The vacuolar ATPases (V-ATPases) are multisubunit complexes containing two domains. The V(1) domain (subunits A-H) is peripheral and carries out ATP hydrolysis. The V(0) domain (subunits a, c, c', c'', d, and e) is membrane-integral and carries out proton transport. In yeast, there are three proteolipid subunits as follows: subunit c (Vma3p), subunit c' (Vma11p), and subunit c'' (Vma16p). The proteolipid subunits form a six-membered ring containing single copies of subunits c' and c'' and four copies of subunit c. To determine the possible arrangements of proteolipid subunits in V(0) that give rise to a functional V-ATPase complex, a series of gene fusions was constructed to constrain the arrangement of pairs of subunits in the ring. Fusions containing c'' employed a truncated version of this protein lacking the first putative transmembrane helix (which we have shown previously to be functional), to ensure that the N and C termini of all subunits were located on the luminal side of the membrane. Fusion constructs were expressed in strains disrupted in c', c'', or both but containing a wild copy of c to ensure the presence of the required number of copies of subunit c. The c-c''(DeltaTM1), c''(DeltaTM1)-c', and c'-c constructs all complemented the vma(-) phenotype and gave rise to complexes possessing greater than 25% of wild-type levels of activity. By contrast, neither the c-c', the c'-c''(DeltaTM1), nor the c''(DeltaTM1)-c constructs complemented the vma(-) phenotype. These results suggest that functionally assembled V-ATPase complexes contain the proteolipid subunits arranged in a unique order in the ring.

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Journal Article | Research Support, N.I.H., Extramural | Research Support, Non-U.S. Gov't

Authors

Wang Y, Cipriano DJ, Forgac M

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