C J A Wallace scite author profile

This communication introduces a simple method to determine the pKs of microscopic ionizations from complex titration curves. We used this approach to study the alkaline transition (pH-dependent ligand exchange) of mitochondrial cytochrome c. The linearization of titration curves permitted resolution of two to three limiting microscopic ionizations. By combining these data with studies of the temperature dependence of ligand-exchange equilibria, we found evidence that the alkaline transition comprises two chemically distinct processes: the deprotonation of the alternative ligands and the break of the iron-methionine ligation bond. We also noted that, in the horse and untrimethylated S. cerevisiae iso-1 cytochromes c, the permissible deprotonation of the ⑀-amino group of Lys 72 allows formation of an alkaline isomer at lower pH, with lesser stability, which leads to hysteresis in the titration curves. The linearization of the titration curves for different cytochromes c thus brings insight on the microscopic contributions to conformational stability.

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The effect of complete or specific partial acetimidylation on the biological properties of cytochrome c and cytochrome c-T

Wallace¹

1984

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The biological consequences of acetimidylation of all 19 epsilon-amino groups of horse cytochrome c are a slight decrease in both the redox potential of the protein and its ability to stimulate oxygen uptake in the cytochrome c-depleted-mitochondria assay. Examination of a number of specific partially acetimidylated analogues and acetimidylated cytochromes c of other species has shown that the changes in biological properties, which are associated with a slight structural change as monitored by n.m.r. spectroscopy [Boswell, Moore, Williams, Harris, Wallace, Bocieck & Welti (1983) Biochem. J. 213, 679-686], appear to stem from modification of residues in a restricted region of the sequence. The failure of the redox potential of Saccharomyces cerevisae cytochrome c to be affected by acetimidylation suggests that it is lysine-53, absent from that species, that is the sensitive residue.

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On the relationship between oxidation-reduction potential and biological activity in cytochrome c analogues. Results from four novel two-fragment complexes

Wallace

Proudfoot

1987

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We have confirmed the propensity of fragments of cytochrome c to form complexes that reproduce the structure and, in part, the functionality, of the native protein by preparing four novel complexes. We have used trypsin under three different sets of conditions in sequence to prepare a contiguous two-fragment complex (1-55).(56-104). One of the intermediates is a stable overlapping complex (1-65).(56-104). Conditions for limited acid hydrolysis of peptide bonds in cytochrome c have been developed that optimize the yield of fragments (1-50) and (51-104). These two fragments also form a stable association, as do (1-50) and (56-104). These complexes are potentially useful for the semisynthesis of analogues modified in the region of the cleavage sites, which include a number of highly conserved amino acid residues, and are being used for studies of protein folding, interactions with oxidase, cytochrome c immunogenicity and of artificially induced spontaneous resyntheses between complexing fragments. Like other known two-fragment complexes of cytochrome c, they exhibit normal visible spectra, including the presence of the 695 nm band, indicative of a functional haem crevice. Studies of their biological activities and redox potentials lead to a number of conclusions on structure-function relationships in cytochrome c. Most significantly there is a linear relationship between the logarithm of electron-transfer rates from cytochrome c reductase and redox potential in this series of analogues, indicating that such transfer is thermodynamically controlled. This discovery contributes to our understanding of the interaction of cytochrome and reductase. Since the relationship is obeyed by other types of analogues, except for those that involve modification of the active site of cytochrome c, we have a useful diagnostic for those residues that participate directly in electron transfer.

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The preparation of fully N-ε-acetimidylated cytochrome c

Wallace¹,

Harris²

1984

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We have re-examined the acetimidylation and subsequent deprotection of cytochrome c by published methods in the light of recent findings on the tendency of protein acetimidylation reactions to yield side products of differing net charges. We find that the protection methods do indeed yield a mixture of products, some of which have considerably diminished biological activity. Our observations support a postulated mechanism for the generation of side products, and we have been able to identify the major factor responsible for their formation by published methods. The deprotection method appears to be free of side reactions. We describe a new procedure for acetimidylation that will produce fully N-epsilon-acetimidylated cytochrome c. This derivative, lacking detectable side products and having good biological activity, is useful for structure-function studies and as an intermediate in the semisynthesis of cytochrome c analogues.

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C J A Wallace

Cloning, Sequence Analysis and Expression of Xylan-Degrading Enzymes From the Thermophile Caldocellum Saccharolyticum

Resolving the Individual Components of a pH-Induced Conformational Change

The effect of complete or specific partial acetimidylation on the biological properties of cytochrome c and cytochrome c-T

On the relationship between oxidation-reduction potential and biological activity in cytochrome c analogues. Results from four novel two-fragment complexes

The preparation of fully N-ε-acetimidylated cytochrome c

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