We explored how the number of structures is determined in an intracellular organelle series. In Tetrahymena, the oral apparatus contains three diagonal ciliary rows: M1, M2, and M3. During development, the M rows emerge by sequential segmentation of a group of basal bodies, starting with the longest and most anterior M1 and ending with the shortest and most posterior M3. The mpD-1 and mpH-1 alleles increase and decrease the number of M rows, respectively. We identify MpH as a TPR protein and MpD as an importin-9. Both proteins localize to the M rows and form concentration gradients. MpH is a row elongation factor whose loss shortens all M rows and often prevents the formation of M3. MpD limits row initiation after the emergence of M2. MpD could be a part of a negative feedback loop that limits row initiation when M1 assembly is properly advanced. We conclude that the forming oral apparatus has properties of a semi-autonomous intracellular developmental field.
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