Abstract

The conversion of β-carotene into xanthophylls is a subject of great scientific and industrial interest. We cloned the crtS gene involved in astaxanthin biosynthesis from two astaxanthin producing strains of Xanthophyllomyces dendrorhous: VKPM Y2410, an astaxanthin overproducing strain, and the wild type ATCC 24203. In both cases, the ORF has a length of 3166 bp, including 17 introns, and codes for a protein of 62.6 kDa with similarity to cytochrome-P450 hydroxylases. crtS gene sequences from strains VKPM Y2410, ATCC 24203, ATCC 96594, and ATCC 96815 show several nucleotide changes, but none of them causes any amino acid substitution, except a G 2268 insertion in the 13th exon of ATCC 96815 which causes a change in the reading frame. A G 1470 → A change in the 5′ splicing region of intron 8 was also found in ATCC 96815. Both point mutations explain astaxanthin idiotrophy and β-carotene accumulation in ATCC 96815. Mutants accumulating precursors of the astaxanthin biosynthetic pathway were selected from the parental strain VKPM Y2410 (red) showing different colors depending on the compound accumulated. Two of them were blocked in the biosynthesis of astaxanthin, M6 (orange; 1% astaxanthin, 71 times more β-carotene) and M7 (orange; 1% astaxanthin, 58 times more β-carotene, 135% canthaxanthin), whereas the rest produced lower levels of astaxanthin (5–66%) than the parental strain. When the crtS gene was expressed in M7, canthaxanthin accumulation disappeared and astaxanthin production was partially restored. Moreover, astaxanthin biosynthesis was restored when X. dendrorhous ATCC 96815 was transformed with the crtS gene. The crtS gene was heterologously expressed in Mucor circinelloides conferring to this fungus an improved capacity to synthesize β-cryptoxanthin and zeaxanthin, two hydroxylated compounds from β-carotene. These results show that the crtS gene is involved in the conversion of β-carotene into xanthophylls, being potentially useful to engineer carotenoid pathways.

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