Effects of Nitrite, Chlorate, and Chlorite on Nitrate Uptake and Nitrate Reductase Activity

Abstract

Effects of NO₂⁻, ClO₃⁻, and ClO₂⁻ on the induction of nitrate transport and nitrate reductase activity (NRA) as well as their effects on NO₃⁻ influx into roots of intact barley (Hordeum vulgare cv Klondike) seedlings were investigated. A 24-h pretreatment with 0.1 mol m⁻³ NO₂⁻ fully induced NO₃⁻ transport but failed to induce NRA. Similar pretreatments with ClO₃⁻ and ClO₂⁻ induced neither NO₃⁻ transport nor NRA. Net ClO₃⁻ uptake was induced by NO₃⁻ but not by ClO₃⁻ itself, indicating that NO₃⁻ and ClO₃⁻ transport occur via the NO₃⁻ carrier. At the uptake step, NO₂⁻ and ClO₂⁻ strongly inhibited NO₃⁻ influx; the former exhibited classical competitive kinetics, whereas the latter exhibited complex mixed-type kinetics. ClO₃⁻ proved to be a weak inhibitor of NO₃⁻ influx (K_i = 16 mol m⁻³) in a noncompetitive manner. The implications of these findings are discussed in the context of the suitability of these NO₃⁻ analogs as screening agents for the isolation of mutants defective in NO₃⁻ transport.