The protozoan parasite Trypanosoma brucei is a mono-flagellated cell during the G1-phase of its cell cycle. In order to duplicate, it assembles a new flagellum alongside the mature one, in which further elongation is prevented. Our group proposed a model where the mature flagellum is locked after construction to full length (Bertiaux et al. 2018) and access of new building blocks for elongation is exclusive to the new flagellum. To test this hypothesis directly, we developed a tool for the inducible expression of tagged tubulin. Alpha-tubulin that was tagged with an intragenic Ty-1-epitope behaved indistinguishable from untagged tubulin. Its incorporation was monitored after inducible expression, to follow the assembly dynamics of microtubules in the cell body, the mitotic spindle and the flagellum. In this study we present direct evidence that integration of tubulin occurs at the distal flagellum tip at a linear rate and is indeed restricted to the new flagellum in bi-flagellated cells. This is direct evidence that trypanosomes avoid competition between the two flagella by allowing tubulin incorporation only in the new but not the old organelle. However, by tracing flagella over several cell cycles we could also show that mature flagella do not remain locked indefinitely. The restriction is lifted briefly after the bi-flagellated cell has divided and the daughter cell inheriting the old flagellum shows incorporation of newly synthesized building blocks again. It then has to lock again before the cell can assemble a new flagellum. Our findings suggest regular incorporation of tubulin at the tip of previously locked flagella. Since flagellum length in trypanosomes is stable, it is likely that regular dis-assembly needs to occur to prevent a net elongation over time. This evidence was supported with an orthogonal approach, with which we monitored the incorporation of HALO-tagged radial spoke protein 4/6