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 br...
The effects of engineered disulfide bonds on autodigestion and thermostability of Bacillus subtilis ...
The effects of engineered disulfide bonds on autodigestion and thermostability of Bacillus subtilis ...
The effects of engineered disulfide bonds on autodigestion and thermostability of Bacillus subtilis ...
The thermal inactivation of broad specificity proteases such as thermolysin and subtilisin is initia...
The thermal inactivation of broad specificity proteases such as thermolysin and subtilisin is initia...
The thermal inactivation of broad specificity proteases such as thermolysin and subtilisin is initia...
The thermal inactivation of broad specificity proteases such as thermolysin and subtilisin is initia...
The thermal inactivation of broad specificity proteases such as thermolysin and subtilisin is initia...
Protein stabilization by immobilization has been proposed to be most effective if the protein is att...
Protein stabilization by immobilization has been proposed to be most effective if the protein is att...
Protein stabilization by immobilization has been proposed to be most effective if the protein is att...
Protein stabilization by immobilization has been proposed to be most effective if the protein is att...
The effects of engineered disulfide bonds on autodigestion and thermostability of Bacillus subtilis ...
The effects of engineered disulfide bonds on autodigestion and thermostability of Bacillus subtilis ...
The effects of engineered disulfide bonds on autodigestion and thermostability of Bacillus subtilis ...
The effects of engineered disulfide bonds on autodigestion and thermostability of Bacillus subtilis ...
The effects of engineered disulfide bonds on autodigestion and thermostability of Bacillus subtilis ...
The effects of engineered disulfide bonds on autodigestion and thermostability of Bacillus subtilis ...
The thermal inactivation of broad specificity proteases such as thermolysin and subtilisin is initia...
The thermal inactivation of broad specificity proteases such as thermolysin and subtilisin is initia...
The thermal inactivation of broad specificity proteases such as thermolysin and subtilisin is initia...
The thermal inactivation of broad specificity proteases such as thermolysin and subtilisin is initia...
The thermal inactivation of broad specificity proteases such as thermolysin and subtilisin is initia...
Protein stabilization by immobilization has been proposed to be most effective if the protein is att...
Protein stabilization by immobilization has been proposed to be most effective if the protein is att...
Protein stabilization by immobilization has been proposed to be most effective if the protein is att...
Protein stabilization by immobilization has been proposed to be most effective if the protein is att...
The effects of engineered disulfide bonds on autodigestion and thermostability of Bacillus subtilis ...
The effects of engineered disulfide bonds on autodigestion and thermostability of Bacillus subtilis ...
The effects of engineered disulfide bonds on autodigestion and thermostability of Bacillus subtilis ...
The effects of engineered disulfide bonds on autodigestion and thermostability of Bacillus subtilis ...
The effects of engineered disulfide bonds on autodigestion and thermostability of Bacillus subtilis ...
The effects of engineered disulfide bonds on autodigestion and thermostability of Bacillus subtilis ...