PMID: 2509454Nov 5, 1989Paper

Serine to cysteine mutations in trp repressor protein alter tryptophan and operator binding.

The Journal of Biological Chemistry
W Y Chou, K S Matthews

Abstract

The tryptophan repressor regulates expression of the aroH, trpEDCBA, and trpR operons in Escherichia coli. The protein contains no cysteine residues, and the presence of this reactive side chain would allow introduction of spectral probes to monitor binding reactions. Three mutant trp aporepressors, each with a point mutation from serine to cysteine, were produced at positions 67, 86, and 88 by oligonucleotide-directed site-specific mutagenesis. This single conservative substitution affected both tryptophan and operator DNA affinities in all three purified proteins. Cysteine substitution for serine at position 67 decreased tryptophan binding by approximately 6-fold and the operator DNA affinity by approximately 50-fold. The proximity of this amino acid to Gln-68 which is involved in binding to operator DNA (Otwinowski, Z., Schevitz, R. W., Zhang, R.-G., Lawson, C. L., Joachimiak, A., Marmorstein, R. Q., Luisi, B. F., and Sigler, P. B. (1988) Nature 335, 321-329) may account for this effect. Substitution at position 86 diminished tryptophan binding by approximately 4-fold and operator DNA binding by approximately 130-fold. The participation of Ser-86 in the hydrogen bond network required for operator binding (Otwinowski, Z., Sch...Continue Reading

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