Separation and Structural Analysis of Vinyl- and Isovinyl-azobilirubin Derivatives

Overview

Journal Biochem J

Specialty Biochemistry

Date 1971 Nov 1

PMID 5144760

Citations 15

Authors

F H Jansen

M S Stoll

Affiliations

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Abstract

The coupling reaction of bilirubin with the diazonium salts of ethyl anthranilate or of aniline yields two isomeric azopigments. These can be separated by t.l.c. as their methyl esters. The mass spectra of each pair of azopigments are very similar, showing that they are isomers. Proton-magnetic-resonance spectrometric studies show that they differ in the positions of the substituents on the pyrrolenone end ring; in one compound the methyl and vinyl groups are interposed compared with the other compound. These azo compounds were used as reference standards for determination of the site of conjugation in bilirubin monoglucuronide prepared enzymically. Analysis showed that conjugation occurs at the carboxyethyl side chain of both sides of the bilirubin molecule. During the preparation of the ethyl anthranilate reference compounds a series of minor azopigments were isolated by t.l.c. Analysis of the mass spectra of many of these showed that three side reactions can occur: (1) methylation of the imide carbonyl group; (2) addition of methanol or water to the vinyl substituent; (3) transmethylation of the ethoxycarbonyl group.

Citing Articles

Validation of infrared spectroscopy for assessment of vinyl polymers of bile-pigment gallstones.

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The identification of monoconjugates of bilirubin in bile as amide derivatives.

Jansen F, Billing B Biochem J. 1971; 125(3):917-9.

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The reaction between bilirubin and aromatic diazo compounds.

Hutchinson D, Johnson B, Knell A Biochem J. 1972; 127(5):907-8.

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The reaction of bilirubin with diazomethane.

KUENZLE C, Weibel M, Pelloni R Biochem J. 1973; 133(2):357-64.

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Acid-catalyzed addition of alcohols and thiols to bilirubin.

Manitto P, Monti D Experientia. 1973; 29(2):137-9.

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References

Stoll M, GRAY C . The oxidation products of crude mesobilirubinogen. Biochem J. 1970; 117(2):271-90. PMC: 1178860. DOI: 10.1042/bj1170271. View

KUENZLE C . Bilirubin conjugates of human bile. Isolation of phenylazo derivatives of bile bilirubin. Biochem J. 1970; 119(3):387-94. PMC: 1179369. DOI: 10.1042/bj1190387. View

KUENZLE C . Bilirubin conjugates of human bile. Nuclear-magnetic-resonance, infrared and optical spectra of model compounds. Biochem J. 1970; 119(3):395-409. PMC: 1179370. DOI: 10.1042/bj1190395. View

KUENZLE C . Bilirubin conjugates of human bile. The excretion of bilirubin as the acyl glycosides of aldobiouronic acid, pseudoaldobiouronic acid and hexuronosylhexuronic acid, with a branched-chain hexuronic acid as one of the components of the.... Biochem J. 1970; 119(3):411-35. PMC: 1179371. DOI: 10.1042/bj1190411. View

Heirwegh K, van Hees G, Leroy P, Van Roy F, Jansen F . Heterogeneity of bile pigment conjugates as revealed by chromatography of their ethyl anthranilate azopigments. Biochem J. 1970; 120(4):877-90. PMC: 1179683. DOI: 10.1042/bj1200877. View