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[Preprint]. 2023 Feb 23:2023.02.23.529616.
doi: 10.1101/2023.02.23.529616.

MAP9/MAPH-9 supports axonemal microtubule doublets and modulates motor movement

Michael V TranJames W FergusonLauren E CoteDaria KhuntsariyaRichard D FetterJennifer T WangStephen R WellardMaria D SalleeMariya GenovaSani EskinaziMaria M MagieraCarsten JankeTim StearnsZdenek LanskyKang ShenJérémy MagescasJessica L Feldman

MAP9/MAPH-9 supports axonemal microtubule doublets and modulates motor movement

Michael V Tran et al. bioRxiv. .

Update in

  • MAP9/MAPH-9 supports axonemal microtubule doublets and modulates motor movement.
    Tran MV, Khuntsariya D, Fetter RD, Ferguson JW, Wang JT, Long AF, Cote LE, Wellard SR, Vázquez-Martínez N, Sallee MD, Genova M, Magiera MM, Eskinazi S, Lee JD, Peel N, Janke C, Stearns T, Shen K, Lansky Z, Magescas J, Feldman JL. Tran MV, et al. Dev Cell. 2024 Jan 22;59(2):199-210.e11. doi: 10.1016/j.devcel.2023.12.001. Epub 2023 Dec 29. Dev Cell. 2024. PMID: 38159567 Free PMC article.

Abstract

Microtubule doublets (MTDs) are a well conserved compound microtubule structure found primarily in cilia. However, the mechanisms by which MTDs form and are maintained in vivo remain poorly understood. Here, we characterize microtubule-associated protein 9 (MAP9) as a novel MTD-associated protein. We demonstrate that C. elegans MAPH-9, a MAP9 homolog, is present during MTD assembly and localizes exclusively to MTDs, a preference that is in part mediated by tubulin polyglutamylation. Loss of MAPH-9 caused ultrastructural MTD defects, dysregulated axonemal motor velocity, and perturbed cilia function. As we found that the mammalian ortholog MAP9 localized to axonemes in cultured mammalian cells and mouse tissues, we propose that MAP9/MAPH-9 plays a conserved role in supporting the structure of axonemal MTDs and regulating ciliary motors.

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