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Diversity and spread of cytoplasmic incompatibility genes among maternally inherited symbionts
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Diversity and spread of cytoplasmic incompatibility genes among maternally inherited symbionts
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Diversity and spread of cytoplasmic incompatibility genes among maternally inherited symbionts
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Journal Article
Diversity and spread of cytoplasmic incompatibility genes among maternally inherited symbionts
2025
Overview
Cytoplasmic Incompatibility (CI) causes embryonic lethality in arthropods, resulting in a significant reduction in reproductive success. In most cases, this reproductive failure is driven by Wolbachia endosymbionts through their cifA - cifB gene pair, whose products disrupts arthropod DNA replication during embryogenesis. While a cif pair has been considered a hallmark of Wolbachia , its presence and functional significance in other bacterial lineages remains poorly investigated. Here, we conducted a comprehensive survey of 762 genomes spanning non- Wolbachia endosymbionts and their close relatives, revealing that the cif pair is far more widespread than previously recognized. We identified cif loci in 8.4% of the surveyed genomes, with a striking incidence of 17.4% in facultative symbionts. Beyond Wolbachia , cif pair occurs across eight bacterial genera spanning α-Proteobacteria, γ-Proteobacteria, Mollicutes, and Bacteroidota. Notably, cif pair has been identified in several intracellular pathogens of mammals showing high rate of transovarial transmission in their arthropod hosts, suggesting a potential role of cif pair and CI in vector-borne disease dynamics. Structural analyses further reveal that the PD(D/E)-XK nucleases and AAA-ATPase-like motifs are consistently conserved across cif pairs in all bacterial taxa. Moreover, cif pairs are frequently integrated within diverse mobile genetic elements, from transposons to large intact WO prophages in Wolbachia and RAGEs in Rickettsiaceae. Phylogenetic analyses reveal recent and potentially ongoing horizontal transfers of cif pair between distantly related bacterial lineages, a process potentially facilitated by mobile genetic elements. Indeed, the PDDEXK2 transposase exhibits a phylogenetic pattern consistent with the co-transmission of cif genes, suggesting that it may facilitate horizontal transfers of cif across bacterial lineages. Furthermore, the detection of endosymbionts harboring cif pair in arthropod groups where Wolbachia is scarce, such as ticks, suggests that CI may be more widespread than previously known, with significant implications for arthropod symbiosis, reproductive manipulation, and future biocontrol strategies.
Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject
