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pubmed:abstractText |
A technique is described for mapping point mutations in the first 59 amino-acid residues of the lac repressor from Escherichia coli, using less than 0.1 mumol (4 mg) of the purified protein. This technique was used to localize five mutations affecting the ability of the i-gene product to repress in vivo. These alterations are located at four different sites in the amino-terminal region of the repressor molecule. Three of these are missense mutations and result in changes from serine to proline (residue 16), threonine to alanine (residue 19), and alanine to valine (residue 53). Each amino-acid substitution alone is sufficient to eliminate repression in vivo, presumably by altering the operator binding activity. The remaining two independently-isolated mutations are identical, and result in a change from a glutamine codon at position 26 to an amber (UAG) codon. Since suppression of this nonsense mutation with amber suppressors that insert leucine, tyrosine, serine, or glutamine restores repressor activity to the molecule, glutamine(26) cannot be crucial for the operator-binding function. A comparison of the position of each altered residue with the genetic map enabled us to estimate the physical distance between several deletion-group endpoints.
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