Evolution of a noncoding region of the chloroplast genome.

The relative rate of occurrence of nucleotide substitutions versus indel (insertion/deletion) events is investigated by comparing complete DNA sequence data from the noncoding portion of the chloroplast genome that maps between the genes rbcL and atp beta. The sequence data are obtained from nine species that represent three tribes of the grass family. Indels could be categorized by those that are deletions or duplications of adjacent or proximal sequences and those that do not appear to be permutations of adjacent sequences. The first category represents 82% of the recorded indels. These indels may also be characterized by being direct duplications of one to several bases usually within runs of As or Ts or by being duplications or deletions of more complex sequences. When viewed from within groups of closely related taxa, indel events appear to occur at an equal or slightly faster rate than do nucleotide substitution events. However, the apparent rate of accumulation of indels in more distantly related species is significantly slower than that of nucleotide substitutions. This difference in apparent accumulation rates between indel events and nucleotide substitutions suggests that the proportion of superimposed changes has been higher among all indel events than among all nucleotide substitution events. Indeed the indels involving more complex sequences were found to be confined across taxa to a number of highly labile sites. Independent, though similar, indel events occur at identical sites in unrelated taxa, yet may not be shared among related taxa, resulting in a type of molecular parallelism. As a result, the phylogenetic tree based on indel events represents an evolutionary hypothesis which is inconsistent with the accepted phylogeny of these grasses. The phylogenetic tree based on nucleotide substitutions is consistent with accepted phylogeny.