The Germ Cell-specific Transcription Factor ALF: STRUCTURAL PROPERTIES AND STABILIZATION OF THE TATA-BINDING PROTEIN (TBP)-DNA COMPLEX

Ashok B Upadhyaya,Mohammed Khan,Tung-Chung Mou,Matt Junker,Donald M Gray,Jeff Dejong

doi:10.1074/jbc.m204808200

Ashok B Upadhyaya, Mohammed Khan + Show 4 more

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https://doi.org/10.1074/jbc.m204808200

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Abstract

The assembly and stability of the RNA polymerase II transcription preinitiation complex on a eukaryotic core promoter involves the effects of TFIIA on the interaction between TATA-binding protein (TBP) and DNA. To extend our understanding of these interactions, we characterized properties of ALF, a germ cell-specific TFIIA-like factor. ALF was able to stabilize the binding of TBP to DNA, but it could not stabilize TBP mutants A184E, N189E, E191R, and R205E nor could it facilitate binding of the TBP-like factor TRF2/TLF to a consensus TATA element. However, phosphorylation of ALF with casein kinase II resulted in the partial restoration of complex formation using mutant TBPs. Studies of ALF-TBP complexes formed on the Adenovirus Major Late (AdML) promoter revealed protection of the TATA box and upstream sequences from -38 to -20 (top strand) and -40 to -22 (bottom strand). The half-life and apparent K(D) of this complex was determined to be 650 min and 4.8 +/- 2.7 nm, respectively. The presence of ALF or TFIIA did not significantly alter the ability of TBP to bind TATA elements from several testis-specific genes. Finally, analysis of the distinct, nonhomologous internal regions of ALF and TFIIAalpha/beta using circular dichroism spectroscopy provided the first evidence to suggest that these domains are unordered, a result consistent with other genetic and biochemical properties. Overall, the results show that while the sequence and regulation of the ALF gene are distinct from its somatic cell counterpart TFIIAalpha/beta, the TFIIAgamma-dependent interactions of these factors with TBP are nearly indistinguishable in vitro. Thus, a role for ALF in the assembly and stabilization of initiation complexes in germ cells is likely to be similar or identical to the role of TFIIA in somatic cells.

Highlights

The assembly and stability of the RNA polymerase II transcription preinitiation complex on a eukaryotic core promoter involves the effects of TFIIA on the interaction between TATA-binding protein (TBP) and DNA
The results demonstrate an interplay between ALF and TFIIA for TBP which could potentially regulate patterns of gene expression in vivo and which might occur with TRF2/TLF
While our studies show ALF and TFIIA to be similar for interactions with TBP, distinctions could be revealed in genetic or biochemical assays that depend on interactions with TRF2/TLF, formation of a complete preinitiation complex (PIC), or activator function

Summary

Introduction

The assembly and stability of the RNA polymerase II transcription preinitiation complex on a eukaryotic core promoter involves the effects of TFIIA on the interaction between TATA-binding protein (TBP) and DNA. TFIIA, interacts with the TATA-binding protein (TBP) to stabilize binding to core promoter DNA so that a transcriptionally active preinitiation complex (PIC) can be formed. The mouse tbp gene initiates from at least six different sites within ϳ4 kb, only one of which is used in somatic cells [23], while the ACE gene initiates within the twelfth intron [24] These phenomena may be related to the fact that germ cells display elevated expression of GTFs and GTF-like factors such as ALF and TRF2/TLF [10, 25, 26] that are involved in PIC assembly. New patterns of gene expression in male germ cells may be related to changes in chromatin structure that occur during meiosis and spermatogenesis as these may influence accessibility of DNA to the transcription factor machinery [27]

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