植物中硝酸还原酶和亚硝酸还原酶的作用

植物通过硝酸盐同化途径以硝酸盐和氨的形式吸收氮元素。硝酸盐的同化是一个受到严格控制的过程,其中两个先后参加反应的酶——硝酸还原酶(NR)和亚硝酸还原酶(NiR)对初级氮的同化起主要调控。在高等植物中,NR和NiR基因的转录及转录后加工受到各种内在和外在因素的影响,翻译后调控是消除亚硝酸盐积累的重要机制。随着分子生物学技术的发展,可以更容易地通过突变体和转基因方式来研究NR和NiR基因的调控。     

水稻硝酸还原酶的RNA干涉及其酶活性分析

分析水稻硝酸还原酶（NR）基因生物信息学的结果显示：水稻基因纽中有2个NR基因成员：一个为NR[NADH]（NR1）：另一个为NR[NAD（P）H]（NR2）。两者的蛋白序列相似性为70％。用RT—PCR技术从水稻cDNA中获得了NR1和NR2的cDNA片段,其大小分别为1086bp和892bp。构建RNA干涉载体（称pRNAi—NR1和pRNAi-NR2）转化水稻愈伤组织后检测转基因后代酶活性的结果表明：两种干涉植株的根叶中的NR活性均大幅度下降,并且根叶中的活性变化呈线性正相关关系。表明2个基因可能均有调控根叶中NR活性的作用。     

UV-B Radiation Mediated Alterations in the Nitrate Assimilation Pathway of Crop Plants 2. Kinetic Characteristics of Nitrite Reductase

Cowpea [Vigna unguiculata (L.) Walp. cv. Co 4] seedlings were subjected to a weighted irradiance of 3.2 W m^-2 s^-1 of biologically effective ultraviolet-B radiation (UV-B, 280–320 nm) and the changes in the kinetic and other characteristics of nitrite reductase (NiR) were recorded. The activity of NiR was hampered by 19 % under UV-B irradiation compared to the control. The UV-B treated plants required higher concentrations of nitrate for the induction of NiR synthesis than the controls. The NiR activity decay kinetics showed that the UV-B treatment significantly lowers the t_1/2 of the enzyme, thereby indicating a reduced rate of enzyme turnover. The comparison of kinetic characteristics of nitrate reductase (NR) and NiR under UV-B treatment showed that NiR was not so sensitive to UV-B radiation as NR. As shown by enzyme turnover rates, NiR extracted from plants irradiated by UV-B in situ was less sensitive to UV-B radiation than the enzyme extract subjected to in vitro UV-B irradiation. Though NiR was less damaged by UV-B treatment than NR, subtle changes occurred in its kinetic characteristics. This revised version was published online in June 2006 with corrections to the Cover Date.     

小麦开花后不同器官中硝酸还原酶和谷氨酰胺合成酶的活性比较

小麦开花后各器官的硝酸还原酶和谷氨酰胺合成酶均具有一定的活性,旗叶中硝酸还原酶和谷氨酰胺合成酶活性最高。开花后旗叶和根系硝酸还原酶和谷氨酰胺合成酶活性逐渐降低,颗壳和籽粒中硝酸还原酶和谷氨酰胺合成酶活性先升高,达到最大值后又降低。     

地中海拟无枝菌酸菌(Amycolatopsis mediteranei)U-32硝酸还原酶的定位、纯化及性质

在力复霉素ＳＶ研究中,发现硝酸盐对抗生素合成呈现多效性作用,不仅大幅度提高产量,还对产生菌——地中海拟无枝菌酸菌生理产生多方面的影响,从而提出整体性调节的结论．这一多效性作用是由硝酸盐所引起的,为此对硝酸还原酶进行了研究．首先,通过原生质体渗透裂解发现地中海拟无枝菌酸菌Ｕ－３２的硝酸还原酶是一个胞质酶．该酶极不稳定,缓冲液中加入硝酸钾、甘油等保护剂能极大地提高其稳定性．通过硫酸鱼精蛋白沉淀,硫酸铵分级分离,Ｐｈｅｎｙｌ－ＳｅｐｈａｒｏｓｅＣＬ４Ｂ、Ｂｉｏ－ＧｅｌＡ１．５ｍＤＥＡＥ－Ｓｅｐｈａｃｅｌ和ＳｅｐｈａｄｅｘＧ－７５柱层析等多步纯化得到了电泳纯的硝酸还原酶．该酶为一７９ｋＤ的单亚基酶,每分子酶含有约２．２９原子的钼,但并不含有非血红素铁、酸不稳定硫、ＦＭＮ及ＦＡＤ,其等电点为６．２,反应最适ｐＨ为７．２,最适温度为４０℃．对硝酸根的Ｋｍ值为１３．３μｍｏｌ／Ｌ．同时分析了该酶的吸收光谱．     

Induction of Nitrate Reductase and Peroxidase Activity in the Seedlings of Normal and High Lysine Maize

Steady state levels of in vivo nitrate reductase activity in the endosperm, scutella, roots and shoots of maize seedlings were higher in normal maize than those in high lysine maize. Activity of peroxidase in the roots, however, was higher in the high lysine cultivar. The nitrate reductase activity increased with the supply of nitrate in all parts of the seedlings of both cultivars, although the rates of increment in the endosperm were lower than those in scutella, roots and shoots. In relation to substrate concentration, a saturation was achieved at 5 to 10 mM of nitrate except in the endosperm, where activity increased slowly up to 100 mM at least. Final levels of enzyme activity were significantly higher in the scutella of normal than in that of high lysine seedlings. In vitro enzyme activity in the roots also increased with the supply of nitrate in both cultivars, reaching maximum at 5 to 10 mM nitrate.     

Primary Analysis of Components in Different Soybean Nodulating Mutants and their Effects on Nitrate Reductase Activity and Nodulation

The water extracts of leaves and roots from supernodulating soybean (Glycine max (L.) Merr. ) nts 382 and nonnodulating soybean Nod 49 have been chromatographed using filtering method through the column (25 cm × 2 cm) Sephadex G25 and 4 fractions, namly, nts 382 (Nod 49) F1, nts 382 (Nod 49) F2, nts 382 (Nod 49) F3, and nts 382 (Nod 49) F4 could be distinguished according to nitrate reductase (NR) activities inhibited by the eluate. The inhibition of NR activity by the noninoculated nts 382 F2 and the nts 382 F4 in vitro were much stronger than that by the inoculated nts 382 F2 and nts 382 F4. On the contrary, the obvious inhibition of NR activity in vitro by the noninoculated Nod 49 F2 and Nod 49 F4 were substantialy strengthed again by the innoculated Nod 49 F2 and Nod 49 F4. The facts indicated that the quantity of NR inhibitors in the leaf cells of soybean nts 382 reduced after the inoculation but was that in the inoculated Nod 49 leaf cells further more accumulated. Both nodulations assays, the nodulation of soybean "Bragg " injected with inoculated nts 382 Fl, nts 382 F2, nts 382 F3 and nts 382 F4 from leaves and roots and the nodulation of soybean nts 382 injected with inoculated Nod 49 F2, Nod 49 F3 and Nod 49 F4 from leaves only showed that nts 382 Fl and nts 382 F2 increased nodules of soybean "Bragg" by 1 to 3 times but nts 382 F3 and nts 382 F4 did not. Inhibition of soybeannts 382 nodulation by inoculated Nod 49 F2 Nod 49 F3 and Nod 49 F4 expressed that the Nod 49 F4 only inhibited the nodulation strongly by one time in the experiments with nts 382 plants with leaves, and by 15 times in the experiments with nts 382 plants without leaves at 10 d of inoculation and injection and this inhibition was nonreversible even after stopping injection from the 11th day to the 15th day after inoculation.     

Regulation of Nitrate Reductase Activity in Leaves of Soybean Bragg and Its Nodulated Mutants

The extracts from leaves of nodulated soybean (Glycine max (L.) Merr. ) cv. Bragg and its nodulated mutants i. e. non-nodulated Nod 49, supernodulated nts 382 and nts 246 contained inhibitors of activities iNR, c1NR and c2NR in vitro. Both white light illumination of 300 μE · m-2 · s-1 and inoculation with strain USDAll0 were essential conditions for ac- cumulating these inhibitors in leaves. Comparing inhibiting activities of the extracts from different varieties indicated that Nod 49 extract showed stronger inhibition than Bragg extract did, but nts 382 extract had only weakest inhibitory effect. The inoculated Bragg root extract possessed the same inhibitory activity as its leaf extract. The inoculated nts 382 root extract, like its leaf extract, showed only a little inhibitory activity. However inoculated Nod 49 root extract lead to an inhibition of leaf c2NR activity, which was different from its leaf extract that inhibited three kinds of NR activities. The above results suggested that both leaf and root extracts contained common inhibitory factor which was accumulated after inoculation.     

