The TATA box-binding protein (TBP) has a fundamental role in eukaryotic cell metabolism, since it is necessary for transcription of class I, class II, and class III genes; in fact, TBP is the DNA-binding subunit of TFIID and a component of SL1 and TFIIIB. Contrary to the previously hypothesized existence of a family of genes coding for DNA-binding proteins highly related to TBP, our experiments show that the segment coding for the evolutionarily well-conserved carboxyl-terminal domain, involved in DNA binding, is unique; accordingly, we conclude that the TBP locus itself, which we have localized to 6q27, is single copy in the human genome. On the other hand, a cDNA fragment coding for the evolutionarily variable amino-terminal domain detects multiple cross-hybridizing sequences in the genome of higher eukaryotes. We suggest that the common motif is represented by the long string of glutamine codons, which characterizes the amino-terminal segment of human TBP: in fact, other proteins involved in transcription, such as TAF II 110, Sp1, and some homeobox proteins, are known to contain glutamine-rich segments.

Physical mapping at 6q27 of the locus for the TATA box-binding protein, the DNA-binding subunit of TFIID and a component of SL1 and TFIIIB, strongly suggests that it is single copy in the human genome

PURRELLO, Michele;DI PIETRO, Cinzia Santa;
1994-01-01

Abstract

The TATA box-binding protein (TBP) has a fundamental role in eukaryotic cell metabolism, since it is necessary for transcription of class I, class II, and class III genes; in fact, TBP is the DNA-binding subunit of TFIID and a component of SL1 and TFIIIB. Contrary to the previously hypothesized existence of a family of genes coding for DNA-binding proteins highly related to TBP, our experiments show that the segment coding for the evolutionarily well-conserved carboxyl-terminal domain, involved in DNA binding, is unique; accordingly, we conclude that the TBP locus itself, which we have localized to 6q27, is single copy in the human genome. On the other hand, a cDNA fragment coding for the evolutionarily variable amino-terminal domain detects multiple cross-hybridizing sequences in the genome of higher eukaryotes. We suggest that the common motif is represented by the long string of glutamine codons, which characterizes the amino-terminal segment of human TBP: in fact, other proteins involved in transcription, such as TAF II 110, Sp1, and some homeobox proteins, are known to contain glutamine-rich segments.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11769/20511
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