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1.
1. In rice seedlings synthesis of methyl viologen-nitrite reductase was stimulated by light, as was that of NADH-nitrate oxidoreductase (EC 1.6.6.1). A small residual effect of light on the synthesis of the enzymes persisted in the dark for a short time. 2. In etiolated seedlings exposed to light and nitrate, a lag period of 3h was necessary before enzyme synthesis commenced, whereas in green seedlings kept in the dark for 36h, synthesis of both the enzymes started as soon as light and nitrate were provided. 3. Experiments with cycloheximide suggested that fresh protein synthesis in light was necessary for formation of active enzymes. Mere activation by light of inactive enzymes or their precursors, was not involved. 4. In green seedlings synthesis of nitrite reductase was more sensitive to chloramphenicol than that of nitrate reductase. In chloramphenicol-treated etiolated seedlings, however, synthesis of both the enzymes was inhibited to the same extent on subsequent light-treatment. 5. A close correlation was observed between inhibition of the Hill reaction by 3-(3,4-dichlorophenyl)-1,1-dimethylurea and simazin [2-chloro-4,6-bis(ethylamino)-s-triazine] (at high concentration) and the inhibition of enzyme synthesis. At lower concentrations, however, simazin stimulated nitrate reductase. 6. In a single leaf synthesis of enzymes was observed only in portions exposed to light, whereas little activity was present in the dark covered part. 7. CO(2) deprivation severely inhibited the synthesis of enzymes in the light. Sucrose could not reverse this effect. 8. In excised embryos cultured in synthetic media containing sucrose, light was also essential for enzyme formation. 9. It is suggested that redox changes taking place in the green tissues as a result of the Hill reaction create conditions favourable for the induced synthesis of nitrate reductase and nitrite reductase.  相似文献   

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3.
An investigation was made to determine the effects of univalentcations as activators on the formation of nitrate reductaseand nitrite reductase in rice seedlings. K+ functioned moreeffectively as a univalent cation activator than did other univalentcations examined. Substitution of Rb+ for K+ resulted in stimulationof nitrate reductase formation at about half the rate obtainedwith K+. There was no effect on nitrite reductase formation.Na+ could be partially substituted for K+ in the formation ofboth enzymes. NH4+ slightly inhibited formation of the enzymes.In the absence of univalent cations, enzyme formation proceededat a slower rate during the initial 15-hr period, but thereafterproceeded at a higher rate. This delayed formation was not observedin the presence of K+. Results from inhibitor experiments suggestthat K+ stimulates the formation of nitrate reductase and nitritereductase. In conclusion, when nitrate nitrogen is supplied to rice plantsutilization of the nitrogen may be accelerated by increasedformation of enzymes involved in nitrate assimilation in thepresence of K+. (Received February 21, 1969; )  相似文献   

4.
Both nitrite reductase and nitrate reductase were induced by nitrite, but there were differences in the time course of induction and in the response to different NO2 - concentrations between these enzymes. NH4 + depressed the induction of nitrite reductase. NADH2 dependent glutamate dehydrogenase activity was enhanced by those NO2-concentrations in the medium at which unmetabolized NO2 - occurred in the roots. NADPH2 and NAD+ dependent GDh activities were not affected. In vivo modification and (or) in vivo activation were probably responsible for the increase in NADH2 dependent GDH activity.  相似文献   

5.
T. C. Shen 《Planta》1972,108(1):21-28
Summary Nitrate reductase was induced in rice seedlings by nitrate and by chloramphenicol. During the induction period the different enzyme activities associated with nitrate reductase increased to different degrees. Nitrate induced high NADH-nitrate reductase activity and a great increase in the NADH-cytochrome c reductase activity which was associated with the nitrate reductase in a sucrose gradient. Chloramphenicol induced a nitrate reductase which had higher activity with NADPH than NADH. Chloramphenicol also induced a marked increase in NADPH-cytochrome c reductase activity as well as in NADH-cytochrome c reductase activity. Both activities were associated with the nitrate reductase in a sucrose gradient.After partial purification by sucrose gradient sedimentation or by starch gel electrophoresis, the nitrate reductase of rice induced by nitrate and chloramphenicol showed the same preference in pyridine nucleotide cofactors as was shown by the crude enzyme extracts.  相似文献   

