| Q28707996 | 'Monster… -omics': on segmentation, re-segmentation, and vertebrae formation in amphibians and other vertebrates |
| Q35617198 | A Notch feeling of somite segmentation and beyond |
| Q33825400 | A clock-work somite |
| Q28177300 | A cluster of autosomal recessive spondylocostal dysostosis caused by three newly identified DLL3 mutations segregating in a small village |
| Q24540311 | A gene for autosomal recessive spondylocostal dysostosis maps to 19q13.1-q13.3 |
| Q34475345 | A missense mutation in the bovine SLC35A3 gene, encoding a UDP-N-acetylglucosamine transporter, causes complex vertebral malformation |
| Q34173684 | A molecular clock involved in somite segmentation. |
| Q60955662 | A radiation hybrid transcript map of the mouse genome |
| Q36819707 | Abnormal vertebral segmentation and the notch signaling pathway in man. |
| Q28591406 | Acheate-scute like 1 (Ascl1) is required for normal delta-like (Dll) gene expression and notch signaling during retinal development |
| Q34394352 | Alleles at the Nicastrin locus modify presenilin 1- deficiency phenotype |
| Q38834004 | An in vitro gastrulation model recapitulates the morphogenetic impact of pharmacological inhibitors of developmental signaling pathways |
| Q51994121 | Appropriate suppression of Notch signaling by Mesp factors is essential for stripe pattern formation leading to segment boundary formation. |
| Q24630181 | CADASIL: Notch signaling defect or protein accumulation problem? |
| Q35018076 | Catching a wave: the oscillator and wavefront that create the zebrafish somite |
| Q34163616 | Characterization of the skeletal fusion with sterility (sks) mouse showing axial skeleton abnormalities caused by defects of embryonic skeletal development |
| Q52079838 | Clock and induction model for somitogenesis. |
| Q34137887 | Clock regulatory elements control cyclic expression of Lunatic fringe during somitogenesis |
| Q33287931 | Compartmentalised expression of Delta-like 1 in epithelial somites is required for the formation of intervertebral joints |
| Q33723361 | Congenital and idiopathic scoliosis: clinical and genetic aspects. |
| Q33796741 | Congenital scoliosis - Quo vadis? |
| Q40443832 | Control of her1 expression during zebrafish somitogenesis by a delta-dependent oscillator and an independent wave-front activity |
| Q42055406 | Cooperative function of deltaC and her7 in anterior segment formation |
| Q39352960 | Critical role of notch signaling in osteosarcoma invasion and metastasis |
| Q37229838 | Cyclical expression of the Notch/Wnt regulator Nrarp requires modulation by Dll3 in somitogenesis |
| Q92337697 | Delta-like 3 localizes to neuroendocrine cells and plays a pivotal role in gastrointestinal neuroendocrine malignancy |
| Q39207184 | Delta-like 3 is silenced by methylation and induces apoptosis in human hepatocellular carcinoma |
| Q36209717 | Development of intestinal M cells. |
| Q48090609 | Developmental regulation of Notch signaling genes in the embryonic pituitary: Prop1 deficiency affects Notch2 expression |
| Q48407966 | Differential display analysis of presenilin 1-deficient mouse brains |
| Q95535244 | Discussion |
| Q46486941 | Disordered vertebral and rib morphology in pudgy mice. Structural relationships to human scoliosis |
| Q36119745 | Divergent functions and distinct localization of the Notch ligands DLL1 and DLL3 in vivo |
| Q28589374 | Dll1 and Dll4 function sequentially in the retina and pV2 domain of the spinal cord to regulate neurogenesis and create cell diversity |
| Q60955575 | Dll3 andNotch1 genetic interactions model axial segmental and craniofacial malformations of human birth defects |
| Q81154349 | Dll3 is expressed in developing hair cells in the mammalian cochlea |
| Q28589511 | Dll3 pudgy mutation differentially disrupts dynamic expression of somite genes |
| Q22254193 | Dll4, a novel Notch ligand expressed in arterial endothelium |
| Q50426445 | Do as I say, Not(ch) as I do: Lateral control of cell fate. |
| Q35998774 | Drosophila, the golden bug, emerges as a tool for human genetics |
| Q28593057 | Dynamic expression and essential functions of Hes7 in somite segmentation |
| Q49150203 | Dynamic expression patterns of the pudgy/spondylocostal dysostosis gene Dll3 in the developing nervous system |
| Q33302079 | Dynamic transcription programs during ES cell differentiation towards mesoderm in serum versus serum-freeBMP4 culture |
