Assays dimethylaminobenzaldehyde

Patel and Naravane have published an assay utilizing p-dimethylaminobenzaldehyde and nitrite154. 

Hydroxyproline assay. Hydroxyproline was determined according to Jamall et al. (1981). The assay employs p-dimethylaminobenzaldehyde (Ehrlich s reagent), which forms colored products with pyrroles originating from hydroxyproline oxidation. The values thus determined for hydroxyproline mass were multiplied by 8.0 to obtain the corresponding collagen mass. 

The Ehrlich reagent, developed originally for the colorimetric assay of pyrrole derivatives, was shown by Ehrlich to give a color with certain glycoproteins, with and without prior alkali treatment (3). The reagent consists of dimethylaminobenzaldehyde in strong hydrochloric acid. This assay later became the basis for the Morgan-Elson reaction for the deter-... 

The colour reactions of camphor with aldehydes have been applied with p-dimethylaminobenzaldehyde in sulfuric acid (188). The yellow colour formed conforms to Beer s law and checks closely with the official NF method (15 ). The assay is carried out as follows ... 

The most specific and frequently used assay to quantify 2-deoxy-2-amino sugars employs the condensation of the carbohydrate with 2,4-pentanedione in basic solution. The product (a pyrrole derivative) is then reacted with p-dimethylaminobenzaldehyde to form a chromogen that has a maximum absorbance at 530 nm (Fig. 11-2). Although both 6-deoxy-6-amino and 3-deoxy-3-amino sugars can also be analyzed using the Elson-Morgan reaction, the chromogens... 

As has been stated, tryptophan is completely destroyed by acid hydrolysis. Some methods protect tryptophan with compounds such as 2-mercaptoethanol, but these methods do not always give reproducible results. Other methods for the liberation of tryptophan have included proteolysis by enzymes. An early method developed by Spies and Chambers (1949) did not require freed tryptophan. It is a colorimetric assay, reacting the tryptophan with p-dimethylaminobenzaldehyde (PDBA). This method has been useful in pure proteins, but many food matrices have interfering substances. In addition, tryptophan is one of only two amino acids with a strong extinction coefficient in a usable ultraviolet (UV) range (approximately 280 nm depending on solvent, etc.). However, the most reliable method of tryptophan analysis is to release the amino acid from protein with alkaline hydrolysis (Lucas et al., 1980) and then use chromatography for quantification. 

Alexander and Banes have published a new procedure for the assay of ergot. The extraction and preparation of total alkaloids closely follows that of the N.F. given above and water-soluble alkaloids are separated by column chromatography. The total and water-soluble alkaloids are then determined colorimetrically with />-dimethylaminobenzaldehyde. 

The tartrate of an alkaloid obtainable from certain species of ergot. It is assayed colorimetrically by the dimethylaminobenzaldehyde method given under Ergot after solution in 1 per cent tartaric acid against a standard ergometrine maleate solution. 1 mg of ergometrine maleate = 1 488 mg of ergotamine tartrate. 

A scaled-down version of the Warren method was developed that can be used to assay as little as 25 ng of NANA (Hahn et aL, 1974). A number of automated procedures based on periodate-thiobarbituric acid have been described (Kendal, 1968 Delmotte, 1968 Fidgen, 1973 Gerbant et aL, 1973). Additional spectrophotometric techniques have employed the sulfo-phospho-vanillin reaction (Saifer and Feldman, 1971) and 1,10-phenanthroline (Dimitrov, 1973). The direct Ehrlich reaction, utilizing dimethylaminobenzaldehyde, played a key role in the early studies of sialic acid chemistry and analysis (Gottschalk, 1960) and still finds occasional use although its sensitivity is considerably below that of resorcinol and thiobarbituric acid (Werner and Odin, 1952 Onodera et aL, 1965). In comparing this method with others, Onodera et al. (1965) concluded that the possibility of false chromophores requires at least two colorimetric methods for reliable estimate of sialic acid in biological materials. 

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