Abstract
The human homologue of yeast Rrn3 is an RNA polymerase I-associated transcription factor that is essential for ribosomal DNA (rDNA) transcription. The generally accepted model is that Rrn3 functions as a bridge between RNA polymerase I and the transcription factors bound to the committed template. In this model Rrn3 would mediate an interaction between the mammalian Rrn3-polymerase I complex and SL1, the rDNA transcription factor that binds to the core promoter element of the rDNA. In the course of studying the role of Rrn3 in recruitment, we found that Rrn3 was in fact a DNA-binding protein. Analysis of the sequence of Rrn3 identified a domain with sequence similarity to the DNA binding domain of heat shock transcription factor 2. Randomization, or deletion, of the amino acids in this region in Rrn3, amino acids 382-400, abrogated its ability to bind DNA, indicating that this domain was an important contributor to DNA binding by Rrn3. Control experiments demonstrated that these mutant Rrn3 constructs were capable of interacting with both rpa43 and SL1, two other activities demonstrated to be essential for Rrn3 function. However, neither of these Rrn3 mutants was capable of functioning in transcription in vitro. Moreover, although wild-type human Rrn3 complemented a yeast rrn3-ts mutant, the DNA-binding site mutant did not. These results demonstrate that DNA binding by Rrn3 is essential for transcription by RNA polymerase I.
Highlights
Transcription initiation by RNA polymerase I requires protein-protein interactions between Rrn3, polymerase, and core factors
In the course of studying the role of Rrn3 in the recruitment of RNA polymerase I to the committed template, we found that Rrn3 itself is a DNA-binding protein
Identification of the DNA-binding Site for Rrn3 in the ribosomal DNA (rDNA) Repeat—In the course of investigating the role of Rrn3 in the formation of a functional, transcription initiation complex, we found that Rrn3 bound to the rDNA, to a 411-bp fragment spanning the transcription initiation site
Summary
Transcription initiation by RNA polymerase I requires protein-protein interactions between Rrn, polymerase, and core factors. Results: Mutagenesis of a putative DNA binding domain in Rrn had no effect on essential protein-protein interactions, but abrogated DNA binding and inactivated Rrn function in transcription. The generally accepted model is that Rrn functions as a bridge between RNA polymerase I and the transcription factors bound to the committed template. In this model Rrn would mediate an interaction between the mammalian Rrn3-polymerase I complex and SL1, the rDNA transcription factor that binds to the core promoter element of the rDNA. Wild-type human Rrn complemented a yeast rrn3-ts mutant, the DNA-binding site mutant did not These results demonstrate that DNA binding by Rrn is essential for transcription by RNA polymerase I
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