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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)

Evolution of nitrogen oxides (NO((x)), primarily as nitric oxide) from soybean (Glycine max [L.] Merr.) leaves during purged in vivo nitrate reductase assays had been reported; however, these reports were based on a method that had been used for determination of NO((x)) in air. This method also detects other N compounds. Preliminary work led us to doubt that the evolved N was nitric oxide. Studies were undertaken to identify the N compound evolved from the in vivo assay that had been reported as NO((x)). Material for identification was obtained by cryogenic trapping and fractional distillation, and by chemical trapping procedures. Mass spectrometry, ultraviolet spectroscopy, and (15)N-labeled nitrate were used to identify the compounds evolved and to determine whether these compounds were derived from nitrate. Acetaldehyde oxime was identified as the predominant N compound evolved and this compound is readily detected by the method for NO((x)) determination. Substantial quantities of acetaldehyde oxime (16.2 micromoles per gram fresh weight per hour) were evolved during the in vivo assay. Small amounts of nitrous oxide (0.63 micrograms N per gram fresh weight per hour) were evolved, but this compound is not detected as NO((x)). Acetaldehyde oxime and nitrous oxide were both produced as a result of nitrate ((15)NO(3) (-)) reduction during the assay.
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PMID:Acetaldehyde Oxime, A Product Formed during the In Vivo Nitrate Reductase Assay of Soybean Leaves. 1666 81

Recent work identified acetaldehyde oxime as the predominant product purged by inert gases from anaerobic in vivo nitrate reductase (NR) assays of soybean (Glycine max [L.] Merr.) leaves. Another recent study supported earlier research findings which identified the primary product evolved from soybean leaves as nitric oxide (NO). This paper provides evidence that eliminates acetaldehyde oxime and confirms that NO is the primary nitrogenous product purged from the in vivo NR assay system. A portion of the evidence is based on the high water solubility of acetaldehyde oxime. Other evidence presented is the failure by chemical and spectrophotometric means to detect oximes in gases emitted in the purging of the reaction medium or in the leaf tissues. The gaseous product from the in vivo NR assay system reacted identically to NO standards and did not resemble acetaldehyde oxime standards. It was concluded that the predominant N product within the leaves was nitrite and that the predominant gaseous N product evolved from the assay was NO.
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PMID:Nitric Oxide Emissions from Soybean Leaves during in Vivo Nitrate Reductase Assays. 1666 92