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The Drosophila Fragile X Protein dFMR1 Is Required During Early Embryogenesis for Pole Cell Formation and Rapid Nuclear Division Cycles

机译：果蝇易碎X蛋白dFMR1是早期胚胎发生中极细胞形成和快速核分裂周期所必需的。

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摘要

The FMR family of KH domain RNA-binding proteins is conserved from invertebrates to humans. In humans, inactivation of the X-linked FMR gene fragile X is the most common cause of mental retardation and leads to defects in neuronal architecture. While there are three FMR family members in humans, there is only a single gene, dfmr1, in flies. As in humans, inactivation of dfmr1 causes defects in neuronal architecture and in behavior. dfmr1 has other functions in the fly in addition to neurogenesis. Here we have analyzed its role during early embryonic development. We found that dfmr1 embryos display defects in the rapid nuclear division cycles that precede gastrulation in nuclear migration and in pole cell formation. While the aberrations in nuclear division are correlated with a defect in the assembly of centromeric/centric heterochromatin, the defects in pole cell formation are associated with alterations in the actin–myosin cytoskeleton.

机译：从无脊椎动物到人类，KH域RNA结合蛋白的FMR家族都是保守的。在人类中，X连接的FMR基因脆性X的失活是智力低下的最常见原因，并导致神经元结构的缺陷。人类中有三个FMR家族成员，而果蝇中只有一个基因dfmr1。与人类一样，dfmr1的失活会导致神经元结构和行为的缺陷。 dfmr1除了具有神经生成功能外，还具有其他功能。在这里，我们分析了其在早期胚胎发育过程中的作用。我们发现dfmr1胚胎在核移植和极细胞形成中在气化之前的快速核分裂循环中显示缺陷。虽然核分裂的畸变与着丝粒/中心异染色质组装的缺陷有关，但极细胞形成的缺陷与肌动蛋白-肌球蛋白的细胞骨架的改变有关。

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期刊名称 Genetics
作者
Girish Deshpande; Gretchen Calhoun; Paul Schedl;
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年(卷),期 2006(174),3
年度 2006
页码 1287–1298
总页数 12
原文格式 PDF
正文语种
中图分类遗传学 ;
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专利

1. 红豆草体细胞胚胎发生早期DNA,RNA和蛋白质的合成动态变化 [J] . 路铁刚植物学报：英文版 . 1989 ,第010期
2. The Drosophila fragile X protein dFMR1 is required during early embryogenesis for pole cell formation and rapid nuclear division cycles [J] . Deshpande G, Calhoun G, Schedl P Genetics: A Periodical Record of Investigations Bearing on Heredity and Variation . 2006 ,第3期

机译：果蝇脆弱的X蛋白dFMR1在胚胎早期发育中需要极细胞形成和快速的核分裂周期
3. The Drosophila Fragile X Protein dFMR1 Is Required During Early Embryogenesis for Pole Cell Formation and Rapid Nuclear Division Cycles [J] . Girish Deshpande, Gretchen Calhoun, Paul Schedl Genetics: A Periodical Record of Investigations Bearing on Heredity and Variation . 2006 ,第3期

机译：果蝇易碎X蛋白dFMR1是早期胚胎发生中极细胞形成和快速核分裂周期所必需的。
4. A role for cyclin J in the rapid nuclear division cycles of early Drosophila embryogenesis [J] . Kolonin MG., Finley RL. Developmental biology . 2000 ,第2期

机译：细胞周期蛋白J在果蝇早期胚胎发生的快速核分裂循环中的作用
5. System Identification of Hunchback Protein Patterning in Early Drosophila Embryogenesis [C] . Anil Aswani, Harendra Guturu, Claire Tomlin IEEE Conference on Decision and Control . 2009

机译：早期果蝇胚胎发生中的HUNCHBACK蛋白的系统鉴定
6. Identification of RNA molecules required for pole cell formation in Drosophila embryos [D] . Kobayashi Satoru 1990

机译：鉴定果蝇胚胎中极细胞形成所需的RNA分子
7. Drosophila argonaute-2 is required early in embryogenesis for the assembly of centric/centromeric heterochromatin nuclear division nuclear migration and germ-cell formation [O] . Girish Deshpande, Gretchen Calhoun, Paul Schedl 2005

机译：果蝇argonaute-2在胚胎发生的早期需要进行中心/着丝粒异染色质的组装核分裂核迁移和生殖细胞形成
8. The Drosophila Fragile X Protein dFMR1 Is Required During Early Embryogenesis for Pole Cell Formation and Rapid Nuclear Division Cycles [O] . Deshpande, Girish, Calhoun, Gretchen, Schedl, Paul 2006

机译：果蝇易碎X蛋白dFMR1是早期胚胎发生中极细胞形成和快速核分裂周期所必需的。

The Drosophila Fragile X Protein dFMR1 Is Required During Early Embryogenesis for Pole Cell Formation and Rapid Nuclear Division Cycles

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