Nitrate and nitrite reduction in the plant fraction of alfalfa root nodules

The plant fraction of alfalfa ( Medicago sativa L. cv. Aragon) nodules contained both nitrate reductase (NR) and nitrite reductase (NiR). Specific activity of NADH-NR from the cytosol of nodules not treated with NO₃- was about 30 nmol (mg protein)^-1-h^-1 and was not basically affected by NO₃ addition. In contrast, typical specific activity for cytosolic NiR was 1.5 umol (mg protein)^-1h^-1 using methyl viologen as electron donor. This activity strongly increased with NO₃ concentration, probably due to substrate induction. Maximal activity was 3.5 μmol (mg protein)^-1h^-1 at 50 to 200 mM NO₃.
Estimates indicate that the contribution of cytosol to the overall NR and NiR activities of alfalfa nodules is distinctly different: less than 10% and about 70%, respectively. The increasing amounts of NO₂ accumulating in the cytosol upon NO₃, supply, and the different response to NO₃ of bacteroid and cytosolic NRs support the concept that most of this NO₂ comes from the bacteroids.     

Respiratory Rate as a Regulatory Factor in the Biosynthesis of the Denitrification Pathway of the Bacterium Paracoccus denitrificans

The decrease in the electron flow of the aerobic respiratory chain of the bacterium Paracoccus denitrificans, owing to either the drop in the saturation of terminal oxidases by oxygen or to the inhibition of the rate of respiration by azide or nitrite, resulted in the synthesis of dissimilatory nitrate reductase and nitrite reductase. The dependence of the resulting activities of the two enzymes (after a three-hour adaptation) on the initial value of the parameter V_max/k_La (oxidase activity of the volume unit of the culture divided by the volumetric oxygen transfer coefficient) or on the concentrations of the inhibitors had a similar form, characterized by the appearance of a maximum. The increasing parts of the obtained curves reflect the synthesis of enzymes, probably initiated by the increase in the intracellular degree of reduction, the subsequent drop being evidently in connection with the lack of metabolic energy for biosynthesis. The possible mechanisms of the effect of nitrogenous terminal acceptors (NO^-₃ and NO^-₂) on the formation of the denitrification pathway are discussed.     

A Novel C1-Using Denitrifier Alcaligenes sp. STC1 and Its Genes for Copper-containing Nitrite Reductase and Azurin

A novel denitrifier Alcaligenes sp. STC1 was identified. The strain efficiently denitrifies under an atmosphere of 10% oxygen (O₂) where Paracoccus denitrificans, one of the most studied aerobic denitrifiers, had less denitrifying activity, indicating that the strain has an O₂-torelant denitrifying system. It denitrified by using C1-carbon sources such as formate and methanol as well as glucose, glycerol, and succinate. The genes for the copper-containing nitrite reductase and azurin of this C1-using denitrifier were cloned. Their predicted products of them were similar to those of their counterparts and the maximum similarities were 90% and 92%, respectively.     

铝对玉米生长和硝酸还原酶活性的影响

测定了生长在Al2（SO4）100μmol／L氮素营养液中的两个玉米品种（SC704和VA35的根系和叶片）的NADH-硝酸还原酶（EC1．6．6．）和NAD（P）H-硝酸还原酶（EC1．6．6．2）活性。结果表明铝的存在阻碍了玉米根系和叶片的生长、降低了营养液的pH值,降低了叶片的NADH-及NAD（P）H-硝酸还原酶活性（酶活性降低的程度SC704低于VA35）,增加了根系的NADH-和NAD（P）H-硝酸还原酶活性（VA35根系的比活性除外）。铝胁迫下根系的NADH-和NAD（P）H-硝酸还原酶活性的增加SC704大于VA35。耐铝品种SC704的高NR活性以及在铝胁迫下能维持更高的NR活性的特点说明硝酸还原酶与植物组织的Al解毒机制有关。同时,在铝胁迫下的硝酸盐代谢中NAD（P）H-硝酸还原酶具有更重要的作用。     

