EC Number |
Application |
Reference |
---|
3.1.1.3 | biofuel production |
biodiesel production |
-, 727566 |
3.1.1.3 | biofuel production |
Candida rugosa lipase immobilized on hydrous niobium oxide to be used in the biodiesel synthesis |
714870 |
3.1.1.3 | biofuel production |
conversion of degummed soybean oil to biodiesel fuel, synthesis of lipase-catalyzed biodiesel |
-, 691403 |
3.1.1.3 | biofuel production |
lipase catalyzes biodiesel production using soybean oil and ethanol as substrates and pressurized n-propane as solvent |
715691 |
3.1.1.3 | biofuel production |
LP326 catalyzes biodiesel production using methanol and various oils |
-, 714489 |
3.1.1.3 | biotechnology |
biocatalytic surfactant production, for example the synthesis of myristyl myristate. |
691346 |
3.1.1.3 | biotechnology |
the alkaline lipase is stable and active in organic solvents and a water-restricted environment and has a great potential as a biotechnological tool e.g. in organosynthetic reactions in water-restricted medium or in control and prevention of metalworking fluid putrification in the metal industry |
680948 |
3.1.1.3 | biotechnology |
the enzyme can be used for hydrolysis and synthesis of various esters, mutagenic modification and optimization of Candida rugosa isozymes for enantioselective, substrate-specific biocatalysis, improvement of thermostability, enantioselectivity, and substrate specificity, possible reactions are hydrolysis, direct esterification, acidolysis, alcoholysis, ester-interchange, and glycerolysis, overview |
666217 |
3.1.1.3 | detergent |
detergents and cold water washing, production of alpha-butylglucoside lactate by transesterification for cosmetics |
-, 691403 |
3.1.1.3 | detergent |
strain M1, enzyme is used for removal of fatty stains under conditions of a modern machine wash and in alkaline environment |
650654 |