DOI: 10.1111/1749-4877.70143 ISSN: 1749-4877

Evolutionary Conservation and Reproductive Expression of ABC Transporter Genes in Two Sphenomorphus Skinks

Shufang Zhang, Jiahui Xu, Mengzhen Hu, Qingyi Zhou, Peng Li, Yun‐he Wu, Lian Chen, Hong Li

ABSTRACT

ATP‐binding cassette (ABC) transporters represent one of the largest membrane protein superfamilies in vertebrates, playing essential roles in translocating diverse substrates across membranes. However, knowledge of ABC transporter genes in reptiles remains limited. In this study, we conducted a comprehensive genome‐wide identification and characterization of the ABC gene family in oviparous Sphenomorphus incognitus and viviparous Sphenomorphus indicus . A total of 45 ABC genes were identified in each species and classified into seven subfamilies (ABCA–ABCG). Comparative and phylogenetic analyses revealed a generally conserved gene repertoire, with limited duplication events observed mainly in the ABCA and ABCG subfamilies, whereas other subfamilies (e.g., ABCE, ABCF, and ABCD) remained highly conserved. Interestingly, a lineage‐specific duplication of ABCC2 was identified in lizards. Oviductal expression profiling revealed distinct temporal patterns of ABC gene expression across reproductive stages. Several genes, including ABCG1 , ABCC3 , and ABCD4 , exhibited conserved expression trajectories across both species, suggesting shared transcriptional regulation. In contrast, ABCA1 , ABCB1 , and ABCG2 showed species‐specific expression patterns, indicating regulatory divergence between the two lizard species. Overall, ABC gene expression was more dynamic in S. incognitus than in S. indicus . In summary, although the ABC transporter family is structurally conserved, it exhibits lineage‐specific evolutionary changes and divergent transcriptional regulation in lizard oviducts. This study provides a foundation for understanding the diversity and regulation of ABC transporter genes in reptiles.

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