The Escherichia coli aspartate receptor: sequence specificity of a transmembrane helix studied by hydrophobic-biased random mutagenesis

The Escherichia coli aspartate receptor is a dimer with twotransmembrane sequences per monomer that connect a periplasmicligand binding domain to a cytoplasmic signaling domain. Themethod of 'hydrophobic-biased' random mutagenesis, that we describehere, was used to construct mutant aspartate receptors in whicheither the entire transmembrane sequence or seven residues nearthe center of the transmembrane sequence were replaced withhydrophobic and polar random residues. Some of these receptorsresponded to aspartate in an in vivo chemotaxis assay, whileothers did not. The acceptable substitutions included hydrophobicto polar residues, small to larger residues, and large to smallerresidues. However, one mutant receptor that had only a few hydrophobicsubstitutions did not respond to aspartate. These results addto our understanding of sequence specificity in the transmembraneregions of proteins with more than one transmembrane sequence.This work also demonstrates a method of constructing familiesof mutant proteins containing random residues with chosen characteristics.