6.
Synthesis of nitrite reductase in rice leaves was inhibited by both cycloheximide and chloramphenicol. This indicated a cooperative action of 70 S and 80 S ribosomes for its synthesis. Nitrate reductase, however, appeared to be exclusively synthesized on the cytoplasmic ribosomes.  相似文献   

7.
Total activities of nitrate and nitrite reductases were higher in 4 to 20 day old maize plants in the leaves than in the roots. The ratio of activities found in the leaves and in the roots respectively was much higher in the case of nitrate reductase than in the case of nitrite reductase. On the other hand higher glutamate dehydrogenase activity in the roots than in the leaves clearly indicates that the roots play a more important role in the assimilation of ammonium than in the assimilation of nitrate. When comparing the distribution of seminal and nodal adventitious roots of maize seedlings with the assimilation of inorganic nitrogen on the basis of enzyme levels, it could be deduced that during the first 20 days of seedling growth seminal roots were more involved in the assimilation of nitrate whereas nodal adventitious roots were more active in ammonium assimilation.  相似文献   

8.
9.
Approximately 15% of the total nitrite reductase of crude homogenates of wheat roots applied to sucrose gradients was separated with an organelle whose isopycnic density was about 1.22 g·cm−3. The activity recovered in the supernatant was thought to be particulate in origin, because similar ratios of activity of isoenzyme 1 and 2 of nitrite reductase were found in both particulate and supernatant fractions. The particle with nitrite reductase activity also contained glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, triose phosphate isomerase and NADPH diaphorase. This root particle and whole chloroplasts from leaves had a similar isopycnic density as well as these enzymes, and thus the data suggest that the root particle may be a proplastid.

Nitrate reductase was found only in the supernatant and it was not associated with any of the root organelles.

Mitochondria from wheat roots had an equilibrium density of 1.18 g·cm−3 and contained both NAD and NADP glutamate dehydrogenase, glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, triosephosphate isomerase and NADPH diaphorase but not nitrite reductase. Microbodies of wheat roots had an equilibrium density of about 1.20 g·cm−3 on the sucrose gradient and contained catalase and glycollate oxidase.  相似文献   


10.
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12.
Rice leaf nitrate reductase was specifically activated by preincubation both at 0° and 25°, with low concentrations of NADH. The nucleotide acted as a positive effector of the enzyme after a time lag of 20 min. NADPH, FMNH2 and NAD were without any effect.  相似文献   

13.
The effects of red (R), far red (FR), or blue light (B) on the enhancement of nitrate reductase (NR) activity and on nitrate uptake in etiolated rice seedlings were examined. On 5-minute illumination followed by 12-hour dark, R caused marked increase of NR activity, but FR and B caused only slight increase. Illumination with 560 ergs per square centimeter per second of R for 5 minutes caused maximal increase. The effect of R was almost completely counteracted by subsequent illumination with 2,000 ergs per square centimeter per second of FR for 10 minutes, indicating that NR induction was mediated by phytochrome. Exogenous supply of inducer nitrate was not required during the 5-minute illumination and the R-FR cycles, if the seedlings were transferred to nitrate solution at the beginning of the dark incubation. NR activity in the shoots was found high when shoots were illuminated but was low when only roots were illuminated. On continuous illumination for 12 hours, B had more effect on NR increase than R.  相似文献   

14.
Using pulses of nitrate, instead of the permanent presence of external nitrate, to induce the nitrate-assimilating system in Hordeum vulgare L., we demonstrated that nitrate can be considered as a trigger or signal for the induction of nitrate uptake, the appearance of nitratereductase activity and the synthesis of mRNA coding for nitrate reductase. Nitrate pulses stimulated the initial rate of nitrate uptake, even after subsequent cultivation in N-free medium, and resulted in a higher acceleration of the uptake rate in the presence of nitrate than in its absence.Abbreviations NR nitrate reductase  相似文献   

