Updated project metadata. Faithful gamete formation during meiosis requires that kinetochores take on new functions that impact homolog pairing/recombination and their attachments to microtubules. We used a proteomics pipeline to determine the global composition of centromeric chromatin and kinetochores at distinct meiotic stages. Our datasets uncover an unanticipated role for the Ctf19CCAN inner kinetochore sub-complex in gametogenesis. We show that components of the Ctf19 complex that are dispensable for mitotic growth become critical for assembly of a functional kinetochore upon meiotic entry. Consequently, in the absence of these factors, chromosomes fail to attach to meiotic spindles and produce inviable gametes due to gross segregation errors. Our evidence suggests that functional kinetochore assembly is driven by Ctf19CCAN complex-dependent Ipl1AURORA B positioning at the inner kinetochore. Thus, our global view of kinetochore composition in meiosis reveals the extent of kinetochore remodelling during gametogenesis and uncovers a kinetochore assembly pathway that becomes critical in meiosis.