海蛇嗅觉的丧失为研究羊膜动物的水生适应性提供了新的视角

T. Kishida, Yasuhiro Go, Shoji Tatsumoto, Kaori Tatsumi, Shigehiro Kuraku, M. Toda
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引用次数: 21

摘要

海洋羊膜动物是一种多物种类群,为研究趋同进化提供了极好的机会。它们的嗅觉倾向于退化,但这一过程尚未通过将完全水生物种与它们的两栖亲戚在进化背景下进行比较来探索。在这里,我们对全水生和两栖海蛇的基因组进行了测序,并确定了与嗅觉有关的化学感觉受体基因。蛇具有大量的嗅觉受体(OR)基因和2型犁头鼻受体(V2R)基因,在嗅觉组织中的表达谱表明蛇在主嗅觉系统(MOS)中使用ORs基因,在犁头鼻系统(VNS)中使用V2Rs基因。海蛇的OR基因数量已经减少,完全水生的物种失去了负责探测空气中气味的MOS。相比之下,包括完全水生物种在内的海蛇保留了许多V2R基因和发达的VNS,用于在水下嗅觉。这项研究表明,海蛇的嗅觉也退化了,特别是在完全水生的物种中,但它们的残余嗅觉能力与其他完全水生的羊膜动物不同。两栖类蛇介于陆生蛇和完全水生蛇之间,这意味着它们在理解水生适应过程中的重要性。
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Loss of olfaction in sea snakes provides new perspectives on the aquatic adaptation of amniotes
Marine amniotes, a polyphyletic group, provide an excellent opportunity for studying convergent evolution. Their sense of smell tends to degenerate, but this process has not been explored by comparing fully aquatic species with their amphibious relatives in an evolutionary context. Here, we sequenced the genomes of fully aquatic and amphibious sea snakes and identified repertoires of chemosensory receptor genes involved in olfaction. Snakes possess large numbers of the olfactory receptor (OR) genes and the type-2 vomeronasal receptor (V2R) genes, and expression profiling in the olfactory tissues suggests that snakes use the ORs in the main olfactory system (MOS) and the V2Rs in the vomeronasal system (VNS). The number of OR genes has decreased in sea snakes, and fully aquatic species lost MOS which is responsible for detecting airborne odours. By contrast, sea snakes including fully aquatic species retain a number of V2R genes and a well-developed VNS for smelling underwater. This study suggests that the sense of smell also degenerated in sea snakes, particularly in fully aquatic species, but their residual olfactory capability is distinct from that of other fully aquatic amniotes. Amphibious species show an intermediate status between terrestrial and fully aquatic snakes, implying their importance in understanding the process of aquatic adaptation.
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