15.
Banding patterns of nitrate reductase (NR), nitrite reductase (NiR), and glutamine synthetase (GS) from leaves of diploid barley (Hordeum vulgare), tetraploid wheat (Triticum durum), hexaploid wheat (Triticum aestivum), and tetraploid wild oats (Avena barbata) were compared following starch gel electrophoresis. Two NR isozymes, which appeared to be under different regulatory control, were observed in each of the three species. The activity of the more slowly migrating nitrate reductase isozyme (NR1) was induced by NO3- in green seedlings and cycloheximide inhibited induction. However, the activity of the faster NR isozyme (NR2) was unaffected by addition of KNO3, and it was not affected by treatments of cycloheximide or chloramphenicol. Only a single isozyme of nitrite reductase was detected in surveys of three tetraploid and 18 hexaploid wheat, and 48 barley accessions; however, three isozymes associated with different ecotypes were detected in the wild oats. Inheritance patterns showed that two of the wild oat isozymes were governed by a single Mendelian locus with two codominant alleles; however, no variation was detected for the third isozyme. Treatment of excised barely and wild oat seedlings with cycloheximide and chloramphenicol showed that induction of NiR activity was greatly inhibited by cycloheximide, but only slightly by chloramphenicol. Only a single GS isozyme was detected in extracts of green leaves of wheat, barley, and wild oat seedlings. No electrophoretic variation was observed within or among any of these three species. Thus, this enzyme appears to be the most structurally conserved of the three enzymes.  相似文献   

16.
V. K. Rajasekhar  H. Mohr 《Planta》1986,169(4):594-599
Nitrate-induced and phytochrome-modulated appearance of nitrate reductase (NR; EC 1.6.6.1) and nitrite reductase (NIR; EC 1.7.7.1) in the cotyledons of the mustard (Sinapis alba L.) seedling is strongly affected by externally supplied ammonium (NH 4 + ). In short-term experiments between 60 and 78 h after sowing it was found that in darkness NH 4 + —simultaneously given with NO 3 - —strongly inhibits appearance of nitrate-inducible NR and NIR whereas in continuous far-red light—which operates exclusively via phytochrome without significant chlorophyll formation —NH 4 + (simultaneously given with NO 3 - ) strongly stimulates appearance of NR. The NIR levels are not affected. This indicates that NR and NIR levels are regulated differently. In the absence of external NO 3 - appearance of NR is induced by NH4 in darkness as well as in continuous far-red light whereas NIR levels are not affected. On the other hand, in the absence of external NO 3 - , exogenous NH 4 + strongly inhibits growth of the mustard seedling in darkness as well as in continuous far-red light. This effect can be abolished by simultaneously supplying NO 3 - . The adverse effect of NH 4 + on growth (NH 4 + -toxicity) cannot be attributed to pH-changes in the medium since it was shown that neither the growth responses nor the changes of the enzyme levels are related to pH changes in the medium. Non-specific osmotic effects are not involved either.Abbreviations c continuous - D darkness - FR far-red light - NIR nitrite reductase (EC 1.7.7.1) - NR nitrate reductase (EC 1.6.6.1)  相似文献   

17.
Hydroxylamine added to the nutrient medium in sublethal concentrations (0.2 to 1.0 mN) enhanced NADH2 dependent glutamate dehydrogenase activity in isolated pea roots. The increase in activity depended on proteosynthesis and was lower in the presence of NO3 ? and NH4 + ions. The induction of nitrate reductase and of nitrite reductase was partly inhibited by sublethal hydroxylamine concentrations.  相似文献   

