Developmental genome processing and protein evolution in the ciliate Chilodonella uncinata

Abstract

Ciliates are microbial eukaryotes with dual genomes, one present in the transcriptionally inactive germline micronucleus (MIC) and the other in the somatic macronucleus (MAC). In the development of the MAC from the MIC, ciliates process their genomes by chromosomal fragmentation, excision of internal excised sequences (IESs), and amplification of chromosomes. Chilodonella uncinata is in a class of ciliates, Phyllopharyngea, that undergo extensive processing to generate MACs containing thousands of gene‐sized chromosomes. Previous analyses suggest that sequences involved in this processing are highly variable among ciliate lineages. In this study, we examine cis‐acting signals involved in the elimination of IESs in C. uncinata in order to understand the phylogenetic level at which processing signals are conserved. In addition, we are testing the hypothesis that the differential selection on dual genomes in ciliates allows unusually rapid divergence among paralogs of protein coding genes.