Cytoplasmic incompatibility

Cytoplasmic incompatibility (CI) is a phenomenon that results in sperm and eggs being unable to form viable offspring. The effect arises from changes in the gamete cells caused by intracellular parasites like Wolbachia, which infect a wide range of insect species. As the reproductive incompatibility is caused by bacteria that reside in the cytoplasm of the host cells, it is referred to as cytoplasmic incompatibility. In 1971, Janice Yen and A. Ralph Barr of UCLA demonstrated the etiologic relationship of Wolbachia infection and cytoplasmic incompatibility in Culex mosquitos when they found that eggs were killed when the sperm of Wolbachia-infected males fertilized infection-free eggs.

CI occurs when a Wolbachia infected male mates with a female that is infected by another Wolbachia strain (bidirectional CI) or is uninfected (unidirectional CI). Any other combination of un-/infected male/female crosses are compatible. An infected female is compatible with any infected or uninfected male of the same Wolbachia strain. On the other hand an uninfected female is only compatible with an uninfected male. In other words, if the male is infected by a CI-inducing strain of Wolbachia that is non-existent in its mate, it is an incompatible cross. Hosts can be cured from Wolbachia infection by antibiotic use.

In diploid organisms CI leads to embryonic mortality. In contrast, CI in haplodiploid hosts may lead to haploid (and thus male) offspring. The closely related species of the wasp Nasonia show embryonic mortality as well as male development among incompatible crosses. In N. vitripennis, however, the vast majority of the CI embryos are converted into males.

There are two distinguished events that lead to the CI inducing manipulation. The first occurs inside the Wolbachia infected male during spermatogenesis and is called modification. Because Wolbachia are absent from mature sperm and appear to be excluded during the individualization process, the modification must occur before the conclusion of spermatogenesis. The second event, called rescue, takes place inside the fertilized egg where Wolbachia presence prevents CI from occurring. As long as the Wolbachia strains in egg and sperm cells correspond, harmful effects cannot be observed on a cellular level.

A major consequence of CI is the delayed entry into mitosis of the male pronucleus. As a secondary consequence, stemming from this asynchrony, the paternal chromosomes do not properly condense and align on the metaphase plate during the first mitosis. As a consequence, only the maternal chromosome segregate normally, producing haploid embryos. The rescue of CI by infected eggs leads to the restoration of synchrony between the female and the male pronucleus.

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