Eight Enterobacteriaceae strains that produce zeaxanthin and derivatives of this compound were isolated from a variety of environmental samples. Phylogenetic analysis showed that these strains grouped with different clusters of Erwinia type strains. Four strains representing the phylogenetic diversity were chosen for further characterization, which revealed their genetic diversity as well as their biochemical diversity. The carotenoid synthesis gene clusters cloned from the four strains had three different gene organizations. Two of the gene clusters, those from strains DC416 and DC260, had the classical organization crtEXYIBZ; the gene cluster from DC413 had the rare organization crtE-idi-XYIBZ; and the gene cluster from DC404 had the unique organization crtE-idi-YIBZ. Besides the diversity in genetic organization, these genes also exhibited considerable sequence diversity. On average, they exhibited 60 to 70% identity with each other, as well as with the corresponding genes of the Pantoea type strains. The four different clusters were individually expressed in Escherichia coli, and the two idi-containing clusters gave more than fivefold-higher carotenoid titers than the two clusters lacking idi. Expression of the crtEYIB genes with and without idi confirmed the effect of increasing carotenoid titer by the type II idi gene linked with the carotenoid synthesis gene clusters.
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| http://dx.doi.org/10.1128/AEM.71.12.8141-8146.2005 | DOI Listing |
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