胚胎期白鲸（白鲸属）尾吸虫的蛋白质信号传导与形态发育

Protein signaling and morphological development of the tail fluke in the embryonic beluga whale (Delphinapterus leucas).

作者信息

Gavazzi L M, Nair M, Suydam R, Usip S, Thewissen J G M, Cooper L N

机构信息

School of Biomedical Sciences, Kent State University, Kent, Ohio, USA.

Musculoskeletal Research Focus Area, Department of Anatomy and Neurobiology, Northeast Ohio Medical University, Rootstown, Ohio, USA.

出版信息

Dev Dyn. 2024 Sep;253(9):859-874. doi: 10.1002/dvdy.704. Epub 2024 Mar 17.

DOI:10.1002/dvdy.704

PMID:38494595

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11656686/

Abstract

BACKGROUND

During the land-to-sea transition of cetaceans (whales, dolphins, and porpoises), the hindlimbs were lost and replaced by an elaborate tail fluke that evolved 32 Ma. All modern cetaceans utilize flukes for lift-based propulsion, and nothing is known of this organ's molecular origins during embryonic development. This study utilizes immunohistochemistry to identify the spatiotemporal location of protein signals known to drive appendage outgrowth in other vertebrates (e.g., Sonic Hedgehog [SHH], GREMLIN [GREM], wingless-type family member 7a [WNT], and fibroblast growth factors [FGFs]) and to test the hypothesis that signals associated with outgrowth and patterning of the tail fluke are similar to a tetrapod limb. Specifically, this study utilizes an embryo of a beluga whale (Delphinapterus leucas) as a case study.

RESULTS

Results showed epidermal signals of WNT and FGFs, and mesenchymal/epidermal signals of SHH and GREM. These patterns are most consistent with vertebrate limb development. Overall, these data are most consistent with the hypothesis that outgrowth of tail flukes in cetaceans employs a signaling pattern that suggests genes essential for limb outgrowth and patterning shape this evolutionarily novel appendage.

CONCLUSIONS

While these data add insights into the molecular signals potentially driving the evolution and development of tail flukes in cetaceans, further exploration of the molecular drivers of fluke development is required.

摘要

背景

在鲸类动物（鲸鱼、海豚和鼠海豚）从陆地向海洋过渡的过程中，后肢消失，取而代之的是在3200万年前进化而来的复杂尾鳍。所有现代鲸类动物都利用尾鳍进行基于升力的推进，而关于这个器官在胚胎发育过程中的分子起源却一无所知。本研究利用免疫组织化学来确定已知在其他脊椎动物中驱动附肢生长的蛋白质信号的时空位置（例如，音猬因子[SHH]、gremlin蛋白[GREM]、无翅型家族成员7a[WNT]和成纤维细胞生长因子[FGFs]），并检验与尾鳍生长和模式形成相关的信号与四足动物肢体相似的假设。具体而言，本研究以白鲸（白鲸属）胚胎为例进行研究。

结果

结果显示了WNT和FGFs的表皮信号，以及SHH和GREM的间充质/表皮信号。这些模式与脊椎动物肢体发育最为一致。总体而言，这些数据与以下假设最为一致，即鲸类动物尾鳍的生长采用了一种信号模式，表明对肢体生长和模式形成至关重要的基因塑造了这种进化上新颖的附肢。

结论

虽然这些数据为潜在驱动鲸类动物尾鳍进化和发育的分子信号提供了见解，但仍需要进一步探索尾鳍发育的分子驱动因素。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5ed1/11656686/2ba870ef867b/DVDY-253-859-g003.jpg

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胚胎期白鲸（白鲸属）尾吸虫的蛋白质信号传导与形态发育

Protein signaling and morphological development of the tail fluke in the embryonic beluga whale (Delphinapterus leucas).

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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