Further studies on the mechanism of oxidation of N-acetyldopamine by the cuticular enzymes fromSarcophaga bullata and other insects

Autor: Karin Schinkmann, Manickam Sugumaran, Heather Kundzicz, Debra Bedell‐Hogan
Rok vydání: 1989
Předmět:
Zdroj: Archives of Insect Biochemistry and Physiology. 11:109-125
ISSN: 1520-6327
0739-4462
Popis: In accordance with our earlier results, quinone methide formation was confirmed to be the major pathway for the oxidation of N-acetyldopamine (NADA) by cuticle-bound enzymes from Sarcophaga bullata larvae. In addition, with the use of a newly developed HPLC separation condition and cuticle prepared by gentle procedures, it could be demonstrated that 1, 2-dehydro-NADA and its dimeric oxidation products are also generated in the reaction mixture containing a high concentration of NADA albeit at a much lower amount than the NADA quinone methide water adduct, viz., N-acetylnorepinephrine (NANE). By using different buffers, it was also possible to establish the accumulation of NADA quinone in reaction mixtures containing NADA and cuticle. That the 1,2-dehydro-NADA formation is due to the action of a NADA desaturase system was established by pH and temperature studies and by differential inhibition of NANE production. Of the various cuticle examined, adult cuticle of Locusta migratoria, presclerotized cuticle of Periplaneta americana, and white puparial cases of Drosophila melanogaster exhibited more NADA desaturase activity than NANE generating activity, while the reverse was observed with the larval cuticle of Tenebrio molitor and pharate pupal cuticle of Manduca sexta. These studies indicate that both NADA quinone methide and 1, 2-dehydro NADA are formed during enzymatic activation of NADA in insect cuticle. Based on these results, a unified mechanism for β-sclerotization involving quinone methides as the reactive species is presented.
Databáze: OpenAIRE
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