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− | <h4> <b> <li> | + | <h4> <b> <li> des A, lysine decarboxylase coding sequence (BbaK1951000)</b></h4></li> |
This DNA sequence codes Lysine descarboxylase (Streptomyces) is an enzyme from the lyase family that converts lysine to cadaverin. The enzyme realizes the carbonyl group of the lysin amino acid. There is cadeverin producing (1,5-diaminopentane), a primary diamine which alkaline environment. The lysine decarboxylase is an enzyme induced the synthesis of which is promoted by anaerobiosis and an acidic pH. | This DNA sequence codes Lysine descarboxylase (Streptomyces) is an enzyme from the lyase family that converts lysine to cadaverin. The enzyme realizes the carbonyl group of the lysin amino acid. There is cadeverin producing (1,5-diaminopentane), a primary diamine which alkaline environment. The lysine decarboxylase is an enzyme induced the synthesis of which is promoted by anaerobiosis and an acidic pH. | ||
In bacteriology, this enzyme is sought through the middle of Moeller lysine or medium lysine Taylor. This enzyme is also the first step in the production of desferrioxame B which is a siderophore. | In bacteriology, this enzyme is sought through the middle of Moeller lysine or medium lysine Taylor. This enzyme is also the first step in the production of desferrioxame B which is a siderophore. | ||
− | <h4> <b> | + | <h4> <b> <li> des B, monooxygenase coding sequence (BbaK1951001)</li></b> </h4> |
This sequence codes Monooxygenase which is an enzyme that incorporate one hydroxyl group into substrates in many metabolic pathways. In this reaction, the two atoms of dioxygen are reduced to one hydroxyl and one H2O molecule by the concomitant oxidation of NAD(P)H. It is also the second step in the production of desferrioxamine B in Streptomyces, allowing the transformation of cadeverine into N-hydroxycadaverine. | This sequence codes Monooxygenase which is an enzyme that incorporate one hydroxyl group into substrates in many metabolic pathways. In this reaction, the two atoms of dioxygen are reduced to one hydroxyl and one H2O molecule by the concomitant oxidation of NAD(P)H. It is also the second step in the production of desferrioxamine B in Streptomyces, allowing the transformation of cadeverine into N-hydroxycadaverine. |