Germ-line (micronuclear) genes in hypotrichous ciliates are interrupted by numerous, short, noncoding, AT-rich segments called internal eliminated segments, or IESs. IESs divide a gene into macronuclear destined segments, or MDSs. IESs are excised from micronuclear genes, and the MDSs are spliced when a micronuclear genome is processed into a macronuclear genome after cell mating. In the micronuclear version of the actin I gene intramolecular recombination between IESs during evolution has put MDSs into a scrambled disorder in some but not all hypotrichs. Studies using rDNA sequences to define phylogenetic relationships among eight hypotrichs suggests that evolution of the micronuclear actin I gene proceeds by successive addition of IESs in earlier diverging species, without MDS scrambling. Continued addition of IESs and recombination among IESs in later diverging species produced actin I genes with scrambled MDSs. Subsequent to MDS scrambling, additional IESs were inserted into the more recently evolved species. Thus, IES insertions and gene scrambling occur in a progressive manner during species evolution to produce micronuclear actin I genes of increasing structural complexity.G enes in micronuclear (germ-line) DNA of hypotrichous ciliates are interrupted by multiple, short, AT-rich, noncoding segments called internal eliminated segments, or IESs. IESs divide a gene into macronuclear destined segments, or MDSs. In some genes intramolecular recombination between IESs during evolution has disordered MDSs-i.e., MDSs have become scrambled. During development of a micronucleus into a new macronucleus after cell mating, IESs are spliced out of genes and MDSs are rearranged and ligated in the orthodox order to produce a transcribable gene (1). After MDS ligation the genes are excised from chromosomal DNA as individual, short DNA molecules, and all of the remaining DNA (spacer DNA), which accounts for Ϸ95% of the nucleotide sequence complexity in the micronuclear genome, is destroyed. Generally, one gene is present per molecule, but a small percentage of molecules may contain two genes (2) or even three genes (D.M.P., J. D. Prescott, and R. M. Prescott, unpublished observation).The significance of IESs in micronuclear genes is not understood, although it has been suggested that they facilitate evolution of new genes; recombination among IESs, which results in shuffling of MDSs, could conceivably create new, intergenic MDS combinations. Thus, the presence of scrambled MDSs in contemporary hypotrichs is a manifestation of intragenic MDS shuffling caught in evolutionary time. In addition, IES position within a gene can change (shift), which alters the sequence composition and size of MDSs in that gene (3), increasing further the versatility of MDS shuffling. At the very least, IES shifting and MDS scrambling by IES recombination, as reaffirmed in the data reported here, attest to an extraordinarily dynamic nature of the germ-line genome in hypotrichs over evolutionary time.This paper discusses the origin and evolution o...
