A new thermophilic nitrilase from Pyrococcus sp. M24D13

A new thermophilic nitrilase from an Antarctic hyperthermophilic microorganism by Geraldine V. Dennett and Jenny M. Blamey

Front. Bioeng. Biotechnol.  doi: 10.3389/fbioe.2016.00005

Several environmental samples from Antarctica were collected and enriched to search for microorganisms with nitrilase activity. A new thermostable nitrilase from a novel hyperthermophilic archaea Pyrococcus sp. M24D13 was purified and characterized. The activity of this enzyme increased as the temperatures rise from 70 up to 85 °C. Its optimal activity occurred at 85 °C and pH 7.5. This new enzyme shows a remarkable resistance to thermal inactivation retaining more than 50% of its activity even after 8 h of incubation at 85 °C. In addition, this nitrilase is highly versatile demonstrating activity towards different substrates such as benzonitrile (60 mM, aromatic nitrile) and butyronitrile (60 mM, aliphatic nitrile). Moreover the enzyme NitM24D13 also presents cyanidase activity.

A nitrile hydratase for cyanopyridines... and it's a bit more stable than usual.

There is a paper in Process Biochemistry which describes a new NHase from Aurantimonas manganoxydans which shows improved stability than you can normally expect from a NHase. It is entitled “Efficient cloning and expression of a thermostable nitrile hydratase in Escherichia coli using an auto-induction fed-batch strategy”, and it is by Xiaolin Peia, Hongyu Zhang, Lijun Meng, Gang Xu, Lirong Yang and Jianping Wu. This NHase is four times more rapid at converting 3-cyanopyridine to its corresponding amide as valeronitrile, and the authors emphasize their enzyme's stability though in the world of NHases where nothing is what you might describe as thermophilic, please don't get too expectant! They have a great table of NHase thermostability which I reproduce with their enzyme's data inserted.