A tobacco DNA binding protein that interacts with a light-responsive box II element.

Ribulose-1,5-bisphosphate carboxylase/oxygenase plays a key role in photosynthetic carbon fixation in higher plants. The small subunit of this chloroplast enzyme (rbcS), encoded by a family of nuclear genes, is regulated at the transcriptional level by light. Promoter analyses have previously identified the box II sequence as a cis element critical for the light-regulated expression of rbcS genes. Nuclear factor GT-1 binds specifically to this element and is one of the plant nuclear factors that has been detected and studied in great detail. Here we describe the cloning and characterization of a tobacco cDNA encoding a protein, designated B2F (Box II Factor), with similar binding specificity and mobility in gel retardation assays as nuclear GT-1. Steady state levels of mRNA encoding B2F do not appear to be regulated by light; this is consistent with the previous observation that nuclear GT-1 activity is present in extracts from both light-grown and dark-adapted plants. Sequence comparison with another plant trans-acting factor, GT-2, which binds to a GT-like element in the rice phytochrome promoter, shows striking homology in three putative alpha-helices that may be involved in DNA binding.