小麦（普通小麦）叶片切段的亚细胞NH通量分析。

Subcellular NH flux analysis in leaf segments of wheat (Triticum aestivum).

作者信息

Britto Dev T, Siddiqi M Yaeesh, Glass Anthony D M, Kronzucker Herbert J

机构信息

Division of Life Sciences, University of Toronto, 1265 Military Trail, Scarborough, Ontario, Canada M1C 1A4.

Department of Botany, University of British Columbia, 6270 University Blvd., Vancouver, British Columbia, Canada V6T 1Z4.

出版信息

New Phytol. 2002 Sep;155(3):373-380. doi: 10.1046/j.1469-8137.2002.00471.x.

DOI:10.1046/j.1469-8137.2002.00471.x

PMID:33873307

Abstract

• We report the first use of tracer NH ( N-ammonium) efflux and retention data to analyse subcellular fluxes and compartmentation of NH in the leaves of a higher plant (wheat, Triticum aestivum). • Leaf segments, 1-2 mm, were obtained from 8-d-old seedlings. The viability of the segments, and stability of NH acquisition over time, were confirmed using oxygen-exchange and NH -depletion measurements. Fluxes of NH and compartment sizes were estimated using tracer efflux kinetics and retention data. • Influx and efflux across the plasma membrane, half-lives of exchange and cytosolic pool sizes were broadly similar to those in root systems. As the external concentration of NH ([NH ] ) increased from 10 µ m to 10 m m , both influx and efflux greatly increased, with a sixfold increase in the ratio of efflux to influx. Half-lives were similar among treatments, except at [NH ] = 10 m m , where they declined. Concentrations of NH in the cytosol ([NH ] ) increased from 2.6 to 400 m m . • Although [NH ] became large as [NH ] increased, the ratio of [NH ] to [NH ] decreased more than sixfold. The apparently futile cycling of NH at high [NH ] suggested by the large fluxes of NH in both directions across the membrane indicate that leaf cells respond to potentially toxic NH concentrations in a manner similar to root cells.

摘要

• 我们首次利用示踪剂NH₄⁺（N - 铵）的外排和保留数据，分析了高等植物（小麦，Triticum aestivum）叶片中NH₄⁺的亚细胞通量和区室化情况。

• 从8日龄的幼苗上获取1 - 2毫米的叶片切段。通过氧交换和NH₄⁺消耗测量，证实了切段的活力以及NH₄⁺摄取随时间的稳定性。利用示踪剂外排动力学和保留数据估算了NH₄⁺的通量和区室大小。

• 跨质膜的流入和流出、交换半衰期和胞质池大小与根系中的情况大致相似。随着外部NH₄⁺浓度（[NH₄⁺]ₑ）从10 μM增加到10 mM，流入和流出都大幅增加，流出与流入的比率增加了六倍。除了在[NH₄⁺]ₑ = 10 mM时半衰期下降外，各处理间的半衰期相似。胞质中NH₄⁺的浓度（[NH₄⁺]c）从2.6 mM增加到400 mM。

• 尽管随着[NH₄⁺]ₑ的增加[NH₄⁺]c变得很大，但[NH₄⁺]c与[NH₄⁺]ₑ的比率下降了六倍多。膜两侧双向的大量NH₄⁺通量表明在高[NH₄⁺]ₑ时NH₄⁺存在明显的无效循环，这表明叶细胞对潜在有毒的NH₄⁺浓度的反应方式与根细胞相似。

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小麦（普通小麦）叶片切段的亚细胞NH通量分析。

Subcellular NH flux analysis in leaf segments of wheat (Triticum aestivum).

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