Abstract

Chloroplasts and other plastids are plant cell organelles that account for major biochemical functions. They contain their own gene expression system but are integrated into the signaling network of the entire cell. Both nuclear and plastid genes are involved in chloroplast biogenesis, and the gene expression pathways both inside and outside the organelle are subject to developmental and environmental control. The plastid transcription apparatus reflects this general scheme, with a basic organelle‐encoded enzymatic machinery surrounded by factors that may be encoded by nuclear genes. Among the transcription regulatory mechanisms thought to play a role during plastid development are: (1) differential usage of promoter elements; (2) phosphorylation of transcription factors by a protein kinase, which is itself subject to phosphorylation and redox control; (3) dynamic changes in the composition of the transcription apparatus. In etioplasts, the dominating polymerase ‘B’ is a bacterial‐type enzyme, whereas the major chloroplast polymerase ‘A’ is a much larger enzyme reminiscent of those in the nucleus. These two enzyme forms may share common components and recruit others during development.