David G. Grasso scite author profile

David G. Grasso

4Publications

26Citation Statements Received

32Citation Statements Given

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Monash University

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The C‐terminal positively charged region of subunit 8 of yeast mitochondrial ATP synthase is required for efficient assembly of this subunit into the membrane F₀sector

Grasso¹,

Nero²,

Law³

et al. 1991

European Journal of Biochemistry

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This paper deals with a truncated derivative of subunit 8 of yeast mitochondrial ATP synthase in which a conserved positively charged residue (Lys47) has been removed by site-directed mutagenesis together with the Cterminal residue (Leu48). This derivative has been expressed as a chimaeric precursor N9L/Y8-1 (K47-STP) carrying an N-terminal cleavable leader sequence (N9L), fused by a short bridging sequence to the truncated subunit-8 passenger protein. Allotopic expression of N9L/YS-l(K47-STP) in vivo in an aapl mit-host yeast strain lacking endogenous subunit 8 leads to partial restoration of bioenergetic function in the transformant strain denoted T475. Import and assembly studies were carried out in vitro using target mitochondria from strain YGL-1 partially depleted in subunit 8 ; such controlled depletion has been previously shown to be required for the efficient assembly (monitored immunochemically) of full-length subunit 8 imported in vitro as the precursor N9L/Y8-1. It was found that N9L/YS-l(K47-STP) synthesized in vitro was imported successfully into YGL-1 mitochondria, but no significant assembly of the truncated subunit 8 was observed in these or any other mitochondria tested. The bioenergetic defects in T475 mitochondria are ascribed to the impaired assembly of the subunit-8 variant in vivo, resulting from the truncation at Lys47. In consequence, T475 mitochondria behave as though partially depleted of subunit 8. This conclusion was supported by the ability of isolated T475 mitochondria to provide a vehicle for the efficient import and assembly of subunit 8 processed form full-length N9L/Y8-1. Two related aspects of import and assembly have been addressed as part of the analysis of truncated subunit 8. First, mitochondria from strain T2-1, an aapl mit-mutant genetically reconstituted by allotopic expression of N9L/ Y8-1, were also found to be effective in the in vitro assembly of subunit 8 derived from imported N9L/Y8-1. This suggests an intramitochondrial shortage of subunit 8 delivered by allotopic expression of N9L/Y8-1 in vivo, which may underlie the incomplete restoration of energy coupling in T2-1 mitochondria compared to those of wild-type yeast. Second, on allotopic expression of N9L/Y8-2 (containing subunit 8 directly fused to N9L) in the aapl mithost, a rescued transformant strain T10-1 was generated which displays bioenergetic defects superficially similar to those of T475. Processed subunit 8 clearly assembled into the ATP synthase of isolated YGL-1 mitochondria, in spite of the relatively weak import of N9L/Y8-2 in vitro. This demonstrates the ability of the in vitro assembly system to distinguish assembly properties of variants of subunit 8, such as N9L/YS-l(K47-STP) and N9LIY8-2.The Fa sector of the yeast mitochondrial ATP synthase (mtATPase) provides a versatile system for the study of the assembly of integral membrane proteins into energy-transducing enzyme complexes [l]. Previous studies of mutants of Saccharomyces cerevisiae, affected in the three mitochondrial genes encoding Fa s...

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Identification of a 66 KDa protein associated with yeast mitochondrial ATP synthase as heat shock protein hsp60

et al. 1990

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A 66 kDa protein, denoted P66, not hitherto classified as an integral component of yeast mitochondrial ATPase, is often observed in preparations of this enzyme complex. A physical association exists between P66 and the assembled ATPase complex since both components are coimmunoprecipitated by anti-F,8 monoclonal antibody. Two recombinant clones expressing proteins immunologically similar to P66 were isolated from a yeast genomic library in Igtl 1 by screening with a polyclonal anti-holo-ATPase antibody. Based on restriction site mapping and partial nucleotide sequence analysis, both clones encompass the gene encoding the yeast heat shock protein hsp60. The identification of P66 with hsp60, taken together with its demonstrated association with the mitochondrial ATPase complex, is consistent with recent suggestions that hsp60 is involved in assembly of the ATP synthaae complex.

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Site directed mutagenesis of subunit 8 of yeast mitochondrial ATP synthase

Nero¹,

Ekkel²,

Wang³

et al. 1990

FEBS Letters

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The function of the positively charged C‐terminal region of mitochondrially encoded subunit 8 of yeast mitochondrial ATP synthase was investigated using derivatives truncated at each of the 3 positively charged residues (Arg37, Arg42 and Lys47). Each construct, allotopically expressed in the nucleus, was tested for its ability to import and assemble functionally into ATP synthase in yeast cells unable to synthesize mitochondrial subunit 8. The efficiency of import of each construct into isolated wild‐type yeast mitochondria was also determined. One construct truncated at the penultimate residue of subunit 8 (Lys47) functions in vivo and shows efficient import in vitro. Thus subunit 8 can function with only two positively charged residues. The remainder of the subunit 8 variants failed to rescue in vivo. Since they all show greatly reduced or undetectable import in vitro, presumably because of the increased hydrophobic character of the subunit 8 moiety in the chimaeric precursors, the status of these variants as regards assembly and function is not clear.

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Molecular Biology and Assembly of Yeast Mitochondrial ATP Synthase

Devenish

Galanis

Papakonstantinou

et al. 1992

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David G. Grasso

The C‐terminal positively charged region of subunit 8 of yeast mitochondrial ATP synthase is required for efficient assembly of this subunit into the membrane F₀sector

Identification of a 66 KDa protein associated with yeast mitochondrial ATP synthase as heat shock protein hsp60

Site directed mutagenesis of subunit 8 of yeast mitochondrial ATP synthase

Molecular Biology and Assembly of Yeast Mitochondrial ATP Synthase

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David G. Grasso

The C‐terminal positively charged region of subunit 8 of yeast mitochondrial ATP synthase is required for efficient assembly of this subunit into the membrane F0sector

Identification of a 66 KDa protein associated with yeast mitochondrial ATP synthase as heat shock protein hsp60

Site directed mutagenesis of subunit 8 of yeast mitochondrial ATP synthase

Molecular Biology and Assembly of Yeast Mitochondrial ATP Synthase

Contact Info

Product

Resources

About

The C‐terminal positively charged region of subunit 8 of yeast mitochondrial ATP synthase is required for efficient assembly of this subunit into the membrane F₀sector