Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
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Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:1.7.1.2 (
nitrate reductase
)
3,861
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Nitrate reductase
activity in excised embryos of Agrostemma githago increases in response to both NO(3) (-) and cytokinins. We asked the question whether cytokinins affected
nitrate reductase
activity directly or through NO(3) (-), either by amplifying the effect of low endogenous NO(3) (-) levels, or by making NO(3) (-) available for induction from a metabolically inactive compartment.
Nitrate reductase
activity was enhanced on the average by 50% after 1 hour of benzyladenine treatment. In some experiments, the cytokinin response was detectable as early as 30 minutes after addition of benzyladenine.
Nitrate reductase
activity increased linearly for 4 hours and began to decay 13 hours after start of the hormone treatment. When embryos were incubated in solutions containing mixtures of NO(3) (-) and benzyladenine, additive responses were obtained. The effects of NO(3) (-) and benzyladenine were counteracted by abscisic acid. The increase in
nitrate reductase
activity was inhibited at lower abscisic acid concentrations in embryos which were induced with NO(3) (-), as compared to embryos treated with benzyladenine.
Casein
hydrolysate inhibited the development of
nitrate reductase
activity. The response to NO(3) (-) was more susceptible to inhibition by casein hydrolysate than the response to the hormone. When NO(3) (-) and benzyladenine were withdrawn from the medium after maximal enhancement of
nitrate reductase
activity, the level of the enzyme decreased rapidly.
Nitrate reductase
activity increasd again as a result of a second treatment with benzyladenine but not with NO(3) (-). At the time of the second exposure to benzyladenine, no NO(3) (-) was detectable in extracts of Agrostemma embryos. This is taken as evidence that cytokinins enhance
nitrate reductase
activity directly and not through induction by NO(3) (-).
...
PMID:Enhancement of Nitrate Reductase Activity by Benzyladenine in Agrostemma githago. 1665 64
The standard procedure for the in ritro extraction of
nitrate reductase
from the tip region (0-2 cm) of the primary root of the maize (Zea mays L.) seedling indicated an activity of the enzyme approximately 5-fold higher than that obtained with an in vivo assay. In more mature regions of the primary root the ratio of in vitro to in vivo activity was much lower and in older seedlings was less than unity. The mature root extracts had a more labile
nitrate reductase
and a higher level of an inactivating enzyme. The use of phenylmethylsulphonyl fluoride in the extraction medium gave only a partial protection of the
nitrate reductase
from the old root samples.
Casein
(3%) resulted in a greatly increased yield of
nitrate reductase
(36-fold with one sample) and a more constant in vitro-in vivo activity ratio for all root samples. With casein in the extraction medium, much higher levels of
nitrate reductase
were recovered from the mature root zone, and the root content of this enzyme was now shown to be quite a significant proportion of the total in the maize seedling.
Casein
was shown to inhibit the action of the inactivating enzyme on
nitrate reductase
. Evidence is also presented for a
nitrate reductase
inactivating enzyme in the maize scutella and leaf tissues and in the roots and shoots of pea seedlings.
...
PMID:A Re-evaluation of the Nitrate Reductase Content of the Maize Root. 1665 65