18.
The effect of exogenous NH4+ on the induction of nitrate reductase activity (NRA; EC 1.6.6.1) and nitrite reductase activity (NiRA; EC 1.7.7.1) in roots of 8-day-old intact barley (Hordeum vulgare L.) seedlings was studied. Enzyme activities were induced with 0.1, 1 or 10 mM NO3+ in the presence of 0, 1 or 10 mM NH4+, Exogenous NH4+ partially inhibited the induction of NRA when roots were exposed to 0.1 mM, but not to 1 or 10 mM NO3+, In contrast, the induction of NiRA was inhibited by NH4+ at all NO3+ levels. Maximum inhibition of the enzyme activities occurred at 1.0 mM NH4+ Pre-treatment with NH4+ had no effect on the subsequent induction of NRA in the absence of additional NH4+ whereas the induction of NiRA in NH4+-pretreated roots was inhibited in the absence of NH4+ At 10 mM NO3+ L-methionine sulfoximine stimulated the induction of NRA whether or not exogenous NH4+ was present. In contrast, the induction of NiRA was inhibited by L-methionine sulfoximine irrespective of NH4+ supply. During the postinduction phase, exogenous NH4+ decreased NRA in roots supplied with 0.1 mM but not with 1mM NH3+ whereas, NiRA was unaffected by NH4+ at either substrate concentration. The results indicate that exogenous NH4+ regulates the induction of NRA in roots by limiting the availability of NO3+. Conversely, it has a direct effect, independent of the availability of NO3+, on the induction of NiRA. The lack of an NH4+ effect on NiRA during the postinduction phase is apparently due to a slower turnover rate of that enzyme.  相似文献   

19.
Nitrate reductase activity in rice seedlings showed daily fluctuations.Seedlings placed in the dark slowly lost activity and quicklyregained it when exposed to sunlight. Etiolated seedlings alsoshowed rapid increases in activity when transferred to sunlight.This increase in activity by sunlight was inhibited by bothchloramphenicol and ethionine. Ethionine inhibition was reversedby methionine. Purification of nitrate reductase was carriedout by ammonium sulfate fractionation and DEAE-cellulose columnchromatography. Nitrate reductase was purified about 40-foldfrom plants placed in the dark and in sunlight. Incorporationof mediionine-S-14CH3 into the nitrate reductase fraction wasstudied. In sunlight, the specific radioactivity of the nitratereductase fraction from the DEAE-cellulose column increased2-fold as compared with that of the crude extracts. Specificradioactivity did not increase in the dark. 1Present address: Asahi Kasei Chemicals Industry Co., Ltd.,Sameshima 2-1, Fuji, Shizuoka, Japan (Received December 3, 1968; )  相似文献   

20.
Summary We investigated the inducibility of nitrate reductase (NR; EC 1.6.6.1), nitrite reductase (NiR; EC 1.7.7.1), and glutamine synthetase (GS; EC 6.3.1.2) isoforms in cotyledons of 7-day-old seedlings of sunflower (Helianthus annuus L.) in relation to light, nitrogen source (NO 3 , NO 2 or NH 4 + ), and the involvement of plastids. Nitrate was absolutely (and specifically) required for NR induction, and stimulated more effectively than NO 2 or NH 4 + the synthesis of NiR and chloroplastic GS (GS2) over the constitutive levels present in N-free-grown seedlings. In vivo inhibition of NR activity by tungsten application to seedlings and measurements of tissue NO 3 concentration indicate that NO 3 -dependent enzyme induction is elicited by NO 3 per se and not by a product of its assimilatory reduction, e.g., NO 2 or NH 4 + . In the presence of NO 3 , light remarkably enhanced the appearance of NR, NiR, and GS2, while the activity of the cytosolic GS isoform (GS1) was adversely affected. Cycloheximide suppressed much more efficiently than chloramphenicol the light- and NO 3 -dependent increase of GS2 activity, indicating that sunflower chloroplastic GS is synthesized on cytoplasmic 80S ribosomes. When the plastids were damaged by photooxidation in cotyledons made carotenoid-free by application of norflurazon, the positive action of light and NO 3 on the appearance of NR, NiR, and GS2 isoform was greatly abolished. Therefore, it is suggested that intact chloroplasts are required for the inductive effect of light and NO 3 and/or for the accumulation of newly formed enzymes in the organelle.Abbreviations CAP chloramphenicol - CHX cycloheximide - GS glutamine synthetase - GS1 cytosolic GS - GS2 plastidic (chloroplastic) GS - NF norflurazon - NiR nitrite reductase - NR nitrate reductase  相似文献   

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