Astaxanthin

Enzymic confirmation of reactions involved in routes to astaxanthin formation, elucidated using a direct substrate in vitro assay.

Fraser PD, Shimada H, Misawa N.

Central Laboratories for Key Technology, Kirin Brewery Co., Ltd, Kanagawa, Japan.

An in vitro assay procedure for the carotenoid (beta-ionone ring) 3,3'-hydroxylase and 4,4'-oxygenase has been developed that enables efficient conversion of non-radiolabeled carotenoid substrates added directly into aqueous solution. The following enzymic conversions were demonstrated and apparent kinetic constants (Vmax, Km, and specificity constants) obtained: (a) 3,3'-hydroxylase (from Agrobacterium aurantiacum and Alcaligenes sp. strain PC-1) converted phoenicoxanthin (adonirubin) to astaxanthin, 3-hydroxyechinenone to 4-ketozeaxanthin (adonixanthin), 3'-hydroxyechinenone to 4-ketozeaxanthin, as well as echinenone to 4-ketozeaxanthin via 3- and 3'-hydroxyechinenone; (b) 4,4'-Oxygenase (from A. aurantiacum, Alcaligenes sp. strain PC-1 and Haematococcus pluvialis) converted 4-ketozeaxanthin to astaxanthin, 3-hydroxyechinenone to phoenicoxanthin, 3'-hydroxyechinenone to phoenicoxanthin, and echinenone to canthaxanthin. Determination of substrate specifities allowed assessment of biosynthetic routes to astaxanthin formation and demonstrated that pathways via mono-hydroxylated and ketolated products are enzymically feasible.

PMID: 9523693 [PubMed - indexed for MEDLINE]