Nitrate and nitrite reduction by alfalfa root nodules: Accumulation of nitrite in Rhizobium melioti bacteroids and senescence of nodules

Addition of NO⁻₃ rapidly induced senescence of root nodules in alfalfa ( Medicago sativa L. cv. Aragon). Loss of nodule dry matter began at the lowest NO⁻₃ concentration (10 m M ) but degradation of bacteroid proteins was only detected when nodules were supplied with NO⁻₃ concentrations above 20 m M .
Bacteroids from Rhizobium meliloti contained high specific activities of nitrate reductase (NR) and nitrite reductase (NiR). Both enzymes were presumably substrate-induced although substantial enzyme activities were present in the absence of NO⁻₃ Typical specific activities for soluble NR and NiR of bacteroids under NO⁻₃ free conditions were 1.2 and 1.4 μmol (mg protein)⁻¹h⁻¹, respectively. In the presence of NO⁻₃, the specific activity of NR was considerably greater than that of NiR, thus causing NO⁻₂ accumulation in bacteroids. Nitrite levels in the bacteroids were linearly correlated with specific activities of NR and NiR, indicating that NO⁻₂ is formed by bacteroid NR and that this NO⁻₂ in turn, induces bacteroid NiR. Accumulation of NO⁻₂ within bacteroids also indicates that NO⁻₂ inhibits nodule activity after feeding plants with NO⁻₃     

Purification and Characterization of Nitrate Reductase from the Halotolerant Cyanobacterium <Emphasis Type="Italic">Aphanothece halophytica</Emphasis>

Summary Factors affecting the activity of nitrate reductase (E.C.1.7.7.2) from the halotolerant cyanobacterium Aphanothece halophytica were investigated. Cells grown in nitrate-containing medium exhibited higher nitrate reductase activity than cells grown in medium in which nitrate was replaced by glutamine. When ammonium was present in the medium instead of nitrate, the activity of nitrate reductase was virtually non-detectable, albeit with normal cell growth. The enzyme was localized mainly in the cytoplasm. The enzyme was purified 406-fold with a specific activity of 40.6 μmol/min/mg protein. SDS-PAGE revealed a subunit molecular mass of 58 kDa. Gel filtration experiments revealed a native molecular mass of 61 kDa. The K _m value for nitrate was 0.46 mM. Both methyl viologen and ferredoxin could serve as electron donor with K _m values of 4.3 mM and 5.2 μM, respectively. The enzyme was strongly inhibited by sulfhydryl-reactive agents and cyanide. Nitrite, the product of the enzyme reaction, showed little inhibition. Chlorate, the substrate analog, could moderately inhibit the enzyme activity. NaCl up to 200 mM stimulated the activity of the enzyme whereas enzyme inhibition was observed at ≥300 mM NaCl.     

Effect of Cytokinin on the Enhancement of Nitrate Reductase NR Activity in Tobacco Callus Tissues and Wheat Seedlings

The effect of cytokinin on the formation of NR activity were studied with tobacco callus tissues and wheat seedlings. Cytokinin could not induce the NR activity alone but could enhance the NR inducibility (Table 1). The enhancement of NR formation was detected in the tissues pretreated with cytokinin for over 12 hours. It showed that there was a precondition in the tissues for the induction of NR (Fig. 3). The precondition could not be improved by cytokinin when cycloheximide (inhibitor of protein synthesis) was added into the medium during cytokinin pretreatment (Table 2). Thus, it was thought that cytokinin might enhance synthesis of a protein which participated in the NR activity induction. In immunological test (Fig. 5) the existence of a nonactive apoenzyme of NR in higher plant tissues was demonstrated. It is, therefore, suggested that there are two major steps in the NR activity formation: (l) the synthesis of a nonactive NR apoenzyme, (2) the activation of this nonactive apoenzyme. The former step might be stimulated by cytokinin and the latter was mediated by nitrate.     

The effect of kinetin on the photosynthetic apparatus of Sinapis alba

The influence of kinetin during the development of primary leaves of Sinapis alba was investigated. Kinetin treatment (6 ppm) induced an increase of dry weight, of soluble reducing sugars, soluble protein, chlorophylls, carotenoids and cytochrome f; a higher ratio of chlorophyll a to chlorophyll b, higher rates of CO₂ fixation per fresh weight and higher activity of nitrite reductase, were also found. These effects are comparable with strong and blue light adaptations. On the other hand, the Hill activity with ferricyanide as the electron acceptor, the rates of CO₂ fixation per chlorophyll, the ratios of chlorophyll to cytochrome f and of protein to chlorophyll did not change. Therefore we assume that the kinetin induced and the light induced adaptations are brought about by different causal reaction chains.

