Detecting coevolution of positively selected in turtles sperm-egg fusion proteins

Publication date: Available online 18 February 2019Source: Mechanisms of DevelopmentAuthor(s): Jingxiu Dong, Hui Jiang, Lei Xiong, Jiawei Zan, Jianjun Liu, Mengli Yang, Kai Zheng, Ziming Wang, Liuwang NieAbstractPhysically interacting sperm-egg proteins have been identified using gene-modified animals in some mammal species. Three proteins are essential for sperm-egg binding: Izumo1 on the sperm surface, and JUNO and CD9 on the egg surface. Most proteins linked to reproductive function evolve rapidly among species by positive selection, and have correlated evolutionary rates to compensate for changes on both the sperm and egg. Up to now, interactions between sperm and egg proteins have not been identified in non-mammalian vertebrates, such as turtles that have interspecific hybrids that can produce surviving F1 generations. To explore the potential physical interactions of sperm-egg proteins in turtle species, the coding region of Izumo1, JUNO, and CD9 homologous genes (named Tu-Izumo1, Tu-JUNO, and Tu-CD9) in six turtle species (Mauremys reevesii, M. mutica, M. sinensis, Cistoclemmys flavomarginata, Platysternon megacephalum and Chrysemys picta bellii) were identified, amplified, and sequenced, and tissue-specific expression was analyzed in M. reevesii. We constructed phylogenetic trees and analyzed the signatures of coevolution between sperm-egg protein pairs using MirrorTree Server and linear regression methods. The results showed that Tu-Izumo1, Tu-JUNO, and Tu-CD9 protei...
Source: Mechanisms of Development - Category: Biology Source Type: research
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