity remains unknown. Hence, we generated a high-resolution structural and biochemical atlas of the ciliary base of four functionally distinct neuronal and sperm cilia types within an organism, Drosophila melanogaster. We uncovered a common scaffold and diverse structures associated with different localization of 15 evolutionarily conserved components. Furthermore, CEP290 (also known as NPHP6) is involved in the formation of highly diverse transition zone links. In addition, the cartwheel components SAS6 and ANA2 (also known as STIL) have an underappreciated role in basal body elongation, which depends on BLD10 (also known as CEP135). The differential expression of these cartwheel components contributes to diversity in basal body length. Our results offer a plausible explanation to how mutations in conserved ciliary base components lead to tissue-specific diseases.

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Maintaining centrosomes and cilia

Werner

Pimenta-Marques

Bettencourt-Dias

2017

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Centrosomes and cilia are present in organisms from all branches of the eukaryotic tree of life. These structures are composed of microtubules and various other proteins, and are required for a plethora of cell processes such as structuring the cytoskeleton, sensing the environment, and motility. Deregulation of centrosome and cilium components leads to a wide range of diseases, some of which are incompatible with life. Centrosomes and cilia are thought to be very stable and can persist over long periods of time. However, these structures can disappear in certain developmental stages and diseases. Moreover, some centrosome and cilia components are quite dynamic. While a large body of knowledge has been produced regarding the biogenesis of these structures, little is known about how they are maintained. In this Review, we propose the existence of specific centrosome and cilia maintenance programs, which are regulated during development and homeostasis, and when deregulated can lead to disease.

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Human essential myosin light chain isoforms revealed distinct myosin binding, sarcomeric sorting, and inotropic activity

Petzhold

Lossie

Keller

et al. 2011

Cardiovascular Research

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Mutations of ventricular essential myosin light chain disturb myosin binding and sarcomeric sorting

Lossie

Ushakov

Ferenczi

et al. 2011

Cardiovascular Research

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Sascha Werner

Differential regulation of transition zone and centriole proteins contributes to ciliary base diversity

Maintaining centrosomes and cilia

Human essential myosin light chain isoforms revealed distinct myosin binding, sarcomeric sorting, and inotropic activity

Mutations of ventricular essential myosin light chain disturb myosin binding and sarcomeric sorting

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