Yvonne Markert scite author profile

The virtue of the so-called 'proline concept' and the 'charge concept' for stabilizing protease-susceptible regions of a protein structure was compared on bovine pancreatic ribonuclease A. Alanine 20 and serine 21, both of which are located in a loop that is susceptible to the unspecific proteases subtilisin Carlsberg, subtilisin BPN', proteinase K and elastase, were replaced with proline or lysine by site-directed mutagenesis. The rate constant of proteolysis was decreased by up to three orders of magnitude for the proline mutants depending on the site of the mutation and the protease used. In contrast, substitution by lysine increased the proteolytic resistance by only one order of magnitude characterizing the 'proline concept' as superior to the 'charge concept'. Although the four applied proteases are considered to be unspecific, the degree of stabilization of the ribonuclease molecule varied considerably, indicating the impact of individual differences in their substrate specificity on the proteolytic resistance and degradation pathway of the target protein.

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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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Disulfide bonds of phospholipase A2 from bee venom yield discrete contributions to its conformational stability

et al. 2011

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Local fluctuations vs. global unfolding of proteins investigated by limited proteolysis

Arnold

Köditz

Markert

et al. 2005

Biocatalysis and Biotransformation

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Production of synthetically created phospholipase A₂ variants with industrial impact

Markert

Mansfeld

Schierhorn

et al. 2007

Biotech & Bioengineering

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Phospholipases A(2) (PLA(2)) play an important role for the production of lysophospholipids. Presently they are mainly obtained from porcine or bovine pancreas but these mammalian sources are not accepted in several fields of application. To make accessible a non-mammalian PLA(2) to industrial application, synthetic genes encoding PLA(2) from honey bee (Apis mellifera) with modified N-termini were constructed and expressed in Escherichia coli. While expression of the gene with an N-terminal leader sequence to direct the protein into the periplasm failed, four variants with slightly modified N-termini (I1A-PLA(2), I1V-PLA(2), His(6)-tagged PLA(2) and PLA(2) still containing the start methionine) were successfully expressed. In all cases, the PLA(2) variants were produced as inclusion bodies. Their protein content amounted to 26-35% of total cell protein. The optimized renaturation procedure and subsequent purification by cation-exchange chromatography yielded pure active enzymes in yields of 4-11 mg L(-1). The recombinant PLA(2) variants showed activities, far-UV CD and fluorescence spectra similar to the glycosylated PLA(2) isolated from the venom glands of honey bee (bv-PLA(2)). The thermodynamic stabilities of the recombinant enzymes calculated from the transition curves of guanidine hydrochloride induced unfolding were also nearly identical to the stability of bv-PLA(2). For the variant I1A-PLA(2) high-cell density fermentation in 10 L-scale using mineral salt medium was shown to increase the volumetric enzyme yield considerably.

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Yvonne Markert

Proline versus charge concept for protein stabilization against proteolytic attack

Increased proteolytic resistance of ribonuclease A by protein engineering

Disulfide bonds of phospholipase A2 from bee venom yield discrete contributions to its conformational stability

Local fluctuations vs. global unfolding of proteins investigated by limited proteolysis

Production of synthetically created phospholipase A₂ variants with industrial impact

Contact Info

Product

Resources

About

Yvonne Markert

Proline versus charge concept for protein stabilization against proteolytic attack

Increased proteolytic resistance of ribonuclease A by protein engineering

Disulfide bonds of phospholipase A2 from bee venom yield discrete contributions to its conformational stability

Local fluctuations vs. global unfolding of proteins investigated by limited proteolysis

Production of synthetically created phospholipase A2 variants with industrial impact

Contact Info

Product

Resources

About

Production of synthetically created phospholipase A₂ variants with industrial impact