Two-step polar plastid migration via F-actin and microtubules ensures unequal inheritance during asymmetric division of Arabidopsis zygote

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Abstract The zygote is the origin of development, and in most angiosperms, it divides asymmetrically to establish the apical–basal axis. In Arabidopsis thaliana, various organelles in the zygote undergo polar migration along actin filaments (F-actin), resulting in unequal inheritance, but the behavior of plastids, essential precursors of chloroplasts, has remained unclear. Here, using quantitative live-cell imaging, we reveal that plastids undergo two-step polar migration: they first move apically together with the nucleus along F-actin, and when nuclear migration slows, they switch to microtubule (MT)-dependent migration to move further apically. This results in unequal plastid inheritance by the apical cell. Although these plastids are amyloplasts containing starch granules, starch is dispensable for migration, unlike the gravity response. Instead, a fertilization-activated MAP kinase pathway is required for polar plastid migration. Our results demonstrate that the zygote possesses a spatiotemporal regulatory mechanism that ensures unequal plastid inheritance at the onset of plant ontogeny. Competing Interest Statement The authors have declared no competing interest.

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last seen: 2026-05-20T01:45:00.602351+00:00