Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:1.7.1.2 (
nitrate reductase
)
3,861
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Nitrite and nitrate (NO2 and NO3), the oxidative products of nitric oxide (NO), were elevated in the plasma of rabbits on the third day following ligation of a coronary artery. This elevation coincided with increased activity of the
inducible form
of nitric oxide synthase (iNOS) in infarcted heart muscle. Data are reported which relate the elevated plasma concentrations of NO2+NO3 (NO(x)) to the increased induction of iNOS in an infarcted heart. NO2 and NO3 in plasma were measured by chemiluminescence. Nitrate was converted to nitrite by
nitrate reductase
. Plasma from the ear vein, right and left ventricle, and coronary sinus were analyzed for NO(x), and iNOS activity was enzymatically determined in infarcted, risk, and normal areas of the heart. The production equivalent of NO(x) by the heart and lung was also calculated. In addition, the effect of a specific inhibitor of iNOS, S-methylisothiourea sulfate (SMT) on plasma concentration and myocardial production of NO(x) was determined. It was concluded that the elevation of plasma NO(x) following onset of myocardial ischemia was directly related to increased induction of iNOS in the heart. This conclusion was based on a proportional and simultaneous increase in NO(x) plasma concentration with myocardial iNOS activation. The inhibitory effect of SMT furnished additional confirmation of the relationship between myocardial iNOS activation and NO(x) plasma levels in experimental myocardial infarction.
...
PMID:Oxidation products of nitric oxide, NO2 and NO3, in plasma after experimental myocardial infarction. 904 16
The
nitrate reductase
activity distribution and response of two nodulated species of Phaseolus (Phaseolus vulgaris-common bean, and Phaseolus lunatus-lima bean) to different exogenous nitrate levels were studied during the vegetative period. These Phaseolus species showed to be very contrasting in respect to the pattern of
nitrate reductase
(NR) activity distribution thought the plant. The highest level of NR activity in P. vulgaris was clearly shown to occur in leaves in contrast with the lowest one detected in roots and nodules as widely seen for other tropical species of the Phaseoleae tribe. Conversely, P. lunatus had higher NR activity in the nodules, whereas its leaves exhibited a steadily decrease during the plant development. Indeed, at 32 days after emergence (pre-flowering stage), the nodulated P. vulgaris had approximately 95% of the total NR activity localized in its leaves, whereas in P. lunatus it was equally distributed in the nodules and in the leaves. Under long-term exposure to increasing exogenous level of nitrate, the leaf-NR activity of nodulated P. vulgaris presented a positive response, whereas the enzyme activity was very low and unresponsive in P. lunatus. In contrast, the nodule-NR activity showed a reverse response to the increasing NO(3)(-) level. The nodule-NR activity of P. lunatus significantly increased whereas in the P. vulgaris nodules it was very low and unresponsive. This present study suggests that P. lunatus inoculated with Rhizobium tropici presents a singular pattern of nitrate reduction distribution among leaves and nodules during the vegetative development. It is speculated that the nodulated Phaseolus lunatus may have different NR isoforms in their leaves (at least a constitutive type) and an
inducible form
in their nodules, responsive to long-term exposure to nitrate.
...
PMID:Nitrate reductase activity, distribution, and response to nitrate in two contrasting Phaseolus species inoculated with Rhizobium spp. 1137 71
Nitrate reductase
activity (NR activity), protein content (NR protein) and polypeptides were compared in shoots of Triticum aestivum ssp. vulgare (L.) cv Fidel (bread wheat, AABBDD genome), Triticum dicoccum cv Vernal (AABB genome), Aegilops squarrosa var. strangulata (DD genome) and the amphiploid 365 (AABBDD genome), produced by crossing T. dicoccum cv Vernal and Ae. squarrosa var. strangulata. Constitutive NR protein and activity were found in shoots of all seedlings grown without nitrate, with the highest activity in the bread wheat. The inducible NR protein and activity developed upon the addition of nitrate. A 116-K polypeptide was identified as the main component of the NR from the bread wheat, while a faint, sometimes discernable 94-K band appeared on Western blots. Only one NR polypeptide could be identified in Ae. squarrosa -the 94 K. An intermediary situation was observed with the tetraploid T. dicoccum and the amphiploid: The 94-K polypeptide was the only one separated from NR of seedlings grown in the absence of nitrate. The 116-K polypeptide appeared after the addition of nitrate. The intensity of its band on the gel increased with the duration of the nitrate treatment. When comparing Ae. squarrosa and T. dicoccum, the constitutive isozyme (94-K polypeptide) was found in the D as well as in the AB genomes, while the inducible NR (116-K polypeptide) was absent from the D genome. Addition of the D genome into the AB genome slightly reinforced the expression of the
inducible form
(AB genome expression) in the amphiploid wheat. We postulate that the
inducible form
of NR in the bread wheat resulted from an evolutionary selection pressure favoured by cultivation.
...
PMID:Nitrate reductases in hexaploid and tetraploid wheats and Aegilops. 2422 12
