A carotenoid synthesis gene cluster from a non-marine Brevundimonas that synthesizes hydroxylated astaxanthin.

A Brevundimonas vesicularis strain DC263 isolated from surface soil was shown to produce hydroxylated astaxanthin. A carotenoid synthesis gene cluster containing ten genes was cloned from strain DC263, among which eight genes were involved in carotenoid synthesis. In addition to the crtW gene encoding the 4,4'-beta-ionone ring ketolase and the crtZ gene encoding the 3,3'-beta-ionone ring hydroxylase that were responsible for astaxanthin synthesis, the cluster also contained a novel gene crtG identified recently encoding the 2,2'-beta-ionone ring hydroxylase that further hydroxylate astaxanthin. The individual genes in the DC263 cluster showed the highest sequence similarities to the corresponding genes reported in Brevundimonas sp. strain SD212, a marine isolate that also produced hydroxylated astaxanthin. The genetic organization of the carotenoid synthesis gene clusters in the two Brevundimonas strains was identical. It is likely that the two Brevundimonas strains were evolved from the same ancestor and adapted later to growth in different environments. Expression of the crtW and crtZ from DC263 in a beta-carotene-accumulating E. coli produced astaxanthin as the predominant carotenoid. The crtG from DC263 and the crtG from another Brevundimonas aurantiaca strain were expressed in E. coli producing different carotenoid substrates. Both CrtG showed low activity on beta-carotene and high activity on zeaxanthin. The main difference was that the CrtG from B. aurantiaca worked well on canthaxanthin or astaxanthin, but the CrtG from DC263 did not work on either of the ketocarotenoids.