The enzyme, characterized from Pseudomonas putida strains, catalyses the first step in a pathway for degradation of the plant hormone indole-3-acetate. When acting on indole, the enzyme forms indoxyl, which reacts spontaneously with oxygen to form the blue dye indigo.
The enzyme appears in viruses and cellular organisms
The enzyme, characterized from Pseudomonas putida strains, catalyses the first step in a pathway for degradation of the plant hormone indole-3-acetate. When acting on indole, the enzyme forms indoxyl, which reacts spontaneously with oxygen to form the blue dye indigo.
Substrates: enzyme catalyzes the hydroxylation of position 3 of the indole ring to produce indoxyl, which in the presence of oxygen dimerizes to form indigo Products: -
Substrates: enzyme catalyzes the hydroxylation of position 3 of the indole ring to produce indoxyl, which in the presence of oxygen dimerizes to form indigo Products: -
enzyme catalyzes the first step in degradation of the plant hormone indole-3-acetate. Transformation of Pseudomonas putida KT2440, which cannot degrade IAA, with the Iac gene cluster confers the ability to grow on indole-3-acetate as a sole source of carbon and energy, but not the ability to chemotaxis towards indole-3-acetate
strain 1290 is able to to use indole-3-acetic acid as a sole source of carbon, nitrogen, and energy. In root elongation assays, strain 1290 completely abolishes the inhibitory effect of exogenous indole-3-acetic acid on the elongation of radish roots
strain 1290 is able to to use indole-3-acetic acid as a sole source of carbon, nitrogen, and energy. In root elongation assays, strain 1290 completely abolishes the inhibitory effect of exogenous indole-3-acetic acid on the elongation of radish roots
enzyme catalyzes the first step in degradation of the plant hormone indole-3-acetate. Transformation of Pseudomonas putida KT2440, which cannot degrade IAA, with the Iac gene cluster confers the ability to grow on indole-3-acetate as a sole source of carbon and energy, but not the ability to chemotaxis towards indole-3-acetate
coinoculation of roots with strain 1290 and 1 mM of indole-3-acetic acid has a positive effect on root development. In coinoculation experiments on radish roots, strain 1290 is partially able to alleviate the inhibitory effect of bacteria that in culture overproduce indole-3-acetic acid
coinoculation of roots with strain 1290 and 1 mM of indole-3-acetic acid has a positive effect on root development. In coinoculation experiments on radish roots, strain 1290 is partially able to alleviate the inhibitory effect of bacteria that in culture overproduce indole-3-acetic acid