Author:
O'Brien T,Wilkins R C,Giardina C,Lis J T
Abstract
GAGA protein binds specific CT.GA-rich DNA sequences in vitro, and many of these sequences are required for transcription in vivo. GAGA protein has been implicated in the transcription of numerous Drosophila genes, including hsp70, hsp26, actin 5C, and Ubx. Here, we examine the in vivo distribution of GAGA protein on a number of Drosophila genes that do and do not have CT-rich sequences by use of a UV cross-linking technique. Prior to heat shock, GAGA protein is associated with the promoter regions of the uninduced hsp70 and hsp26 genes. Upon heat shock induction, GAGA protein is recruited to their transcription units with its distribution coincident with that of RNA polymerase II. The recruitment of GAGA protein to the hsp70 gene after an instantaneous heat shock occurs in a 5' to 3' manner with kinetics similar to RNA polymerase. GAGA protein has been shown to disrupt nucleosome both in vivo and in vitro. We propose that GAGA protein may function in vivo both by binding constitutively to its high-affinity binding sites and by spreading through the induced gene opening the chromatin structure allowing polymerase to elongate efficiently.
Publisher
Cold Spring Harbor Laboratory
Subject
Developmental Biology,Genetics
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