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Plant Physiology 1985-Oct

Assaying ornithine and arginine decarboxylases in some plant species.

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H Birecka
A J Bitonti
P P McCann

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A release of (14)CO(2) not related to ornithine decarboxylase activity was found in crude leaf extracts from Lycopersicon esculentum, Avena sativa, and especially from the pyrrolizidine alkaloid-bearing Heliotropium angiospermum when incubated with [1-(14)C]- or [U-(14)C]ornithine. The total (14)CO(2) produced was about 5- to 100-fold higher than that due to ornithine decarboxylase activities calculated from labeled putrescine (Put) found by thin-layer electrophoresis in the incubation mixtures. Partial purification with (NH(4))(2)SO(4) did not eliminate completely the interfering decarboxylation. When incubated with labeled arginine, a very significant (14)CO(2) release not related to arginine decarboxylase activity was observed only in extracts from H. angiospermum leaves, especially in Tris.HCl buffer. Under the assay conditions, these extracts exhibited oxidative degradation of added Put and agmatine (Agm) and also revealed a high arginase activity. Amino-guanidine at 0.1 to 0.2 millimolar prevented Put degradation and greatly decreased oxidative degradation of Agm; ornithine at 15 to 20 millimolar significantly inhibited arginase activity. A verification of the reliability of the standard (14)CO(2)-based method by assessing labeled Put and/or Agm-formed in the presence of added aminoguanidine and/or ornithine when needed-is recommended especially when crude or semicrude plant extracts are assayed.When based on Put and/or Agm formed at 1.0 to 2.5 millimolar of substrate, the activities of ornithine decarboxylase and arginine decarboxylase in the youngest leaves of the tested species ranged between 1.1 and 3.6 and 1 and 1600 nanomoles per hour per gram fresh weight, respectively. The enzyme activities are discussed in relation to the biosynthesis of pyrrolizidine alkaloids.

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