Abstract
The sequences Thr-Gly-Glu-Ser184 and Asp-Gln-Ser178 and individual residues Asp149, Asp157, and Asp162 in the sarcoplasmic reticulum Ca2(+)-ATPase are highly conserved throughout the family of cation-transporting ATPases. Mutant Thr181----Ala, Gly182----Ala, Glu183----Ala, and Glu183----Gln, created by in vitro mutagenesis, were devoid of Ca2+ transport activity. None of these mutations, however, affected phosphorylation of the enzyme by ATP in the presence of Ca2+ or by inorganic phosphate in the absence of Ca2+, indicating that the high affinity Ca2(+)-binding sites and the nucleotide-binding sites were intact. In each of these mutants, the ADP-sensitive phosphoenzyme intermediate (E1P) decayed to the ADP-insensitive form (E2P) very slowly relative to the wild-type enzyme, whereas E2P decayed at a rate similar to that of the wild-type enzyme. Thus, the inability of the mutants to transport Ca2+ was accounted for by an apparent block of the transport reaction at the E1P to E2P conformational transition. These results suggest that Thr181, Gly182, and Glu183 play essential roles in the conformational change between E1P and E2P. Mutation of Ser184, Asp157, or Ser178 had little or no effect on either Ca2+ transport activity or expression. Mutations of Asp149, Asp162, and Gln177, however, were poorly expressed. Where expression could be measured, in mutations to Asp162 and Gln177, Ca2+ transport activity was essentially equivalent to that of the wild-type enzyme.
Highlights
Functional Consequences of Mutations of Conserved Amino Acids in the,&Strand Domain of the Ca2’ -ATPase of Sarcoplasmic Reticulum*
Much is known about the reaction kinetics (Inesi, 1985), structure (Ikemoto, 1982; MacLennan and Reithmeier, 1985), and primary sequence (MacLennan et al, 1985; Brand1 et al, 1986) of the enzyme, making it an ideal model for the study of cation transport coupled to ATP hydrolysis
A number of amino acids within a segment of the Ca*+ATPase containing residues 149-184 are highly conserved in the family of cation pumps which is characterized by the formation of a phosphorylated intermediate (Green and MacLennan, 1989; Serrano, 1988)
Summary
Thrl”, Glyls, and Glu”’ play essential roles in the conformational change between EIP and &P. Mutation of Serls, Asp15’, As~l’~, or Ser”’ had little or no effect on either Ca2+ transport activity or expression. Mutations of Asp14’, Asple, and Gin”‘, were poorly expressed. Transport activity was essentially equivalent to that of the wild-type enzyme. The Ca”-ATPase of the sarcoplasmic reticulum is a membrane-bound protein that translocates 2 mol of Ca2+ from sarcoplasmic to luminal spaces for each mole of ATP hydrolyzed (Inesi et al, 1980). Much is known about the reaction kinetics (Inesi, 1985), structure (Ikemoto, 1982; MacLennan and Reithmeier, 1985), and primary sequence (MacLennan et al, 1985; Brand et al, 1986) of the enzyme, making it an ideal model for the study of cation transport coupled to ATP hydrolysis
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