Deletion of core components of the plastid protein import machinery causes differential arrest of embryo development in Arabidopsis thaliana

Among the genes that have recently been pinpointed to be essential for plant embryo development a large number encodes plastid proteins suggesting that embryogenesis is linked to plastid localized processes. However, nuclear encoded plastid proteins are synthesized as precursors in the cytosol and subsequently have to be transported across the plastid envelopes by a complex import machinery. We supposed that deletion of components of this machinery should allow a more general assessment of the role of plastids in embryogenesis since it will not only affect single proteins but instead inhibit the accumulation of most plastid proteins. Here we have characterized three Arabidopsis thaliana mutants lacking core components of the Toc complex, the protein translocase in the outer plastid envelope membrane, which indeed show embryo lethal phenotypes. Remarkably, embryo development in the atToc75-III mutant, lacking the pore forming component of the translocase, was arrested extremely early at the two-cell stage. In contrast, despite the complete or almost complete lack of the import receptors Toc34 and Toc159, embryo development in the a tToc33/34 and atToc132/159 mutants proceeded slowly and was arrested later at the transition to the globular and the heart stage, respectively. These data demonstrate a strict dependence of cell division and embryo development on functional plastids as well as specific functions of plastids at different stages of embryogenesis. In addition, our analysis suggest that not all components of the translocase are equally essential for plastid protein import in vivo.