Cell. 1991 Apr 19;65(2):349-57.

Dominant negative mutations in yeast TFIID define a bipartite DNA-binding region.

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Fred Hutchinson Cancer Research Center, Seattle, Washington 98104.

Abstract

Genetic analysis showed that the conserved C-terminal 180 amino acids of yeast TFIID contain all the essential functions for growth of yeast and response to acidic transcriptional activation signals. A genetic screen was used to identify functionally important residues within this C-terminal region. Five dominant TFIID mutations were isolated that had lost the ability to bind DNA. Four of these mutations were single amino acid substitutions in the most N-terminal of two 66-67 amino acid repeats in TFIID. Analogous mutations made in the most C-terminal repeat all failed to bind DNA and inhibited growth of cells, suggesting that the DNA-binding function of TFIID is partitioned between the two repeated regions. Overproduction of wild-type TFIID rescued the dominance of the TFIID mutants, suggesting that the mutant proteins are dominant because they compete with wild-type TFIID for binding to one or more essential transcription factors.

PMID:: 2015629; [PubMed - indexed for MEDLINE]

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Dominant negative mutations in yeast TFIID define a bipartite DNA-binding region.

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