@article{oai:repo.qst.go.jp:00046277,
 author = {Ishikawa, Yuuji and Yamamoto, Naoyuki and Yoshimoto, Masami and Itou, Hironobu and 石川 裕二},
 issue = {2},
 journal = {Brain, Behavior and Evolution},
 month = {Jan},
 note = {It is widely held that three primary brain vesicles (forebrain, midbrain, and hindbrain vesicles) develop into five secondary brain vesicles in all vertebrates (von Baer's scheme). We reviewed previous studies in various vertebrates to see if this currently accepted scheme of brain morphogenesis is a rule applicable to vertebrates in general. Classical morphological studies on lamprey, shark, zebrafish,frog, chick, Chinese hamster, and human embryos provide only partial evidence to support the existence of von Baer's primary vesicles at early stages. Rather, they suggest that early brain morphogenesis is diverse among vertebrates. Gene expression and fate map studies on medaka, chick, and mouse embryos show that the fates of initial brain vesicles do not accord with von Baer's scheme, at least in medaka and chick brains. The currently accepted von Baer's scheme of brain morphogenesis, therefore, is not a universal rule throughout vertebrates. We propose here a developmental hourglass model as an alternative general rule: Brain morphogenesis is highly conserved at the five-brain vesicle stage but diverges more extensively at earlier and later stages. This hypothesis does not preclude the existence of deep similarities in molecular prepatterns at early stage.},
 pages = {75--83},
 title = {The primary brain vesicles revisited: Are the three primary vesicles (forebrain/midbrain/hindbrain) universal  in vertebrates?},
 volume = {79},
 year = {2012}
}