Spatiotemporal cascade of transcription factor binding required for promoter activation.

Promoters often contain multiple binding sites for a single factor. The yeast HO gene contains nine highly conserved binding sites for the SCB (Swi4/6-dependent cell cycle box) binding factor (SBF) complex (composed of Swi4 and Swi6) in the 700-bp upstream regulatory sequence 2 (URS2) promoter region. Here, we show that the distal and proximal SBF sites in URS2 function differently. Chromatin immunoprecipitation (ChIP) experiments show that SBF binds preferentially to the left side of URS2 (URS2-L), despite equivalent binding to the left-half and right-half SBF sites in vitro. SBF binding at URS2-L sites depends on prior chromatin remodeling events at the upstream URS1 region. These signals from URS1 influence chromatin changes at URS2 but only at sites within a defined distance. SBF bound at URS2-L, however, is unable to activate transcription but instead facilitates SBF binding to sites in the right half (URS2-R), which are required for transcriptional activation. Factor binding at HO, therefore, follows a temporal cascade, with SBF bound at URS2-L serving to relay a signal from URS1 to the SBF sites in URS2-R that ultimately activate gene expression. Taken together, we describe a novel property of a transcription factor that can have two distinct roles in gene activation, depending on its location within a promoter.