Expansion and loss of sperm nuclear basic protein genes in Drosophila correspond with genetic conflicts between sex chromosomes.

In sperm, DNA is packaged more tightly than in other cells thanks to small proteins called 'sperm nuclear basic proteins' (SNBPs), also called protamines in mammals. SNBPs are important for sperm to develop properly and correctly perform their role during fertilization. Although the evolution of SNBPs has been studied in mammals, these proteins have not been as thoroughly examined in invertebrates. Chang et al. took advantage of the availability of high-quality sequences for the genomes of 78 species of Drosophila flies to investigate the evolution of the genes that code for SNBPs in these flies. The results showed that, just like in mammals, in Drosophila the protein sequences of SNBPs evolve rapidly. However, unlike mammals, Chang et al. also found that Drosophila species frequently gained and lost genes coding for SNBPs. Interestingly, the 'older' genes (genes that appeared earlier in evolution) that code for SNBPs are not essential for reproduction in the fruit fly Drosophila melanogaster. This is an unexpected finding because older genes usually have essential roles for survival and reproduction, which require them to be passed on to the next generation and remain in the genome. In contrast, younger SNBP genes that had appeared more recently and were not shared between different species of Drosophila were often essential for fertility. These results, combined with other observations about where SNBP genes are located in the genome, led Chang et al. to hypothesize that SNBPs present in sex chromosomes act as 'meiotic drivers' while those on other chromosomes (known as autosomes) suppress meiotic drive. In other words, SNBP genes present in the sex chromosomes may be responsible for killing sister sperm cells that do not carry those genes, while SNBP genes that are not located on sex chromosomes may suppress this activity. This is of particular interest because it indicates that SNBPs are involved in genetic conflicts between the two sex chromosomes: sperm that carry SNBPs on the X chromosome may kill sperm with a Y chromosome, and vice versa. The results of Chang et al. shed light on the mysterious evolution of SNBPs in Drosophila flies. Although previous hypotheses regarding the rapid evolution of SNBPs evolution have focused on their role in genome packaging, this new analysis suggests that much of the evolutionary change is likely driven by genetic conflicts between sex chromosomes.