A practical staging atlas to study embryonic development of Octopus vulgaris under controlled laboratory conditions.

Q2 Biochemistry, Genetics and Molecular Biology

BMC Developmental Biology Pub Date : 2020-04-16 DOI:10.1186/s12861-020-00212-6

Astrid Deryckere, Ruth Styfhals, Erica A G Vidal, Eduardo Almansa, Eve Seuntjens

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引用次数: 23

Abstract

Background: Octopus vulgaris has been an iconic cephalopod species for neurobiology research as well as for cephalopod aquaculture. It is one of the most intelligent and well-studied invertebrates, possessing both long- and short-term memory and the striking ability to perform complex cognitive tasks. Nevertheless, how the common octopus developed these uncommon features remains enigmatic. O. vulgaris females spawn thousands of small eggs and remain with their clutch during their entire development, cleaning, venting and protecting the eggs. In fact, eggs incubated without females usually do not develop normally, mainly due to biological contamination (fungi, bacteria, etc.). This high level of parental care might have hampered laboratory research on the embryonic development of this intriguing cephalopod.

Results: Here, we present a completely parameter-controlled artificial seawater standalone egg incubation system that replaces maternal care and allows successful embryonic development of a small-egged octopus species until hatching in a laboratory environment. We also provide a practical and detailed staging atlas based on bright-field and light sheet fluorescence microscopy imaging for precise monitoring of embryonic development. The atlas has a comparative section to benchmark stages to the different scales published by Naef (1928), Arnold (1965) and Boletzky (2016). Finally, we provide methods to monitor health and wellbeing of embryos during organogenesis.

Conclusion: Besides introducing the study of O. vulgaris embryonic development to a wider community, this work can be a high-quality reference for comparative evolutionary developmental biology.

Abstract Image

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在实验室控制条件下研究寻常章鱼胚胎发育的实用分期图谱。

背景:章鱼(Octopus vulgaris)一直是神经生物学研究和头足类水产养殖的标志性物种。它是最聪明、研究最充分的无脊椎动物之一，拥有长期和短期记忆，以及执行复杂认知任务的惊人能力。然而，普通章鱼是如何进化出这些不寻常的特征仍然是个谜。O. vulgaris雌性产卵数千个小卵，并在整个发育过程中与窝在一起，清洁、排气和保护卵。事实上，没有雌性的卵通常不能正常发育，主要是由于生物污染(真菌、细菌等)。这种高水平的亲代照顾可能阻碍了对这种有趣的头足类动物胚胎发育的实验室研究。结果:在这里，我们提出了一个完全参数控制的人工海水独立卵孵化系统，取代了母亲的照顾，使小卵章鱼物种的胚胎发育成功，直到在实验室环境中孵化。我们还提供了一个实用的和详细的分期图谱基于明场和光片荧光显微镜成像胚胎发育的精确监测。该地图集有一个比较部分，以Naef(1928)、Arnold(1965)和Boletzky(2016)出版的不同尺度的基准阶段为基准。最后，我们提供了在器官发生过程中监测胚胎健康和福祉的方法。结论:本研究为比较进化发育生物学的研究提供了高质量的参考。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

BMC Developmental Biology 生物-发育生物学

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： BMC Developmental Biology is an open access, peer-reviewed journal that considers articles on the development, growth, differentiation and regeneration of multicellular organisms, including molecular, cellular, tissue, organ and whole organism research.