基于FGF和shh的分子信号调节鲶鱼的倒刺和颅面发育。

IF 1.7 3区 生物学 Q2 ZOOLOGY
Zoological Letters Pub Date : 2019-06-14 eCollection Date: 2019-01-01 DOI:10.1186/s40851-019-0135-1
Tatsuya Itoyama, Makiko Fukui, Masahumi Kawaguchi, Saki Kaneko, Fumiaki Sugahara, Yasunori Murakami
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引用次数: 2

摘要

背景:鲶鱼(Siluriformes)具有独特的形态特征,包括扩大的下颌和可移动的刺和覆盖整个身体表面的味蕾。这些特征的进化是它们适应淡水环境的关键一步。然而,鲶鱼颅面区和味蕾的发育过程仍有待阐明;此外,对这些结构形态发生的分子机制知之甚少。结果:鲶鱼(Silurus asotus)在受精后2天形成3对须原基。周围神经的支配和肌肉前体的形成也在发育早期建立。从口腔到躯干的味蕾由4个dpf组成。然后,我们分离了鲶鱼的同源基因Shh (SaShh)和Fgf8 (SaFgf8),这两个基因在上颌须原基1-2 dpf处表达。此外,SHH信号抑制导致下颌倒刺减少,骨骼元素形态异常,而三叉神经和面神经形态没有明显异常。我们还发现,FGF抑制会减少下颌须的长度和味蕾的数量,这在SHH信号抑制中可见。然而,与SHH抑制不同,在FGF信号抑制的胚胎中观察到三叉神经和面神经的异常形态。结论:黑龙江鲶鱼的发育过程与其他种类鲶鱼的发育过程一致。因此,颅面结构和味蕾的发育方面可能在志留形动物中得到保留。我们的研究结果还表明,SHH信号在倒刺和味蕾的形成中起着至关重要的作用,而不影响神经投射,而FGF信号对于倒刺、味蕾和鳃神经的发育是必需的。因此,SHH和FGF信号在一些鲶鱼特异性特征的个体发生和进化中起着关键作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

FGF- and SHH-based molecular signals regulate barbel and craniofacial development in catfish.

FGF- and SHH-based molecular signals regulate barbel and craniofacial development in catfish.

FGF- and SHH-based molecular signals regulate barbel and craniofacial development in catfish.

FGF- and SHH-based molecular signals regulate barbel and craniofacial development in catfish.

Background: Catfish (Siluriformes) are characterized by unique morphologies, including enlarged jaws with movable barbels and taste buds covering the entire body surface. Evolution of these characteristics was a crucial step in their adaptive radiation to freshwater environments. However, the developmental processes of the catfish craniofacial region and taste buds remain to be elucidated; moreover, little is known about the molecular mechanisms underlying the morphogenesis of these structures.

Results: In Amur catfish (Silurus asotus), three pairs of barbel primordia are formed by 2 days post-fertilization (dpf). Innervation of the peripheral nerves and formation of muscle precursors are also established during early development. Taste buds from the oral region to the body trunk are formed by 4 dpf. We then isolated catfish cognates Shh (SaShh) and Fgf8 (SaFgf8), which are expressed in maxillary barbel primordium at 1-2 dpf. Further, SHH signal inhibition induces reduction of mandibular barbels with abnormal morphology of skeletal elements, whereas it causes no apparent abnormality in the trigeminal and facial nerve morphology. We also found that mandibular barbel lengths and number of taste buds are reduced by FGF inhibition, as seen in SHH signal inhibition. However, unlike with SHH inhibition, the abnormal morphology of the trigeminal and facial nerves was observed in FGF signal-inhibited embryos.

Conclusion: The developmental processes of Amur catfish are consistent with those reported for other catfish species. Thus, developmental aspects of craniofacial structures and taste buds may be conserved in Siluriformes. Our findings also suggest that SHH signaling plays a crucial role in the formation of barbels and taste buds, without affecting nerve projection, while FGF signaling is required for the development of barbels, taste buds, and branchial nerves. Thus, SHH and FGF signaling plays key roles in the ontogenesis and evolution of some catfish-specific characteristics.

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来源期刊
Zoological Letters
Zoological Letters Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
3.60
自引率
0.00%
发文量
12
审稿时长
10 weeks
期刊介绍: Zoological Letters is an open access journal that publishes new and important findings in the zoological sciences. As a sister journal to Zoological Science, Zoological Letters covers a wide range of basic fields of zoology, from taxonomy to bioinformatics. We also welcome submissions of paleontology reports as part of our effort to contribute to the development of new perspectives in evolutionary zoology. Our goal is to serve as a global publishing forum for fundamental researchers in all fields of zoology.
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