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Zusammenfassung Es wurde die Wirkung von Kinetin auf die Entwicklung von Primarblattern von Senfpflanzen untersucht. Die Behandlung mit Kinetin (6 ppm) bewirkte eine Erhöhung des Trochengewichtes, der Gehalte an löslichen, reduzierend wirkenden Zuckern, an löslichem Protein, Chlorophyllen, Karotinoiden und Cytochrom f, sowie eine Erhöhung des Quotienten von Chlorophyll a zu Chlorophyll b, eine verstärkten Einbau von CO₂ pro Frischgewicht und eine Erhöhung der Nitritreduktase-Aktivität. Diese Auswirkungen sind den durch Starklicht und Blaulicht hervorgerufenen Anpassungsreaktionen vergleichbar. Andererseits zeigten die Hill-Reaktion (gemessen als Reduktion von Ferricyanid), die CO₂ Fixierung pro Chlorophyll, der Quotient von Chlorophyll zu Cytochrom f und der Quotient von Protein zu Chlorophyll keire Veränderungen. Dies weist darauf hin, daß die durch Kinetin und durch Licht hervorgerufenen Anpassungsreaktionen durch verschiedene Kausalketten bedingt werden.

     

施氮对不同品种冬小麦植株硝态氮和硝酸还原酶活性的影响

以黄土高原南部半湿润区土垫旱耕人为土为供试土壤进行盆栽试验,以NR 9405、9430、偃师9号、小偃6号、陕229号和西农2208冬小麦品种为供试材料,研究施氮对不同品种冬小麦植株硝态氮含量和硝酸还原酶活性(NRA)的影响.结果表明,施氮能明显增加叶片NRA.不施氮时除小偃6号和偃师9号外,其余品种NRA在全生育时期的动态变化均呈双峰曲线,2个高峰期分别在返青期和开花期,且开花期高峰值(36.17 NO2-μg.-g 1FW.h-1)明显比返青期峰值(15.407 NO2-μg.-g 1FW.h-1)大;施氮时不同品种叶片NRA在全生育期呈单峰曲线变化,最高峰在开花期,平均峰值为80.93 NO2-μg.-g 1FW.h-1),比同期不施氮处理增加1倍以上.施氮后地上部硝态氮含量在各时期均显著提高,在小麦生育前期(出苗到拔节)表现最为显著.氮肥对不同品种硝态氮含量的影响程度基本上与对NRA的影响程度相反,即施氮后硝态氮增加幅度小的品种,NRA却增加幅度大.     

Effect of Elevated Temperature on Nitrite and Nitrate Reduction in Leaves and Intact Chloroplasts

Barley (Hordeum vulgare L.) leaves and intact spinach (Spinacia oleracea L.) chloroplasts were exposed to short-term heating, and the aftereffects of heat treatment on in vitro andin vivo activities of nitrate reductase and noncyclic electron transport associated with nitrite reduction were studied. Heating of leaves at temperatures above 40°C led to a monotonic decrease in nitrate reductase in vitro activity. On the contrary, the in vivo enzyme activity, assayed in intact leaf tissues after 5-min heat treatment, increased 1.5 times upon elevating the pretreatment temperature from 37 to 40°C and gradually decreased at higher temperatures. Noncyclic electron transport related to CO₂ fixation in intact chloroplasts decreased gradually after heat exposures above 39°C, unlike the electron transport to nitrite as a terminal acceptor, which was stimulated by heating of intact chloroplast suspensions in the temperature range from 33 to 40°C. The heating at higher temperatures inhibited nitrite photoreduction. It is concluded that the heating of phototrophic cells at sublethal temperatures stimulates the mobilization of inorganic nitrogen and thereby facilitates the repair of thermally induced injuries of proteinaceous cell structures. The stimulation of nitrate reductase activity in vivo at the temperature range 37–40°C provides an evidence for the increase in the availability of reductants in the cytosolic compartment of the leaf cell.