STRUCTURE AND EVOLUTION OF THE LARGEST CHLOROPLAST GENE (ORF2280) - INTERNAL PLASTICITY AND MULTIPLE GENE LOSS DURING ANGIOSPERM EVOLUTION

We have determined the nucleotide sequence of the Pelargonium x hortorum ORF2280 homolog, the largest gene in the plastid genome of most land plants, and compared it to published homologs from Nicotiana tabacum, Epifagus virginiana, Spinacia oleracea, and Marchantia polymorpha. Multiple alignment of protein sequences requires an extraordinary number of gaps, indicating a very high frequency of insertion/deletion events during the evolution of the protein; however, the overall predicted size of the protein varies relatively little among the five species. At 2109 codons, the Pelargonium gene is smaller than other land plant ORF2280 homologs and exhibits a rate of nucleotide substitution several times higher relative to Nicotiana, Epifagus, and Spinacia. Southern-blot and restriction-mapping studies were carried out to uncover length variation in ORF2280 homologs from 279 species (representing 111 families) of angiosperms. In many independent angiosperm lineages, this gene has sustained deletions ranging in size from 200 bp to almost 6 kb. Based on the severity of deletions, we postulate that the chloroplast homolog of ORF2280 has become nonfunctional in at least four independent lineages of angiosperms.