| Q52126462 | Early mesodermal phenotypes in splotch suggest a role for Pax3 in the formation of epithelial somites. |
| Q38469448 | Efficient generation and mapping of recessive developmental mutations using ENU mutagenesis |
| Q28594673 | FGF10 signaling maintains the pancreatic progenitor cell state revealing a novel role of Notch in organ development |
| Q35101893 | Fine-tuning Notch1 activation by endocytosis and glycosylation |
| Q40862987 | Fringe differentially modulates Jagged1 and Delta1 signalling through Notch1 and Notch2. |
| Q33712532 | Fringe, Notch, and making developmental boundaries. |
| Q33906292 | Genetic disorders of the skeleton: a developmental approach |
| Q24290956 | Hes7: a bHLH-type repressor gene regulated by Notch and expressed in the presomitic mesoderm |
| Q42738593 | Identification of oscillatory genes in somitogenesis from functional genomic analysis of a human mesenchymal stem cell model |
| Q34509767 | Implication of APP secretases in notch signaling |
| Q57315074 | Interaction between Notch signalling and Lunatic fringe during somite boundary formation in the mouse |
| Q24548281 | Isolation of a murine homologue of the Drosophila neuralized gene, a gene required for axonemal integrity in spermatozoa and terminal maturation of the mammary gland |
| Q52163874 | Large-scale screen for genes controlling mammalian embryogenesis, using high-throughput gene expression analysis in mouse embryos. |
| Q28511148 | Localized and transient transcription of Hox genes suggests a link between patterning and the segmentation clock |
| Q34018444 | Mechanisms of early neural crest development: from cell specification to migration |
| Q33609457 | Mechanistic insights into folate supplementation from Crooked tail and other NTD-prone mutant mice |
| Q52166230 | Mesp2 initiates somite segmentation through the Notch signalling pathway. |
| Q28586483 | Mind bomb-2 is an E3 ligase for Notch ligand |
| Q34644122 | Models for pattern formation in somitogenesis: a marriage of cellular and molecular biology |
| Q50423780 | Molecular Regulation of Sprouting Angiogenesis |
| Q40041521 | Molecular diagnosis of vertebral segmentation disorders in humans |
| Q48382320 | Mouse Peg9/Dlk1 and human PEG9/DLK1 are paternally expressed imprinted genes closely located to the maternally expressed imprinted genes: mouse Meg3/Gtl2 and human MEG3. |
| Q24534025 | Mutated MESP2 causes spondylocostal dysostosis in humans |
| Q22253406 | Mutations in the human delta homologue, DLL3, cause axial skeletal defects in spondylocostal dysostosis |
| Q27321487 | NDR Kinases Are Essential for Somitogenesis and Cardiac Looping during Mouse Embryonic Development |
| Q37325961 | Nas transgenic mouse line allows visualization of Notch pathway activity in vivo. |
| Q32874834 | Negative feedback loop formed by Lunatic fringe and Hes7 controls their oscillatory expression during somitogenesis |
| Q43862564 | Normal brain development in PS1 hypomorphic mice with markedly reduced gamma-secretase cleavage of betaAPP. |
| Q36960089 | Notch Signaling and the Skeleton |
| Q37988987 | Notch and disease: a growing field |
| Q35101886 | Notch and lymphopoiesis: a view from the microenvironment |
| Q33627230 | Notch and the skeleton |
| Q33745098 | Notch around the clock |
| Q34154195 | Notch inhibition by the ligand DELTA-LIKE 3 defines the mechanism of abnormal vertebral segmentation in spondylocostal dysostosis. |
| Q27021132 | Notch regulation of bone development and remodeling and related skeletal disorders |
| Q78589773 | Notch signaling in lymphocyte development |
| Q35858248 | Notch signaling in mammary development and oncogenesis |
| Q35848797 | Notch signaling in skeletal health and disease |
| Q37625991 | Notch signaling in skeletal stem cells |
| Q29620377 | Notch signaling is essential for vascular morphogenesis in mice |
| Q28587727 | Notch signaling regulates left-right asymmetry determination by inducing Nodal expression |
| Q33926876 | Notch signalling and the synchronization of the somite segmentation clock |
| Q28472138 | Notch signalling synchronizes the zebrafish segmentation clock but is not needed to create somite boundaries |
| Q36742488 | Notch-dependent control of myelopoiesis is regulated by fucosylation |
| Q42515079 | Notch1 expression and ligand interactions in progenitor cells of the mouse olfactory epithelium |
| Q24677244 | Novel mutations in DLL3, a somitogenesis gene encoding a ligand for the Notch signalling pathway, cause a consistent pattern of abnormal vertebral segmentation in spondylocostal dysostosis |
