Zhang N., MacKown C. T.
Agronomy Department, Plant Physiology/Biochemistry/Molecular Biology (N.Z., C.T.M.), and United States Department of Agriculture-Agricultural Research Service, University of Kentucky (C.T.M.), Lexington, Kentucky 40546-0091.
Plant Physiol. 1993 Jul;102(3):851-857. doi: 10.1104/pp.102.3.851.
Cell suspensions of tobacco (Nicotiana tabacum L., cv KY14) were used to determine the responses of NO3- uptake and NO3- reductase activity (NRA) to exogenous NO3- levels in the absence of long-distance NO3- transport. Tobacco cells grown with complete Murashige and Skoog medium for 7 d were subcultured for 3 d with NH4+-free media containing 0, 5, 10, 20, 30, and 40 mM NO3-. Cell NO3-, in vitro NRA, NO3- influx, and efflux of cell NO3- were determined. The NRA increased as cell NO3- increased. Cell NO3- efflux values increased as cell NO3- level increased. Cells with low intracellular NO3- had greater NO3- influx than cells with high intracellular NO3-. Woolf-Augustinsson-Hofstee transformations of the NO3- influx kinetic data revealed patterns characteristic of a high- and low-affinity two-component NO3- uptake system. Apparent Vmax values generally decreased and Km values increased as cell NO3- concentration increased. The NRA of cells supplied with 10 and 20 mM NO3- after 3-d growth in N- free medium increased about 5-fold within 2 h and then remained constant for the next 2 h, whereas NRA of cells supplied with 5 mM NO3- increased only 2-fold during the 4-h period. Intracellular NO3- and other N metabolites associated with cell NO3- levels exerted differential effects on the NO3- influx activity and NRA of tobacco cells cultured in suspension. Expression of high NRA was correlated with both high external and intracellular NO3-, whereas maximum NO3- influx activity required a low (depleted) level of cell NO3-.
利用烟草(烟草(Nicotiana tabacum L.,品种KY14))的细胞悬浮液,在不存在长距离硝酸根转运的情况下,测定硝酸根吸收和硝酸根还原酶活性(NRA)对外源硝酸根水平的响应。在完全的Murashige和Skoog培养基中生长7天的烟草细胞,用含有0、5、10、20、30和40 mM硝酸根的无铵培养基继代培养3天。测定细胞硝酸根、体外NRA、硝酸根流入以及细胞硝酸根的流出。NRA随着细胞硝酸根的增加而增加。细胞硝酸根流出值随着细胞硝酸根水平的增加而增加。细胞内硝酸根含量低的细胞比细胞内硝酸根含量高的细胞具有更高的硝酸根流入。硝酸根流入动力学数据的Woolf-Augustinsson-Hofstee转换揭示了一个高亲和力和低亲和力双组分硝酸根吸收系统的特征模式。随着细胞硝酸根浓度的增加,表观Vmax值通常降低,Km值增加。在无氮培养基中生长3天后,供应10和20 mM硝酸根的细胞的NRA在2小时内增加了约5倍,然后在接下来的2小时内保持恒定,而供应5 mM硝酸根的细胞的NRA在4小时内仅增加了2倍。细胞内硝酸根和与细胞硝酸根水平相关的其他氮代谢物对悬浮培养的烟草细胞的硝酸根流入活性和NRA产生不同的影响。高NRA的表达与高外部和细胞内硝酸根相关,而最大硝酸根流入活性需要低(耗尽)水平的细胞硝酸根。