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完整小麦(普通小麦)幼苗对NO3-、NO2-和NH4+的吸收。I. 转运系统的诱导及动力学

The uptake of NO3-, NO2-, and NH4+ by intact wheat (Triticum aestivum) seedlings. I. Induction and kinetics of transport systems.

作者信息

Goyal S S, Huffaker R C

机构信息

Department of Agronomy and Range Science, University of California, Davis 95616, USA.

出版信息

Plant Physiol. 1986;82(4):1051-6. doi: 10.1104/pp.82.4.1051.

DOI:10.1104/pp.82.4.1051
PMID:11539085
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1056257/
Abstract

The inducibility and kinetics of the NO3-, NO2-, and NH4+ transporters in roots of wheat seedlings (Triticum aestivum cv Yercora Rojo) were characterized using precise methods approaching constant analysis of the substrate solutions. A microcomputer-controlled automated high performance liquid chromatography system was used to determine the depletion of each N species (initially at 1 millimolar) from complete nutrient solutions. Uptake rate analyses were performed using computerized curve-fitting techniques. More precise estimates were obtained for the time required for the extent of the induction of each transporter. Up to 10 and 6 hours, respectively, were required to achieve apparent full induction of the NO3- and NO2- transporters. Evidence for substrate inducibility of the NH4+ transporters requiring 5 hours is presented. The transport of NO3- was mediated by a dual system (or dual phasic), whereas only single systems were found for transport of NO2- and NH4+. The Km values for NO3-, NO2-, and NH4+ were, respectively, 0.027, 0.054, and 0.05 millimolar. The Km for mechanism II of NO3- transport could not be defined in this study as it exhibited only apparent first order kinetics up to 1 millimolar.

摘要

利用接近底物溶液恒定分析的精确方法,对小麦幼苗(Triticum aestivum cv Yercora Rojo)根系中NO₃⁻、NO₂⁻和NH₄⁺转运体的诱导性和动力学特性进行了表征。使用微机控制的自动高效液相色谱系统来测定完全营养液中每种氮素(初始浓度为1毫摩尔)的消耗情况。采用计算机化曲线拟合技术进行吸收速率分析。对于每种转运体诱导程度所需的时间,获得了更精确的估计值。分别需要长达10小时和6小时才能使NO₃⁻和NO₂⁻转运体达到明显的完全诱导。给出了需要5小时的NH₄⁺转运体底物诱导性的证据。NO₃⁻的转运由双系统(或双相)介导,而NO₂⁻和NH₄⁺的转运仅发现单系统。NO₃⁻、NO₂⁻和NH₄⁺的Km值分别为0.027、0.054和0.05毫摩尔。在本研究中,无法确定NO₃⁻转运机制II的Km值,因为在高达1毫摩尔时它仅表现出明显的一级动力学。

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