| Q28545998 | O-fucosylation of DLL3 is required for its function during somitogenesis |
| Q89771836 | Overview of Basic Mechanisms of Notch Signaling in Development and Disease |
| Q48140686 | Patterning spinal nerves and vertebral bones. |
| Q48294316 | Periodic Lunatic fringe expression is controlled during segmentation by a cyclic transcriptional enhancer responsive to notch signaling. |
| Q35198324 | Periodic repression of Notch pathway genes governs the segmentation of Xenopus embryos |
| Q24677654 | Protein O -fucosyltransferase 1 is an essential component of Notch signaling pathways |
| Q52050962 | Regulation of Tbx6 expression by Notch signaling. |
| Q36382727 | Regulation of intrathymic T-cell development by Lunatic Fringe- Notch1 interactions |
| Q37308624 | Role of unusual O-glycans in intercellular signaling |
| Q34353557 | Scoliosis and segmentation defects of the vertebrae |
| Q52088996 | Segmentation anomalies of the vertebras and ribs: one expression of the primary developmental field. |
| Q28512351 | Segmentation defects of Notch pathway mutants and absence of a synergistic phenotype in lunatic fringe/radical fringe double mutant mice |
| Q33914527 | Somite formation and patterning |
| Q42629116 | Somitogenesis in the anole lizard and alligator reveals evolutionary convergence and divergence in the amniote segmentation clock. |
| Q47071945 | Spatial regulation of DELTA expression mediates NOTCH signalling for segmentation of Drosophila legs |
| Q27318039 | Stochastic Regulation of her1/7 Gene Expression Is the Source of Noise in the Zebrafish Somite Clock Counteracted by Notch Signalling |
| Q51063485 | Subversion of the T/B lineage decision in the thymus by lunatic fringe-mediated inhibition of Notch-1. |
| Q73515632 | Surface ectoderm is necessary for the morphogenesis of somites |
| Q28586354 | The T-box transcription factor Tbx18 maintains the separation of anterior and posterior somite compartments |
| Q28508398 | The association of Notch2 and NF-kappaB accelerates RANKL-induced osteoclastogenesis |
| Q28505459 | The bHLH regulator pMesogenin1 is required for maturation and segmentation of paraxial mesoderm |
| Q28584296 | The divergent DSL ligand Dll3 does not activate Notch signaling but cell autonomously attenuates signaling induced by other DSL ligands |
| Q63433298 | The generation of vertebral segmental patterning in the chick embryo |
| Q35128232 | The genetic basis for skeletal diseases |
| Q36814549 | The genetics and embryology of zebrafish metamerism |
| Q35920751 | The intracellular form of notch blocks transforming growth factor beta-mediated growth arrest in Mv1Lu epithelial cells |
| Q36488814 | The long and short of it: somite formation in mice |
| Q34443564 | The making of the somite: molecular events in vertebrate segmentation |
| Q37256458 | The many facets of Notch ligands |
| Q37888532 | The mouse notches up another success: understanding the causes of human vertebral malformation. |
| Q52166659 | The mouse rib-vertebrae mutation disrupts anterior-posterior somite patterning and genetically interacts with a Delta1 null allele. |
| Q62555277 | The mouse rib-vertebrae mutation is a hypomorphic Tbx6 allele |
| Q37028771 | The multifaceted role of Notch in cardiac development and disease |
| Q28586313 | The murine ortholog of notchless, a direct regulator of the notch pathway in Drosophila melanogaster, is essential for survival of inner cell mass cells |
| Q28591870 | The protocadherin papc is involved in the organization of the epithelium along the segmental border during mouse somitogenesis |
| Q39252349 | The role of the SPT6 chromatin remodeling factor in zebrafish embryogenesis |
| Q35853789 | The synchrony and cyclicity of developmental events |
| Q24672577 | Transcriptional oscillation of lunatic fringe is essential for somitogenesis |
| Q52181708 | Vertebrate segmentation: the clock is linked to Notch signalling. |
| Q91852566 | What are you synching about? Emerging complexity of Notch signaling in the segmentation clock |
| Q34532527 | When body segmentation goes wrong. |
| Q33826911 | Zebrafish hairy/enhancer of split protein links FGF signaling to cyclic gene expression in the periodic segmentation of somites. |
| Q47073807 | beamter/deltaC and the role of Notch ligands in the zebrafish somite segmentation, hindbrain neurogenesis and hypochord differentiation |