Stettler, P.; Aeschlimann, S.; Schimanski, B.; Schneider, A.

The parasitic protozoan Trypanosoma brucei has a single mitochondrial nucleoid, anchored to the basal body of the flagellum via the tripartite attachment complex (TAC). The detergent-insoluble TAC is essential for mitochondrial genome segregation during cytokinesis. The TAC assembles de novo in a directed way from the probasal body towards the kDNA. However, the OM TAC module which is composed of five subunits, has previously been suspected to follow more complicated assembly pathways. Here, we identified four detergent-soluble OM TAC module subcomplexes that we assign to two classes. One class contains an oligomeric TAC40 complex that according to AlphaFold contains 6-8 subunits, as well as two subcomplexes of different sizes comprising TAC40, TAC42, and TAC60. The second class consists of a single complex composed of TAC65 and pATOM36. We show that the two subcomplex classes form independently and accumulate upon impairment of TAC assembly. The expression of an N-terminally truncated TAC60 variant causes the accumulation of the larger TAC40/TAC42/TAC60 complex and blocks completion of OM TAC module assembly. This suggests the following assembly pathway: i) TAC40 oligomerizes, ii) TAC42 and TAC60 bind the TAC40 oligomer forming two discrete larger intermediates, where iii) the larger subcomplex merges with the pATOM36/TAC65 subcomplex subsequently forming the OM TAC module.