1/17/2024 0 Comments Jing chen copenhagenPhrynocephalus convergent evolution oviparity temporal–spatial expression viviparity. This suggests that most of the changes that produce the oviparity-viviparity transition are changes in gene expression, so occasional reversals to oviparity from viviparity may not be as difficult to achieve as has been previously suggested. We discovered low levels of convergence in both amino acid replacement and evolutionary rate shift. In addition, we compared the gene sequences in transcriptomes of four oviparous-viviparous pairs of lizards in different genera ( Phrynocephalus, Eremias, Scincella, and Sphenomorphus) to look for possible gene convergence at the sequence level. We found changes in expression patterns of appropriate genes that account for each of the major aspects of the oviparity to viviparity transition. Expression patterns of maternal oviduct through reproductive development of the egg and embryo differ markedly between the two species. We performed genomic and transcriptomic analyses of a closely related oviparous-viviparous pair of lizards ( Phrynocephalus przewalskii and Phrynocephalus vlangalii) to examine these transitions. The transition from oviparity to viviparity requires numerous physiological, morphological, and immunological changes to the female reproductive tract, including eggshell reduction, delayed oviposition, placental development for supply of water and nutrition to the embryo by the mother, enhanced gas exchange, and suppression of maternal immune rejection of the embryo. Over two-thirds of these changes in vertebrate reproductive parity mode happened in squamate reptiles, where the transition has happened between 98 and 129 times. Viviparous (live-bearing) vertebrates have evolved repeatedly within otherwise oviparous (egg-laying) clades.
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