Yuan Jianbo, Zhang Xiaojun, Gao Yi, Zhang Xiaoxi, Liu Chengzhang, Xiang Jianhai, Li Fuhua
CAS Key Laboratory of Experimental Marine Biology, Institute of Oceanology, Chinese Academy of Sciences, Qingdao, China.
Laboratory for Marine Biology and Biotechnology, Qingdao National Laboratory for Marine Science and Technology, Qingdao, China.
Mol Ecol. 2020 Oct;29(20):3954-3969. doi: 10.1111/mec.15610. Epub 2020 Sep 11.
Hydrothermal vents are unique deep-sea environments exhibiting extreme temperature gradients and toxic concentrations of H S that limit the growth of biological communities. Notably, some decapod crustaceans are the dominant organisms inhabiting these environments, and share similar phenotypic and physiological traits, such as white body coloration and chemosynthetic capacity. However, a lack of genomic information has precluded an understanding of these convergent phenotypes. Here, comparative transcriptomic analyses were performed in 14 decapod species, including four deep-sea hydrothermal vent species and 10 shallow-water relatives. Phylogenetic analysis suggested that the four deep-sea species stemmed from different ancestors despite being geographically close, and therefore their similar traits were probably the product of convergent evolution rather than lineal inheritance. A total of 391 positively selected genes, 109 parallel substituted genes and 33 significantly expanded gene families were identified in the deep-sea decapods. Among these, only the SNARE interactions in vesicular transport pathway was significantly enriched, with both positively selected genes and parallel substituted genes, suggesting that specific macromolecule transport might be a strong convergent evolution trait in deep-sea decapods. Furthermore, many genes involved in protein synthesis, processing and energy metabolism were detected under convergent evolution, suggesting a role for adaptive evolution in association with a specific metabolic pathway in response to chemosynthetic nutrition patterns. Moreover, our study suggests that convergently evolved white body colour might have resulted from the contraction of the crustacyanin gene family and the low content of astaxanthin in the body of deep-sea decapods. Therefore, this study provides valuable genetic evidence for convergent evolution in deep-sea decapods.
热液喷口是独特的深海环境,具有极端的温度梯度和高浓度的有毒硫化氢,这限制了生物群落的生长。值得注意的是,一些十足目甲壳类动物是栖息在这些环境中的主要生物,并且具有相似的表型和生理特征,如白色体色和化学合成能力。然而,缺乏基因组信息阻碍了对这些趋同表型的理解。在这里,对14种十足目物种进行了比较转录组分析,包括4种深海热液喷口物种和10种浅水近缘物种。系统发育分析表明,这4种深海物种尽管地理位置相近,但起源于不同的祖先,因此它们相似的特征可能是趋同进化的产物,而不是直系遗传。在深海十足目中总共鉴定出391个正选择基因、109个平行取代基因和33个显著扩张的基因家族。其中,只有囊泡运输途径中的SNARE相互作用显著富集,既有正选择基因又有平行取代基因,这表明特定的大分子运输可能是深海十足目中一个强大的趋同进化特征。此外,在趋同进化过程中检测到许多参与蛋白质合成、加工和能量代谢的基因,这表明适应性进化在与特定代谢途径相关联以响应化学合成营养模式方面发挥了作用。此外,我们的研究表明,趋同进化产生的白色体色可能是由于深海十足目体内虾青素含量低以及虾青素蛋白基因家族收缩所致。因此,本研究为深海十足目的趋同进化提供了有价值的遗传证据。
