Abstract
Oligomeric assembly is a fundamental aspect of many complex enzymes. Using our native gel technique for examining subcomplexes of the V-ATPase V1 sector, we have developed an in vitro reconstitution assay for assembly of this complex. Assembly of complex II, the soluble V1 complex observed in native gels, is dependent upon the presence of divalent cations and physiological temperatures. Assembly of soluble V1 can occur in a stepwise fashion from smaller subcomplexes found in some strains deleted for V-ATPase subunits. Specifically, V1 can be assembled directly from complex III (subunits E and G) with complex IV (subunits A, B, D, and F) without prior disassembly of complex IV. The formation of complex III in vivo is also shown to be essential and could not be achieved in vitro. Assembly from simpler precursors is possible and is enhanced by added ATP. Assembly can be blocked by N-ethylmaleimide in a Vma1p (subunit A)-specific manner. From these data, we extend our previous model to consider an assembly pathway whose steps reflect the catalytic mechanism of the Boyer binding-change model.
Highlights
Many enzymes are oligomeric and require the coordinated assembly of numerous individual subunits
Using our native gel technique for examining subcomplexes of the V-ATPase V1 sector, we have developed an in vitro reconstitution assay for assembly of this complex
We demonstrate that these complexes are able to assemble in vitro to form the soluble V1 sector observed as complex II, indicating that they are not terminal complexes
Summary
V-ATPase, vacuolar proton-translocating ATPase; ADH, alcohol dehydrogenase; HA, hemagglutinin; NEM, N-ethylmaleimide; ORF, open reading frame; PAGE, polyacrylamide gel electrophoresis; MES, 4-morpholineethanesulfonic acid; ATPgS, adenosine 59-O-(thiotriphosphate); AMP-PNP, 59-adenylylimidodiphosphate
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