Rapid Transcriptional Regulation by Phytochrome of the Genes for Phytochrome and Chlorophyll a/b-Binding Protein in Avena sativa

Abstract

We have examined phytochrome-regulated transcription of phytochrome (phy) and chlorophyll a/b binding protein (cab) genes in dark-grown Avena seedlings by using run-on transcription in isolated nuclei. Kinetic analysis of phy transcription following pulse-light treatments to produce various amounts of Pfr, the active form of phytochrome, leads to these conclusions. (i) Transcription decreases rapidly (discernible within 5 min) after Pfr formation, reaching an essentially undetectable level by 1 h. (ii) The response is very sensitive; <1% Pfr is sufficient to produce maximum feedback repression over the first 30 min. (iii) The duration of transcriptional repression is proportional to the Pfr concentration; derepression begins once the concentration falls below some saturation level because of degradation of Pfr. Concurrent analysis of cab transcription leads to these conclusions. (i) After Pfr formation, transcription increases ~10-fold by 3 h, but this response is not detectable until after a 30-min lag. (ii) Detectable induction of cab requires a >30-fold-higher Pfr level than is needed to repress phy expression. (iii) Transcription returns to the preirradiation level considerably sooner than does phy transcription (<12 h versus >24 h respectively), indicating that a high level of Pfr is needed to sustain the increased transcription of cab. Taken together, these results suggest that differences in the phytochrome signal transduction pathway are responsible for the distinct patterns of regulation of these genes. Full repression of phy occurs even when protein synthesis is inhibited >90% by cycloheximide and chloramphenicol. In conjunction with the rapidity of the response to Pfr, this result provides evidence that feedback repression of phy gene transcription does not require expression of an intervening regulatory gene(s). Thus, phy is the first gene for which there is evidence for direct control of transcription by the phytochrome signal transduction chain.