Nonmuscular Troponin-I is required for gastrulation in sea urchin embryos

IF 2 3区 生物学 Q2 ANATOMY & MORPHOLOGY
Mai Kamata, Yuri Taniguchi, Junko Yaguchi, Hiroyuki Tanaka, Shunsuke Yaguchi
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引用次数: 0

Abstract

Background

Gastrulation is one of the most important events in our lives (Barresi and Gilbert, 2020, Developmental Biology, 12th ed.). The molecular mechanisms of gastrulation in multicellular organisms are not yet fully understood, since many molecular, physical, and chemical factors are involved in the event.

Results

Here, we found that one of muscle components, Troponin-I (TnI), is expressed in future gut cells, which are not muscular cells at all, and regulates gastrulation in embryos of a sea urchin, Hemicentrotus pulcherrimus. When we block the function of TnI, the invagination was inhibited in spite that the gut-cell specifier gene is normally expressed. In addition, blocking myosin activity also induced incomplete gastrulation.

Conclusion

These results strongly suggested that TnI regulates nonmuscular actin–myosin interactions during sea urchin gastrulation. So far, Troponin system is treated as specific only for muscle components, especially for striated muscle, but our data clearly show that TnI is involved in nonmuscular event. It is also reported that recent sensitive gene expression analysis revealed that Troponin genes are expressed in nonmuscular tissues in mammals (Ono et al., Sci Data, 2017;4:170105). These evidences propose the new evolutionary and functional scenario of the involvement of Troponin system in nonmuscular cell behaviors using actin-myosin system in bilaterians including human being.

Abstract Image

海胆胚胎的胃形成需要非肌肉型肌钙蛋白-I
胃形成是我们生命中最重要的事件之一(Barresi 和 Gilbert,2020 年,《发育生物学》,第 12 版)。多细胞生物胃形成的分子机制尚未完全明了,因为许多分子、物理和化学因素都参与了这一过程。
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来源期刊
Developmental Dynamics
Developmental Dynamics 生物-发育生物学
CiteScore
5.10
自引率
8.00%
发文量
116
审稿时长
3-8 weeks
期刊介绍: Developmental Dynamics, is an official publication of the American Association for Anatomy. This peer reviewed journal provides an international forum for publishing novel discoveries, using any model system, that advances our understanding of development, morphology, form and function, evolution, disease, stem cells, repair and regeneration.
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