TATA-binding protein

Structure of the TATA-binding protein (TBP) bound to DNA.

The TATA-binding protein (TBP) is a crucial component of the transcription factor complex that is involved in the initiation of transcription in eukaryotic cells. TBP is a subunit of the transcription factor IID (TFIID) complex and plays a pivotal role in the recognition of the TATA box, a DNA sequence found in the promoter region of many genes.

Structure

TBP is characterized by its saddle-shaped structure, which allows it to bind to the minor groove of the DNA double helix. The protein consists of a conserved C-terminal domain that is responsible for DNA binding and a variable N-terminal domain that can interact with other transcription factors. The binding of TBP to the TATA box induces a sharp bend in the DNA, facilitating the assembly of the preinitiation complex.

Function

The primary function of TBP is to recognize and bind to the TATA box sequence, which is typically located 25-30 base pairs upstream of the transcription start site. Upon binding, TBP recruits other components of the TFIID complex, as well as additional general transcription factors such as TFIIB, TFIIF, TFIIE, and TFIIH. This assembly forms the preinitiation complex, which is essential for the recruitment of RNA polymerase II and the initiation of transcription.

Role in Transcription

TBP bound to DNA, highlighting the bending of the DNA helix.

TBP is a universal transcription factor, meaning it is required for the transcription of all protein-coding genes transcribed by RNA polymerase II. Its ability to bind to the TATA box and recruit other transcription factors is a critical step in the regulation of gene expression. In addition to its role in RNA polymerase II transcription, TBP is also involved in the transcription of genes by RNA polymerase I and RNA polymerase III, although the mechanisms differ.

Interactions

TBP interacts with a variety of other proteins to regulate transcription. These include TBP-associated factors (TAFs), which are part of the TFIID complex, as well as other transcriptional regulators that modulate its activity. The interaction of TBP with these factors can influence the specificity and efficiency of transcription initiation.

Clinical Significance

Mutations or dysregulation of TBP can lead to various diseases, including certain types of cancer and neurodegenerative disorders. Understanding the function and regulation of TBP is therefore important for developing therapeutic strategies for these conditions.

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