Previously, Lipase A from Bacillus subtilis was subjected to in vitro directed evolution using iterative saturation mutagenesis, with randomization sites chosen on the basis of the highest B-factors available from the crystal structure of the wild-type (WT) enzyme. This provided mutants that, unlike WT enzyme, retained a large part of their activity after heating above 65 C and cooling down. Here, we subjected the three best mutants along with the WT enzyme to biophysical and biochemical characterization. Combining thermal inactivation profiles, circular dichroism, X-ray structure analyses and NMR experiments revealed that mutations of surface amino acid residues counteract the tendency of Lipase A to undergo precipitation under thermal str...
AbstractDirected evolution by error-prone PCR was applied to stabilize the cold-active lipase from P...
Proteins in thermophilic organisms remain stable and function optimally at high temperatures. Owing ...
The structural origin of enzyme cold-adaptation has been the subject of considerable research effort...
Previously, Lipase A from Bacillus subtilis was subjected to in vitro directed evolution using itera...
Previously, Lipase A from Bacillus subtilis was subjected to in vitro directed evolution using itera...
Variation in gene sequences generated by directed evolution approaches often does not assure a minim...
Improving the thermostability of industrial enzymes is an important protein engineering challenge. P...
Rational and in vitro evolutionary approaches to improve either protein stability or aggregation res...
Bacillus subtilis lipase loses activity above pH 10.5 and below pH 6.0. However, at low pH, i.e. bel...
Small molecular weight Bacillus lipases are industrially attractive because of its alkaline optimum ...
Temperature stability of Bacillus subtilis lipase mutant crystal structures obtained from PDB genera...
Previously, we evolved Lipase A from Bacillus subtilis towards increased thermostability. The result...
In order to understand the molecular basis of cold adaptation, we have used directed evolution to tr...
To improve enzymatic activity of Bacillus pumilus lipases, DNA shuffling was applied to two lipase g...
Protein thermostability is a crucial factor for biotechnological enzyme applications. Protein engine...
AbstractDirected evolution by error-prone PCR was applied to stabilize the cold-active lipase from P...
Proteins in thermophilic organisms remain stable and function optimally at high temperatures. Owing ...
The structural origin of enzyme cold-adaptation has been the subject of considerable research effort...
Previously, Lipase A from Bacillus subtilis was subjected to in vitro directed evolution using itera...
Previously, Lipase A from Bacillus subtilis was subjected to in vitro directed evolution using itera...
Variation in gene sequences generated by directed evolution approaches often does not assure a minim...
Improving the thermostability of industrial enzymes is an important protein engineering challenge. P...
Rational and in vitro evolutionary approaches to improve either protein stability or aggregation res...
Bacillus subtilis lipase loses activity above pH 10.5 and below pH 6.0. However, at low pH, i.e. bel...
Small molecular weight Bacillus lipases are industrially attractive because of its alkaline optimum ...
Temperature stability of Bacillus subtilis lipase mutant crystal structures obtained from PDB genera...
Previously, we evolved Lipase A from Bacillus subtilis towards increased thermostability. The result...
In order to understand the molecular basis of cold adaptation, we have used directed evolution to tr...
To improve enzymatic activity of Bacillus pumilus lipases, DNA shuffling was applied to two lipase g...
Protein thermostability is a crucial factor for biotechnological enzyme applications. Protein engine...
AbstractDirected evolution by error-prone PCR was applied to stabilize the cold-active lipase from P...
Proteins in thermophilic organisms remain stable and function optimally at high temperatures. Owing ...
The structural origin of enzyme cold-adaptation has been the subject of considerable research effort...
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