The cell shape of Trypanosoma brucei is influenced by flagellum-to-cell-body attachment through a specialised structure - the flagellum attachment zone (FAZ). T. brucei exhibits numerous morphological forms during its life cycle and, at each stage, the FAZ length varies. We have analysed FLAM3, a large protein that localises to the FAZ region within the old and new flagellum. Ablation of FLAM3 expression causes a reduction in FAZ length; however, this has remarkably different consequences in the tsetse procyclic form versus the mammalian bloodstream form. In procyclic form cells FLAM3 RNAi results in the transition to an epimastigote-like shape, whereas in bloodstream form cells a severe cytokinesis defect associated with flagellum detachment is observed. Moreover, we demonstrate that the amount of FLAM3 and its localisation is dependent on ClpGM6 expression and vice versa. This evidence demonstrates that FAZ is a key regulator of trypanosome shape, with experimental perturbations being life cycle form dependent. An evolutionary cell biology explanation suggests that these differences are a reflection of the division process, the cytoskeleton and intrinsic structural plasticity of particular life cycle forms.

Faculty of Health and Medicine Division of Biomedical and Life Sciences Lancaster University Lancaster LA1 4YQ UK

Faculty of Sciences University of South Bohemia České Budějovice 37005 Czech Republic

Faculty of Sciences University of South Bohemia České Budějovice 37005 Czech Republic Canadian Institute for Advanced Research Toronto Ontario Canada M5G 1Z8

Sir William Dunn School of Pathology University of Oxford Oxford OX1 3RE UK

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