Abstract
In chromophytic algae the major light-harvesting complex is the fucoxanthin chlorophylla/c protein complex. Recently, we have cloned several highly related cDNA and genomic sequences encoding the fucoxanthin chlorophylla/c proteins from the diatomPhaeodactylum tricornutum. These genes are clustered on the nuclear genome. The sequences of the fucoxanthin chlorophylla/c proteins as deduced from the gene sequences have some similarity to the chlorophylla/b proteins associated with light-harvesting complexes of higher plants and green algae. Like the chlorophylla/b proteins of higher plants, the fucoxanthin chlorophylla/c proteins are synthesized as higher-molecular weight precursors in the cytoplasm of the cell and are transported into the plastids. However, the mode of transport into diatom plastids is very different from the mechanism involved in transporting proteins into the chloroplasts of higher plants and green algae. We focus here on the characteristics of the fucoxanthin chlorophylla/c proteins, the mode of transport of these proteins into plastids, the arrangement of the genes encoding these proteins, and efforts to utilize these genes to develop a DNA transformation system for diatoms.
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