Plants produce secondary metabolites during development and in response to environmental stimuli such as light or pathogen attack. Transcriptional regulation provides the most important control point for the secondary metabolic pathways studied to date. In this article we review the data on the transcription factors that modulate this regulation. For the phenylpropanoid pathway, much is understood about both the specific sequences in the target genes (cis-elements) that are involved in responses to environmental and developmental stimuli, and the transcription factors involved. Most information is available for the light induction of the genes for hydroxycinnamic acid production, the production of anthocyanins in leaves and floral tissues, and the production of proanthocyanidins in seeds. Some of the functional interactions between the different types of transcription factor are now being elucidated, and upstream regulators of the genes encoding the transcription factors identified. For other secondary metabolic pathways much less is known, although good progress has been made on identifying transcription factors involved in controlling terpenoid indole alkaloid production. The identification of defined transcription factor genes provides tools for modulating both the amount and distribution of secondary metabolites in plants, and the validity of this approach has been well established by transgenic plants with modified flavonoid accumulation patterns.