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Novel genes dramatically alter regulatory network topology in amphioxus

机译：新基因显着改变文昌鱼的调节网络拓扑

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BackgroundRegulation in protein networks often utilizes specialized domains that 'join' (or 'connect') the network through specific protein-protein interactions. The innate immune system, which provides a first and, in many species, the only line of defense against microbial and viral pathogens, is regulated in this way. Amphioxus (Branchiostoma floridae), whose genome was recently sequenced, occupies a unique position in the evolution of innate immunity, having diverged within the chordate lineage prior to the emergence of the adaptive immune system in vertebrates.

机译：背景技术蛋白质网络中的调控通常利用专门的域，这些域通过特定的蛋白质-蛋白质相互作用“连接”（或“连接”）网络。以这种方式调节了先天免疫系统，该系统提供了针对微生物和病毒病原体的第一道防线，在许多物种中，这也是唯一的防线。最近对其基因组进行了测序的文昌鱼（Branchiostoma floridae）在先天免疫进化中占有独特的位置，在脊椎动物的适应性免疫系统出现之前，它已在the酸盐谱系中分化。

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期刊名称 Genome Biology
作者
Qing Zhang; Christian M Zmasek; Larry J Dishaw; M Gail Mueller; Yuzhen Ye; Gary W Litman; Adam Godzik;
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年(卷),期 2008(9),8
年度 2008
页码 R123
总页数 9
原文格式 PDF
正文语种
中图分类生物学;
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1. The evolutionary origin of the vertebrate neural crest and its developmental gene regulatory network - insights from amphioxus [J] . Yu Jr-Kdi Sky Zoology . 2010,第1期

机译：脊椎动物神经c的进化起源及其发育基因调控网络-两栖动物的见解
2. Dramatic Changes in 67 miRNAs During Initiation of First Wave of Spermatogenesis in Mus musculus Testis: Global Regulatory Insights Generated by miRNA-mRNA Network Analysis [J] . Sreesha Sree, Karthika Radhakrishnan, Sivankutty Indu, Biology of Reproduction: Offical Journal of the Society for the Study of Reproduction . 2014,第3期

机译：在小家鼠睾丸精子发生的第一波启动过程中67个miRNA的剧烈变化：由miRNA-mRNA网络分析产生的全球监管见解
3. Dramatic Changes in 67 miRNAs During Initiation of First Wave of Spermatogenesis in Mus musculus Testis: Global Regulatory Insights Generated by miRNA-mRNA Network Analysis [J] . Sreesha Sree, Karthika Radhakrishnan, Sivankutty Indu, Biology of Reproduction: Offical Journal of the Society for the Study of Reproduction . 2014,第3期

机译：在小家鼠睾丸精子发生的第一波启动过程中67个miRNA的剧烈变化：由miRNA-mRNA网络分析产生的全球监管见解
4. Intervention in general topology gene regulatory networks [C] . Bouaynaya Nidhal, Rasheed Mohammed, Shterenberg Roman, Genomic Signal Processing and Statistics (GENSIPS), 2011 IEEE International Workshop on . 2011

机译：通用拓扑基因调控网络的干预
5. Structure and Topology of Transcriptional Regulatory Networks and Their Applications in Bio-inspired Networking [D] . Roy, Satyaki . 2019

机译：转录监管网络的结构与拓扑及其在生物启发网络中的应用
6. Dynamics of gene regulatory networks and their dependence on network topology and quantitative parameters – the case of phage λ [O] . Dace Ruklisa, Alvis Brazma, Karlis Cerans, 2019

机译：基因调控网络的动力学及其对网络拓扑和定量参数的依赖性-以噬菌体λ为例
7. Novel genes dramatically alter regulatory network topology in amphioxus [O] . 2008

机译：新基因显着改变文昌鱼的调节网络拓扑

Novel genes dramatically alter regulatory network topology in amphioxus

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