Cellular dynamics and molecular control of the development of organizer-derived cells in quail-chick chimeras

Charrier JB; Catala M; Lapointe F; Le Douarin N; Teillet MA

首页> 外文期刊>The international journal of developmental biology >Cellular dynamics and molecular control of the development of organizer-derived cells in quail-chick chimeras

【24h】

Cellular dynamics and molecular control of the development of organizer-derived cells in quail-chick chimeras

机译：鹌鹑嵌合体的组织动力学来源的细胞动力学和分子控制。

获取原文

获取原文并翻译 | 示例

获取外文期刊封面封底 >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

Malformations affecting the nervous system in humans are numerous and various in etiology. Many are due to genetic deficiencies or mechanical accidents occurring at early stages of development. It is thus of interest to reproduce such human malformations in animal models. The avian embryo is particularly suitable for researching the role of morphogenetic movements and genetic signaling during early neurogenesis. The last ten years of research with Nicole Le Douarin in the Nogent Institut have brought answers to questions formulated by Etienne Wolff at the beginning of his career, by showing that Hensen's node,the avian organizer, is at the source of all the midline cells of the embryo and ensures cell survival, growth and differentiation of neural and mesodermal tissues.

机译：影响人类神经系统的畸形在病因学上是多种多样的。许多是由于在发育早期发生的遗传缺陷或机械事故。因此，有兴趣在动物模型中重现这种人类畸形。禽胚胎特别适合于研究早期神经发生过程中形态发生运动和遗传信号的作用。在Nogent Institut中与Nicole Le Douarin进行的最近十年研究为埃蒂安·沃尔夫（Etienne Wolff）在其职业生涯初期提出的问题提供了答案，这表明禽类组织者Hensen的结节是所有中线细胞的来源胚胎，并确保神经和中胚层组织的细胞存活，生长和分化。

著录项

来源
《The international journal of developmental biology》 |2005年第3期|共11页
作者
Charrier JB; Catala M; Lapointe F; Le Douarin N; Teillet MA;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类普通胚胎学;
关键词
neurulation; Hensen's node; floor plate; quail-chick chimera; caudal dysplasia; FLOOR PLATE INDUCTION; SONIC-HEDGEHOG; PRIMITIVE STREAK; NERVOUS-SYSTEM; HENSENS NODE; NEURAL-TUBE; SPINAL-CORD; SACRAL AGENESIS; RETINOIC ACID; AVIAN EMBRYOS;

机译：神经;Hensen结;底板;鹌鹑鸡嵌合体;尾部发育不良;底板诱发;超声-刺猬;原纹;神经系统;HENSENS结节;神经管;脊髓线;S骨;树脂;

相似文献

外文文献
中文文献
专利

1. Cellular dynamics and molecular control of the development of organizer-derived cells in quail-chick chimeras [J] . Charrier JB, Catala M, Lapointe F, The international journal of developmental biology . 2005,第2a3期

机译：鹌鹑嵌合体的组织动力学来源的细胞动力学和分子控制。
2. The early development of cranial sensory ganglia and the potentialities of their component cells studied in quail-chick chimeras☆ [J] . Christiane S. Ayer-Le Lievre, Nicole M. Le Douarin Developmental biology . 1982,第2期

机译：鹌鹑嵌合体研究颅内感觉神经节的早期发展及其组成细胞的潜力☆
3. The early development of cranial sensory ganglia and the potentialities of their component cells studied in quail-chick chimeras☆ [J] . Christiane S. Ayer-Le Lievre, Nicole M. Le Douarin Developmental biology . 1982,第2期

机译：鹌鹑嵌合体研究颅内感觉神经节的早期发展及其组成细胞的潜力☆
4. Cellular Dynamics in a 3D Molecular Dynamics System with Chemistry [C] . Duraid Madina, Takashi Ikegami International Conference on the Simulation and Synthesis of Artificial Life; ; . 2004

机译：具有化学作用的3D分子动力学系统中的细胞动力学
5. Synthetic Biomolecular Control Systems to Reprogram Cellular Functions and Dynamic Responses [D] . Siu, Ka-Hei 2019

机译：合成生物分子控制系统，以重新编程细胞功能和动态响应
6. Cellular and Molecular Dynamics of Th17 Differentiation and its Developmental Plasticity in the Intestinal Immune Response [O] . Suniti Bhaumik, Rajatava Basu -1

机译：Th17分化的细胞和分子动力学及其在肠道免疫反应中的发育可塑性
7. Cellular dynamics and molecular control of the development of organizer-derived cells in quail-chick chimeras [O] . Jean-Baptiste Charrier, Martin Catala, Francoise Lapointe, 2005

机译：鹌鹑嵌入式嵌合物中组织者衍生细胞的细胞动力学和分子控制

Cellular dynamics and molecular control of the development of organizer-derived cells in quail-chick chimeras

摘要

著录项

相似文献

相关主题

期刊订阅