Molecular evolution of the globin gene cluster E in two distantly related midges, Chironomus pallidivittatus and C-thummi thummi

We have studied the evolutionary dynamics of a cluster of insect globin genes by comparing the organization and sequence of the gene group in two distantly related species, Chironomus pallidivittatus and C. t. thummi. Although the general architecture of the globin gene cluster has been conserved, we have found an additional, previously undescribed gene (named Cpa F) in C. pallidivittatus which shows signs of accelerated sequence evolution at nonsynonymous codon positions. This new gene is clearly functional, as demonstrated by Northern analysis. Comparison of paralogous and orthologous genes reveals patterns of intraspecific sequence homogenization. The head-to-head-oriented globin 3 and 4 gene pairs in C. t. thummi and the gb 4 gene pair in C. pallidivittatus have been efficiently homogenized, probably by gene conversion, in their promoter and coding regions. Inverted transcriptional orientation seems to favor efficient conversion. The orthologous genes from C. t. thummi and C. pallidivittatus reveal different levels of sequence conservation, ranging from 85.3 to 94.7% amino acid identity. Surprisingly, globin gene E, for which up to now no corresponding protein has been detected in the larval hemolymph of C. t. thummi, shows the highest degree of interspecies sequence conservation. This points to an essential, as yet unknown function of this globin. The usefulness of globin gene comparisons for dating speciation events in Chironomus is discussed.