Johanna Mansfeld scite author profile

The thermal inactivation of broad specificity proteases such as thermolysin and subtilisin is initiated by partial unfolding processes that render the enzyme susceptible to autolysis. Previous studies have revealed that a surface-located region in the N-terminal domain of the thermolysin-like protease produced by Bacillus stearothermophilus is crucial for thermal stability. In this region a disulfide bridge between residues 8 and 60 was designed by molecular modelling, and the corresponding single and double cysteine mutants were constructed. The disulfide bridge was spontaneously formed in vivo and resulted in a drastic stabilization of the enzyme. This stabilization presents one of the very few examples of successful stabilization of a broad specificity protease by a designed disulfide bond. We propose that the success of the present stabilization strategy is the result of the localization and mutation of an area of the molecule involved in the partial unfolding processes that determine thermal stability.

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α-Amylase from mung beans (Vigna radiata) – Correlation of biochemical properties and tertiary structure by homology modelling

Tripathi

Leggio

Mansfeld

et al. 2007

Phytochemistry

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Secretory phospholipase A2-α from Arabidopsis thaliana: functional parameters and substrate preference

Mansfeld¹,

Ulbrich‐Hofmann²

2007

Chemistry and Physics of Lipids

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Increased proteolytic resistance of ribonuclease A by protein engineering

Markert¹,

Köditz²,

Mansfeld³

et al. 2001

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Although highly stable toward unfolding, native ribonuclease A is known to be cleaved by unspecific proteases in the flexible loop region near Ala20. With the aim to create a protease-resistant ribonuclease A, Ala20 was substituted for Pro by site-directed mutagenesis. The resulting mutant enzyme was nearly identical to the wild-type enzyme in the near-UV and far-UV circular dichroism spectra, in its activity to 2',3'-cCMP and in its thermodynamic stability. However, the proteolytic resistance to proteinase K and subtilisin Carlsberg was extremely increased. Pseudo-first-order rate constants of proteolysis, determined by densitometric analysis of the bands of intact protein in SDS-PAGE, decreased by two orders of magnitude. In contrast, the rate constant of proteolysis with elastase was similar to that of the wild-type enzyme. These differences can be explained by the analysis of the fragments occurring in proteolysis with elastase. Ser21-Ser22 was identified as the main primary cleavage site in the degradation of the mutant enzyme by elastase. Obviously, this bond is not cleavable by proteinase K or subtilisin Carlsberg. The results demonstrate the high potential of a single mutation in protein stabilization to proteolytic degradation.

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Secretory Phospholipase A₂ from Arabidopsis thaliana: Insights into the Three-Dimensional Structure and the Amino Acids Involved in Catalysis

et al. 2006

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A low-molecular weight phospholipase A2 from Arabidopsis thaliana, isoform phospholipase A2-alpha, has been expressed in Escherichia coli in the form of inclusion bodies, refolded, and purified to homogeneity to yield the active mature enzyme. The enzyme was characterized with respect to pH, temperature optimum, and Ca2+ ion requirement. The enzyme has been shown to be a true secretory phospholipase A2 that requires Ca2+ ions in the millimolar range and belongs to group XIB. On the basis of the three-dimensional structures of secretory phospholipase A2 forms (sPLA2s) from bee venom and bovine pancreas, a homology model was generated. Analysis of this model and alignments of different plant sPLA2s showed that the common His-Asp dyad of animal sPLA2s does not exist in plant sPLA2s. In place of the aspartate residue of the dyad, the plant enzymes of group XIA contain a histidine residue, and the enzymes of group XIB contain a serine or an asparagine residue. Mutagenesis of amino acids supposed to be involved in catalysis has shown that His62, the calcium-coordinating Asp63, and the above-mentioned Ser79 residue are essential for activity.

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