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  • Title: Site-directed mutagenesis of the Na,K-ATPase: consequences of substitutions of negatively-charged amino acids localized in the transmembrane domains.
    Author: Jewell-Motz EA, Lingrel JB.
    Journal: Biochemistry; 1993 Dec 14; 32(49):13523-30. PubMed ID: 8257687.
    Abstract:
    Site-directed mutagenesis was used to examine the importance of five carboxyl-containing amino acids localized in the putative membrane-spanning regions of the Na,K-ATPase (i.e., E327, E778, D803, D807, and D925 of the rat alpha 2 isoform). The substitutions were introduced into a cDNA encoding a ouabain-resistant isoform (i.e., rat alpha 2* which was mutated to encode a ouabain-resistant isoform), and the effect of these substitutions on Na,K-ATPase function was assessed by screening the altered enzymes for their ability to confer ouabain resistance when expressed in otherwise ouabain-sensitive cells. The expression of the alpha isoform containing certain substitutions at positions 327 and 925 was able to confer ouabain resistance to HeLa cells while the expression of rat alpha 2* containing substitutions at positions 778, 803, and 807 was not. In particular, amino acids in each of these positions were substituted with leucine to evaluate the importance of the carboxyl-containing side chain. The ability of rat alpha 2* containing E327L and D925L to confer ouabain resistance to HeLa cells indicates that neither the negative charge nor the oxygen-containing side chain is absolutely essential for overall function in this position. In contrast, the inability of rat alpha 2* carrying E778L, D803L, and D807L to confer ouabain resistance suggests that the naturally occurring amino acid may be more critical structurally and/or functionally for the Na,K-ATPase. Other more conservative substitutions introduced to further characterize the role of particular amino acid side chains include E327D, E327Q, D803N, D803E, and D925N.(ABSTRACT TRUNCATED AT 250 WORDS)
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