Romand Raymond, Ripp Raymond, Poidevin Laetitia, Boeglin Marcel, Geffers Lars, Dollé Pascal, Poch Olivier
Developmental Biology and Stem Cells Department, Institut de Génétique et de Biologie Moléculaire et Cellulaire (CNRS, INSERM, Université de Strasbourg), BP163, 67404 Illkirch Cedex, France.
Developmental Biology and Stem Cells Department, Institut de Génétique et de Biologie Moléculaire et Cellulaire (CNRS, INSERM, Université de Strasbourg), BP163, 67404 Illkirch Cedex, France; LBGI Bioinformatique et Génomique Intégratives, ICube Laboratory and Strasbourg Federation of Translational Medecine (FMTS), University of Strasbourg and CNRS, Strasbourg, France.
PLoS One. 2015 Feb 23;10(2):e0118024. doi: 10.1371/journal.pone.0118024. eCollection 2015.
An in situ hybridization (ISH) study was performed on 2000 murine genes representing around 10% of the protein-coding genes present in the mouse genome using data generated by the EURExpress consortium. This study was carried out in 25 tissues of late gestation embryos (E14.5), with a special emphasis on the developing ear and on five distinct developing sensory organs, including the cochlea, the vestibular receptors, the sensory retina, the olfactory organ, and the vibrissae follicles. The results obtained from an analysis of more than 11,000 micrographs have been integrated in a newly developed knowledgebase, called ImAnno. In addition to managing the multilevel micrograph annotations performed by human experts, ImAnno provides public access to various integrated databases and tools. Thus, it facilitates the analysis of complex ISH gene expression patterns, as well as functional annotation and interaction of gene sets. It also provides direct links to human pathways and diseases. Hierarchical clustering of expression patterns in the 25 tissues revealed three main branches corresponding to tissues with common functions and/or embryonic origins. To illustrate the integrative power of ImAnno, we explored the expression, function and disease traits of the sensory epithelia of the five presumptive sensory organs. The study identified 623 genes (out of 2000) concomitantly expressed in the five embryonic epithelia, among which many (∼12%) were involved in human disorders. Finally, various multilevel interaction networks were characterized, highlighting differential functional enrichments of directly or indirectly interacting genes. These analyses exemplify an under-represention of "sensory" functions in the sensory gene set suggests that E14.5 is a pivotal stage between the developmental stage and the functional phase that will be fully reached only after birth.
利用EURExpress联盟生成的数据,对代表小鼠基因组中约10%蛋白质编码基因的2000个小鼠基因进行了原位杂交(ISH)研究。这项研究在妊娠晚期胚胎(E14.5)的25个组织中进行,特别关注发育中的耳朵以及五个不同的发育中的感觉器官,包括耳蜗、前庭感受器、感觉视网膜、嗅觉器官和触须毛囊。对11000多张显微照片分析得到的结果已整合到一个新开发的知识库ImAnno中。除了管理人类专家进行的多层次显微照片注释外,ImAnno还提供对各种集成数据库和工具的公共访问。因此,它有助于分析复杂的ISH基因表达模式,以及基因集的功能注释和相互作用。它还提供与人类通路和疾病的直接链接。25个组织中表达模式的层次聚类揭示了三个主要分支,对应于具有共同功能和/或胚胎起源的组织。为了说明ImAnno的整合能力,我们探索了五个假定感觉器官的感觉上皮的表达、功能和疾病特征。该研究在五个胚胎上皮中同时鉴定出623个(共2000个)基因,其中许多(约12%)与人类疾病有关。最后,对各种多层次相互作用网络进行了表征,突出了直接或间接相互作用基因的不同功能富集。这些分析表明,感觉基因集中“感觉”功能的代表性不足,这表明E14.5是发育阶段和功能阶段之间的关键阶段,而功能阶段只有在出生后才能完全达到。
