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Titlebook: Brain Development of Medaka Fish; A New Concept of Bra Yuji Ishikawa,Naoyuki Yamamoto,Hanako Hagio Book 2022 The Editor(s) (if applicable)

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發(fā)表于 2025-3-21 18:12:19 | 只看該作者 |倒序瀏覽 |閱讀模式
期刊全稱Brain Development of Medaka Fish
期刊簡稱A New Concept of Bra
影響因子2023Yuji Ishikawa,Naoyuki Yamamoto,Hanako Hagio
視頻videohttp://file.papertrans.cn/191/190149/190149.mp4
發(fā)行地址Includes detailed and comprehensive description of the development of the medaka brain.Provides a comprehensive brain atlas of the larval medaka brain.Presents a new concept of the “hourglass model” f
圖書封面Titlebook: Brain Development of Medaka Fish; A New Concept of Bra Yuji Ishikawa,Naoyuki Yamamoto,Hanako Hagio Book 2022 The Editor(s) (if applicable)
影響因子This book describes the developmental process of the brain of the medaka fish. It aims to understand the brain structure of vertebrates, including humans, by taking the brain of the medaka fish as an example and showing its actual developmental process. From developmental and evolutionary viewpoints, the understanding of the brain proceeds from simple to complex structures. Fish retain the basic form of vertebrates, and their brain morphology is relatively simple. Therefore, the fish brain is useful in understanding the brain structure. This book is unique for describing the entire process of the brain development in a specific fish.?.In addition, the book introduces the readers to a new concept of “Hourglass of Brain Morphogenesis”, concerning the general rule of brain morphogenesis in vertebrates. The authors propose that the brain morphology is highly conserved at the middle developmental stage but diverges more extensively at earlier and later stages. The new concept challenges the accepted theory that has been widely shared for about 200 years since K. von Baer (1828, 1837) and K. von Kupffer (1906) who proposed that three primary brain vesicles at earlier developmental stages
Pindex Book 2022
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Neural Tube Formation,panied by fully developed ventricles and five brain vesicles. In the teleost eggs, cell divisions occur only in a small area (blastodisc) in the animal pole, and the early embryo (blastoderm) is formed in the blastodisc. The blastoderm becomes the morula, blastula, gastrula, and then neurula, as the
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Subdivisions of Neural Tube along the Rostrocaudal Axis: Neuromeric Models,plate has five tissue compartments that are located rostrocaudally as early as at stage 16+. The neural rod at stage 19 has three transverse swellings or vesicles. By stage 24, these vesicles develop into five brain vesicles in the neural tube: the rostral brain vesicle develops into the telencephal
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,Left–Right Patterning of Neural Tube,asymmetries, are distinguishable in animal bodies. Nodal signaling pathway plays a crucial role to create the fixed asymmetry not only in vertebrate visceral organs but also in teleostean epithalamus, which includes the habenula, pineal, parapineal, and circumventricular organs. In most medaka larva
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