Characterization of the retinoic acid receptor genes raraa, rarab and rarg during zebrafish development

Retinoic acid signaling is important for patterning the central nervous system, paired appendages, digestive tract, and other organs. To begin to investigate retinoic acid signaling in zebrafish, we determined orthologies between zebrafish and tetrapod retinoic acid receptors (Rars) and examined the expression patterns of rar genes during embryonic development. Analysis of phylogenies and conserved syntenies showed that the three cloned zebrafish rar genes include raraa and rarab, which are co-orthologs of tetrapod Rara, and rarg, which is the zebrafish ortholog of tetrapod Rarg. We did not, however, find an ortholog of Rarb. RNA in situ hybridization experiments showed that rarab and rarg, are maternally expressed. Zygotic expression of raraa occurs predominantly in the hindbrain, lateral mesoderm, and tailbud. Zygotic expression of rarab largely overlaps that of raraa, except that in later stages rarab is expressed more broadly in the brain and in the pectoral fin bud and pharyngeal arches. Zygotic expression of zebrafish rarg also overlaps the other two genes, but it is expressed more strongly in the posterior hindbrain beginning in late somitogenesis as well as in neural crest cells in the pharyngeal arches. Thus, these three genes have largely overlapping expression patterns and a few gene-specific expression domains. Knowledge of these expression patterns will guide the interpretation of the roles these genes play in development.     

热带爪蟾bHLH转录因子鉴定与进化分析

爪蟾是重要的生物医学模式动物。文章根据NCBI公布的热带爪蟾(Xenopus tropicalis)基因组数据,利用生物信息学方法提取和鉴定了爪蟾全基因组范围的碱性螺旋-环-螺旋(bHLH)基因信息,应用系统发生方法进行分类并做基因本体论(Gene Ontology,GO)功能富集分布分析,以期从整体上探讨爪蟾bHLH转录因子基因家族的分类及功能。结果表明,在热带爪蟾基因组数据库中发现了70个bHLH转录因子,其中69个可以分别归到6大组(A~F)的34个亚家族中,另一个为"孤儿因子"(Orphan)基因。GO富集分布统计发现有51个显著富集分布的GO注释语句,其中转录调控活性、转录调控、DNA结合、RNA代谢过程调控、DNA依赖的转录调控、转录和转录因子活性等出现频率很高,表明这些GO术语是爪蟾bHLH基因最常见的功能;许多bHLH转录因子在一些重要的发育或生理过程中发挥调控作用,如肌肉组织和器官(横纹肌、骨骼肌、眼部和咽部肌肉)的分化和发育、消化系统发育、咽部和感觉器官的发育、碱基和核苷及核酸的代谢调控、生物合成过程调控、DNA结合和蛋白质异聚化活性等。另外,还有一些重要信号通路(Signaling pathway)的GO术语显著地富集。文章还对Hes转录因子家族做了进化分析。这些结果为热带爪蟾bHLH基因的进一步研究打下了很好的基础。     

Slitrk6 expression profile in the mouse embryo and its relationship to that of Nlrr3

Slitrk6 is a member of the Slitrk family of proteins, which are integral membrane proteins possessing two leucine-rich repeat (LRR) domains and a carboxy-terminal domain partially similar to that in the trk neurotrophin receptor proteins. Here, I show that Slitrk6 is uniquely expressed in various organs, different from other Slitrk genes which are predominantly expressed in neural tissues. In the developing mouse embryo, Slitrk6 expression was detected in the otic cyst, lateral trunk epidermis and its underlying mesenchymal tissue, limb bud, maxillary process, pharyngeal arches, cochlea, retina, tongue, tooth primordium, central nervous system (CNS), and the visceral organ primordia including of the lung, gastrointestinal tract (particularly in the enteric neurons) and pancreas. The expression in these organs occurred in a spatially restricted manner. In the CNS, the expression was highly compartmentalized in the dorsal thalamus, cerebellum and medulla. The expression compartment in the thalamus in which Slitrk6 was expressed was closely related to the Gbx2-expressing prosomere 2. Interestingly, the Slitrk6 expression in the CNS, cochlea, tongue, tooth primordial, and other organs was partially complementary to the expression of Nlrr3, which belongs to another family of neuronal LRR-containing transmembrane proteins. The complementary expression of the two proteins in the dorsal thalamus persisted from E13.5 to the adult stage.