Photosynthesis nuclear genes generally lack TATA‐boxes: a tobacco photosystem I gene responds to light through an initiator

Abstract

The promoter architecture of the nuclear-encoded photosystem I genes was studied using a tobacco gene, psaDb, as a model case. Linker scanning mutations revealed that the psaDb promoter does not have a TATA box. Instead, pyrimidine-rich Initiator (Inr) elements that overlap the transcription start sites are essential for light-responsive transcription of this gene. When the psaDb promoter was mutated to have a TATA-box but no Inr, light-responsive transcription was impaired, indicating that the regulatory system of this gene prefers Inr to a TATA box. As very little is known about plant TATA-less promoters, we subsequently examined whether this promoter architecture is unique to psaDb. Computer analysis of 232 plant promoters revealed surprising features; the majority of photosynthesis nuclear genes lacked TATA boxes, although the frequency of the TATA-less promoters in non-photosynthesis genes was less than 10%. These results strongly suggest that TATA-independent transcription mechanisms play important roles in the regulated expression of photosynthesis nuclear genes.