Temporal Patterning in the Drosophila CNS.

IF 11.4 1区 生物学 Q1 CELL BIOLOGY
Chris Q Doe
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引用次数: 166

Abstract

A small pool of neural progenitors generates the vast diversity of cell types in the CNS. Spatial patterning specifies progenitor identity, followed by temporal patterning within progenitor lineages to expand neural diversity. Recent work has shown that in Drosophila, all neural progenitors (neuroblasts) sequentially express temporal transcription factors (TTFs) that generate molecular and cellular diversity. Embryonic neuroblasts use a lineage-intrinsic cascade of five TTFs that switch nearly every neuroblast cell division; larval optic lobe neuroblasts also use a rapid cascade of five TTFs, but the factors are completely different. In contrast, larval central brain neuroblasts undergo a major molecular transition midway through larval life, and this transition is regulated by a lineage-extrinsic cue (ecdysone hormone signaling). Overall, every neuroblast lineage uses a TTF cascade to generate diversity, illustrating the widespread importance of temporal patterning.

果蝇中枢神经系统的时间模式。
一小部分神经祖细胞在中枢神经系统中产生了多种多样的细胞类型。空间模式指定祖先身份,其次是祖先谱系内的时间模式,以扩大神经多样性。最近的研究表明,在果蝇中,所有的神经祖细胞(神经母细胞)依次表达产生分子和细胞多样性的时间转录因子(ttf)。胚胎神经母细胞使用5个ttf的谱系固有级联,几乎改变了每一次神经母细胞分裂;视叶神经母细胞幼虫也使用5种ttf的快速级联,但其因素完全不同。相比之下,幼虫的中枢神经母细胞在幼虫生命的中途经历了一个主要的分子转变,这种转变是由一个谱系外部线索(蜕皮激素信号)调节的。总的来说,每个神经母细胞谱系都使用TTF级联来产生多样性,说明了时间模式的广泛重要性。
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来源期刊
CiteScore
19.50
自引率
0.00%
发文量
21
期刊介绍: The Annual Review of Cell and Developmental Biology, established in 1985, comprehensively addresses major advancements in cell and developmental biology. Encompassing the structure, function, and organization of cells, as well as the development and evolution of cells in relation to both single and multicellular organisms, the journal explores models and tools of molecular biology. As of the current volume, the journal has transitioned from gated to open access through Annual Reviews' Subscribe to Open program, making all articles published under a CC BY license.
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