Ancient role of ten-m/odz in segmentation and the transition from sequential to syncytial segmentation.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2017-04-27 eCollection Date: 2017-01-01 DOI:10.1186/s41065-017-0029-1
Axel Hunding, Stefan Baumgartner
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引用次数: 8

Abstract

Background: Until recently, mechanisms of segmentation established for Drosophila served as a paradigm for arthropod segmentation. However, with the discovery of gene expression waves in vertebrate segmentation, another paradigm based on oscillations linked to axial growth was established. The Notch pathway and hairy delay oscillator are basic components of this mechanism, as is the wnt pathway. With the establishment of oscillations during segmentation of the beetle Tribolium, a common segmentation mechanism may have been present in the last common ancestor of vertebrates and arthropods. However, the Notch pathway is not involved in segmentation of the initial Drosophila embryo. In arthropods, the engrailed, wingless pair has a much more conserved function in segmentation than most of the hierarchy established for Drosophila.

Results: Here, we work backwards from this conserved pair by discussing possible mechanisms which could have taken over the role of the Notch pathway. We propose a pivotal role for the large transmembrane protein Ten-m/Odz. Ten-m/Odz may have had an ancient role in cell-cell communication, parallel to the Notch and wnt pathways. The Ten-m protein binds to the membrane with properties which resemble other membrane-based biochemical oscillators.

Conclusion: We propose that such a simple transition could have formed the initial scaffold, on top of which the hierarchy, observed in the syncytium of dipterans, could have evolved.

Abstract Image

Abstract Image

Abstract Image

10 -m/odz在细胞分切和从序贯分切到合胞分切中的作用。
背景:直到最近,果蝇的分割机制一直是节肢动物分割的范例。然而,随着脊椎动物分割中基因表达波的发现,另一种基于与轴向生长相关的振荡的范式被建立起来。Notch通路和毛状延迟振荡器是该机制的基本组成部分,wnt通路也是如此。随着Tribolium甲虫分节过程中振荡的建立,在脊椎动物和节肢动物的最后共同祖先中可能存在一种共同的分节机制。然而,Notch通路并不参与果蝇胚胎的初始分割。在节肢动物中,与果蝇所建立的大多数层次结构相比,这一对纠缠在一起的无翅染色体在分割上的功能要保守得多。结果:在这里,我们通过讨论可能接管Notch通路的作用的可能机制,从这个保守对向后工作。我们提出了大跨膜蛋白Ten-m/Odz的关键作用。Ten-m/Odz可能与Notch和wnt通路相似,在细胞间通讯中起着古老的作用。Ten-m蛋白与膜结合,其特性类似于其他基于膜的生化振荡子。结论:我们认为,这样一个简单的转变可能形成了最初的支架,在此基础上,在双翅目动物合胞体中观察到的层次结构可能已经进化。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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