K Müller scite author profile

K Müller

5Publications

53Citation Statements Received

109Citation Statements Given

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Institut Pasteur

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A triglobular model for the polypeptide chain of aspartokinase I-homoserine dehydrogenase I of Escherichia coli

Fazel¹,

Müller²,

G³

et al. 1983

Biochemistry

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Limited proteolysis of aspartokinase I-homoserine dehydrogenase I from Escherichia coli by type VI protease from Streptomyces griseus yields five proteolytic fragments, three of which are dimeric, the other two being monomeric. One of the monomeric fragments (27 kilodaltons) exhibits residual aspartokinase activity, while the second one (33 kilodaltons) possesses residual homoserine dehydrogenase activity. The smallest of the dimeric species (2 X 25 kilodaltons) is inactive; the two other dimers exhibit either only homoserine dehydrogenase activity (2 X 59 kilodaltons) or both activities (hybrid fragment, 89 + 59 kilodaltons). This characterization of the proteolytic species in terms of molecular weight, subunit structure, and activity leads to the proposal of a triglobular model for the native enzyme. In addition, the time course of the formation of the various fragments was followed by measuring enzymatic activity and performing gel electrophoretic analysis of the protein mixture at defined time intervals during proteolysis. On the basis of the results of these studies, a reaction scheme describing the succession of events during proteolysis is given.

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Stepwise inactivation of Escherichia coli aspartokinase-homoserine dehydrogenase I

Müller¹,

Garel²

1984

Biochemistry

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In the range of guanidine hydrochloride concentrations from 0.2 to 1.2 M, aspartokinase-homoserine dehydrogenase I loses its enzymatic properties, both kinase and dehydrogenase activities and their allosteric inhibition by L-threonine. Ligands which stabilize the tetrameric native structure protect the enzyme against inactivation. Under some conditions, all the functional properties do not disappear at the same rate: an intermediate species possessing only the kinase activity can be detected. Several arguments suggest that this partly active intermediate has a monomeric structure. These results show that deactivation of aspartokinase-homoserine dehydrogenase I is a stepwise process, compatible with the reverse of the previously described reactivation [Garel, J.-R., & Dautry-Varsat, A. (1980) Proc. Natl. Acad. Sci. U.S.A. 77, 3379-3383]. The same measurements performed with a monofunctional fragment carrying the dehydrogenase activity show that the loss of dehydrogenase activity is the same whether or not the polypeptide chain is intact or lacks the kinase region; this finding suggests that the protein is composed of independent regions. The influence of protein aggregation in studying unfolding-refolding of oligomeric enzymes is also discussed.

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Folding of aspartokinase-homoserine dehydrogenase I is dominated by tertiary interactions

Müller¹,

Garel²

1984

Biochemistry

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In the presence of guanidine hydrochloride concentrations above 2 M, aspartokinase-homoserine dehydrogenase I remains sufficiently soluble so that the fluorescence and circular dichroism of the protein can be measured. Both parameters show that, up to 3 M guanidine hydrochloride, the protein exists in a stable folded state which possesses a large amount of secondary structure and buried tryptophan residues. This intermediate species is probably monomeric; it is reversibly unfolded by guanidine hydrochloride concentrations between 3 and 4 M. This folded species is formed rapidly from unfolded protein when the denaturant is diluted out, and this rapid folding step precedes all the reactivation steps described previously. The existence of a stable monomeric and folded intermediate indicates that the tertiary interactions have a major contribution to the stability of the native structure of aspartokinase-homoserine dehydrogenase I. Similar measurements were performed on two complementary nonoverlapping fragments: a kinase fragment corresponding to the N-terminal third and a dehydrogenase fragment corresponding to the C-terminal two-thirds of the polypeptide chain. Both fragments exist in a stable folded state up to 2.5 M guanidine hydrochloride. Both fragments show cooperative unfolding transitions between 2.5 and 4 M denaturant. The stability of the folded state of a given region is about the same in an isolated fragment and in the entire chain of aspartokinase-homoserine dehydrogenase I: indeed, an equimolar mixture of these two fragments and the intact chain would give about the same results. This indicates that folding of the kinase and dehydrogenase regions occurs independent ly with a single subunit of the entire protein.

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Role of subunit interactions in the self-assembly of oligomeric proteins

Garel

Martel

Müller

et al. 1984

Advances in Biophysics

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E.coli aspartokinase II-homoserine dehydrogenase II polypeptide chain has a triglobular structure

Belfaiza

Fazel

Müller

et al. 1984

Biochemical and Biophysical Research Communications

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K Müller

A triglobular model for the polypeptide chain of aspartokinase I-homoserine dehydrogenase I of Escherichia coli

Stepwise inactivation of Escherichia coli aspartokinase-homoserine dehydrogenase I

Folding of aspartokinase-homoserine dehydrogenase I is dominated by tertiary interactions

Role of subunit interactions in the self-assembly of oligomeric proteins

E.coli aspartokinase II-homoserine dehydrogenase II polypeptide chain has a triglobular structure

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