Fine scale interspersion of conserved sequences in the pea and corn chloroplast genomes

Abstract

A comparison is made of the chloroplast genomes of two divergent higher plants, pea and corn. Reassociation kinetics analysis shows that only 33–34% of the chloroplast DNA (ct DNA) sequences are conserved in these two plants, which is equal to about 43 kilobases (kb). The restriction enzyme patterns produced by Eco RI, Bam HI, and Sal I are different for each ct DNA, as expected from the low level of homology. The total length of cross-reacting Eco RI fragments, assessed by blot hybridization methods, exceeds the reassociation kinetics estimate by at least 20 kb. An electron microscopic analysis of ct DNA heteroduplexes shows that the conserved regions are surprisingly short, and consequently, they are interspersed with divergent DNA. Fifty percent of the conserved regions are less than 550 bases; 10 sites are less than 150 bases. The median length of a heterologous region is 250 bases. The heteroduplexes fall into 4 classes, established by the position and size of the conserved and divergent regions, totaling 61 kb. One class has been identified as the ribosomal gene region: the corn Eco RI fragment, Eco RI A, which codes for the 16S and 23S cistrons (Bedbrook and Bogorad 1976), was reassociated with total pea ct DNA, and the products analyzed by electron microscopy. Only one pattern of heteroduplexes was observed. A stretch of almost completely conserved DNA, equivalent to 6.9 kb, extends from the 16S gene through the 23S gene, and therefore, includes the transcribed spacer separating these two cistrons. Heterologous regions occur immediately outside of the 5′ and 3′ ends of the 16S and 23S genes, respectively. A set of the 16S and 23S genes contribute about 4%, and the spacer 1.6%, to the level of sequence homology in each genome.