The nitrogen metabolism of Spirodela oligorrhiza

Abstract

Nitrate reductase (NO₃R) in Spirodela oligorrhiza has a specific requirement for NAD, and no activity could be detected when reduced NADP was supplied as a cofactor. NO₃R and nitrite reductase (NO₂R) are adaptive enzymes, being present only when the plant is supplied with NO₃ or NO₂. There is significant correlation between the concentration of NO₃ in plants, and the levels of NO₃R that they contain. When plants not containing NO₃R or NO₂R are supplied with NO₃, there was a rapid increase in the levels of the two enzymes and in the concentration of NO₃ in the plants. These increases were retarded but not prevented by NH₄ in the medium. When NO₃-grown plants were depleted of N, there was a rapid decrease in the levels of NO₃R and NO₂R. The utilization of NH₄ prevented the assimilation of NO₃ even by plants that contained high levels of NO₃R and NO₂R. It was therefore concluded that NH₄, or the processes or products of its assimilation must inhibit the activity of NO₃R. NH₄, arginine, asparagine or glutamine, tested separately or together, had little effect on the in vitro activity of NO₃R.