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Uncovering structural themes across cilia microtubule inner proteins with implications for human cilia function.

Nature communications (2024-03-28)
Jens S Andersen, Aaran Vijayakumaran, Christopher Godbehere, Esben Lorentzen, Vito Mennella, Kenneth Bødtker Schou
RESUMEN

Centrosomes and cilia are microtubule-based superstructures vital for cell division, signaling, and motility. The once thought hollow lumen of their microtubule core structures was recently found to hold a rich meshwork of microtubule inner proteins (MIPs). To address the outstanding question of how distinct MIPs evolved to recognize microtubule inner surfaces, we applied computational sequence analyses, structure predictions, and experimental validation to uncover evolutionarily conserved microtubule- and MIP-binding modules named NWE, SNYG, and ELLEn, and PYG and GFG-repeat by their signature motifs. These modules intermix with MT-binding DM10-modules and Mn-repeats in 24 Chlamydomonas and 33 human proteins. The modules molecular characteristics provided keys to identify elusive cross-species homologs, hitherto unknown human MIP candidates, and functional properties for seven protein subfamilies, including the microtubule seam-binding NWE and ELLEn families. Our work defines structural innovations that underpin centriole and axoneme assembly and demonstrates that MIPs co-evolved with centrosomes and cilia.

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Anticuerpo anti-tubulina acetilada, monoclonal de ratón antibody produced in mouse, clone 6-11B-1, purified from hybridoma cell culture
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Anti-Gamma-1-Tubulin, clone 6H3.1 Antibody, clone 6H3.1, from mouse