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- Title
Variable microtubule architecture in the malaria parasite.
- Authors
Ferreira, Josie L.; Pražák, Vojtěch; Vasishtan, Daven; Siggel, Marc; Hentzschel, Franziska; Binder, Annika M.; Pietsch, Emma; Kosinski, Jan; Frischknecht, Friedrich; Gilberger, Tim W.; Grünewald, Kay
- Abstract
Microtubules are a ubiquitous eukaryotic cytoskeletal element typically consisting of 13 protofilaments arranged in a hollow cylinder. This arrangement is considered the canonical form and is adopted by most organisms, with rare exceptions. Here, we use in situ electron cryo-tomography and subvolume averaging to analyse the changing microtubule cytoskeleton of Plasmodium falciparum, the causative agent of malaria, throughout its life cycle. Unexpectedly, different parasite forms have distinct microtubule structures coordinated by unique organising centres. In merozoites, the most widely studied form, we observe canonical microtubules. In migrating mosquito forms, the 13 protofilament structure is further reinforced by interrupted luminal helices. Surprisingly, gametocytes contain a wide distribution of microtubule structures ranging from 13 to 18 protofilaments, doublets and triplets. Such a diversity of microtubule structures has not been observed in any other organism to date and is likely evidence of a distinct role in each life cycle form. This data provides a unique view into an unusual microtubule cytoskeleton of a relevant human pathogen. Microtubules are a ubiquitous eukaryotic cytoskeletal element typically consisting of 13 protofilaments arranged in a hollow cylinder. Using CryoEM and subvolume averaging, Ferreira and Pražák et al. show that Plasmodium does not adhere to a single microtubule structure. Instead, the cytoskeleton changes substantially to produce a unique, fit for purpose structure and organisation at each stage of its life cycle.
- Subjects
MICROTUBULES; LIFE cycles (Biology); PLASMODIUM; CYTOSKELETON; PLASMODIUM falciparum; MEROZOITES
- Publication
Nature Communications, 2023, Vol 14, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-023-36627-5