Abstract
The transmembrane topography of the Neurospora crassa plasma membrane H(+)-ATPase has been investigated using purified, reconstituted components and direct protein chemical techniques. Reconstituted proteoliposomes containing H(+)-ATPase molecules oriented predominantly with their cytoplasmic surface facing outward were treated with trypsin to liberate peptides present on the cytoplasmic surface of the H(+)-ATPase as recently described (Hennessey, J.P., Jr., and Scarborough, G. (1990) J. Biol. Chem. 265, 532-537. The released peptides were then separated from the proteoliposomes by gel filtration chromatography and further purified by high performance liquid chromatography. Fourteen such peptides were identified by NH2-terminal amino acid sequence analysis, directly defining these parts of the molecule as present on the cytoplasmic surface of the membrane. Moreover, this information identified several additional flanking stretches as likely to be cytoplasmically located by virtue of the fact that they are too short to cross the membrane and return. These results and the results of other recent experiments establish 417 residues of the 919 present in the ATPase molecule, at positions 2-100, 186-256, 441-663, and 897-920, as cytoplasmically located. Taken together with the results of our preliminary investigations of the membrane embedded sectors of the ATPase, this information allows the formulation of a reasonably detailed model for the transmembrane topography of the ATPase polypeptide chain.
Highlights
The released peptides were separated from the proteoliposomes by gel filtration chromatography and further purified by high performance liquid chromatography
In the studies reported in this paper we have extended this approach to topographic analysis of the H+ATPase molecule to define numerous additional portions of the ATPase polypeptide chain that are located on the cytoplasmic side of the lipid bilayer
As demonstrated in a recent paper (l), 85-90% of the H+ATPase molecules in proteoliposome preparations identical to those used in the present study are functional and oriented with their cytoplasmic portion facing outward
Summary
Beginning at the NH,terminal end of the molecule, we have recently demonstrated [1] that treatment of ATPase-bearing proteoliposomes identical to those used in the present investigation with trypsin in the presence of the H’-ATPase ligands, Mg++, ATP, and vanadate produces approximately 97-, 95-, and 88-kDa truncated forms of the H’-ATPase similar to those shown by Mandala and Slayman [11] to arise from cleavage of the ATPase molecule at Lysz4, LYS~~, and ArgT3, respectively, which provided evidence for the cytoplasmic location of these residues.
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