| scholarly article | Q13442814 |
| P50 | author | Hiromi Hirata | Q90316635 |
| P2093 | author name string | Ryoichiro Kageyama | |
| Yasumasa Bessho | |||
| Yoshito Masamizu | |||
| P2860 | cites work | Hes7: a bHLH-type repressor gene regulated by Notch and expressed in the presomitic mesoderm | Q24290956 |
| Progression of the cell cycle through mitosis leads to abortion of nascent transcripts | Q24642939 | ||
| Transcriptional oscillation of lunatic fringe is essential for somitogenesis | Q24672577 | ||
| Vertebrate somitogenesis | Q28202951 | ||
| Oscillatory expression of the bHLH factor Hes1 regulated by a negative feedback loop | Q28210742 | ||
| Axial skeletal defects caused by mutation in the spondylocostal dysplasia/pudgy gene Dll3 are associated with disruption of the segmentation clock within the presomitic mesoderm | Q28211424 | ||
| Oscillating expression of c-Hey2 in the presomitic mesoderm suggests that the segmentation clock may use combinatorial signaling through multiple interacting bHLH factors | Q28510928 | ||
| Wnt3a plays a major role in the segmentation clock controlling somitogenesis | Q28587356 | ||
| Mammalian achaete-scute and atonal homologs regulate neuronal versus glial fate determination in the central nervous system | Q28591759 | ||
| Dynamic expression and essential functions of Hes7 in somite segmentation | Q28593057 | ||
| Notch signalling is required for cyclic expression of the hairy-like gene HES1 in the presomitic mesoderm | Q28594325 | ||
| Cofactor dynamics and sufficiency in estrogen receptor-regulated transcription | Q29547846 | ||
| A clock-work somite | Q33825400 | ||
| Notch signalling and the synchronization of the somite segmentation clock | Q33926876 | ||
| Clock regulatory elements control cyclic expression of Lunatic fringe during somitogenesis | Q34137887 | ||
| The making of the somite: molecular events in vertebrate segmentation | Q34443564 | ||
| Two linked hairy/Enhancer of split-related zebrafish genes, her1 and her7, function together to refine alternating somite boundaries. | Q39608214 | ||
| Control of her1 expression during zebrafish somitogenesis by a delta-dependent oscillator and an independent wave-front activity | Q40443832 | ||
| A gene that resuscitates a theory--somitogenesis and a molecular oscillator | Q41737710 | ||
| her1 and the notch pathway function within the oscillator mechanism that regulates zebrafish somitogenesis | Q43903112 | ||
| Zebrafish Mesp family genes, mesp-a and mesp-b are segmentally expressed in the presomitic mesoderm, and Mesp-b confers the anterior identity to the developing somites. | Q47073326 | ||
| lunatic fringe is an essential mediator of somite segmentation and patterning | Q47741550 | ||
| Defects in somite formation in lunatic fringe-deficient mice | Q47741558 | ||
| Avian hairy gene expression identifies a molecular clock linked to vertebrate segmentation and somitogenesis | Q48041941 | ||
| Periodic Lunatic fringe expression is controlled during segmentation by a cyclic transcriptional enhancer responsive to notch signaling. | Q48294316 | ||
| A nomenclature for prospective somites and phases of cyclic gene expression in the presomitic mesoderm | Q48736832 | ||
| Periodic notch inhibition by lunatic fringe underlies the chick segmentation clock. | Q52110194 | ||
| Hairy/E(spl)-related (Her) genes are central components of the segmentation oscillator and display redundancy with the Delta/Notch signaling pathway in the formation of anterior segmental boundaries in the zebrafish. | Q52118960 | ||
| Dynamic expression of lunatic fringe suggests a link between notch signaling and an autonomous cellular oscillator driving somite segmentation. | Q52179113 | ||
| The lunatic fringe gene is a target of the molecular clock linked to somite segmentation in avian embryos. | Q52184463 | ||
| Waves of mouse Lunatic fringe expression, in four-hour cycles at two-hour intervals, precede somite boundary formation. | Q52184506 | ||
| P433 | issue | 12 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Hes family bHLH transcription factor 7 | Q21495819 |
| Notch 1 | Q21986193 | ||
| P304 | page(s) | 1451–1456 | |
| P577 | publication date | 2003-06-15 | |
| P1433 | published in | Genes & Development | Q1524533 |
| P1476 | title | Periodic repression by the bHLH factor Hes7 is an essential mechanism for the somite segmentation clock | |
| P478 | volume | 17 |
| Q44096560 | 3'-UTR-dependent regulation of mRNA turnover is critical for differential distribution patterns of cyclic gene mRNAs. |
| Q35617198 | A Notch feeling of somite segmentation and beyond |
| Q36146536 | A balance of positive and negative regulators determines the pace of the segmentation clock |
| Q37902096 | A fluorescence spotlight on the clockwork development and metabolism of bone. |
| Q35679141 | A new mib allele with a chromosomal deletion covering foxc1a exhibits anterior somite specification defect |
| Q92957605 | An In Vitro Human Segmentation Clock Model Derived from Embryonic Stem Cells |
| Q28587304 | Analysis of Ripply1/2-deficient mouse embryos reveals a mechanism underlying the rostro-caudal patterning within a somite |
| Q34314148 | Analysis of her1 and her7 mutants reveals a spatio temporal separation of the somite clock module |
| Q51994121 | Appropriate suppression of Notch signaling by Mesp factors is essential for stripe pattern formation leading to segment boundary formation. |
| Q52010517 | Autoinhibition with transcriptional delay: a simple mechanism for the zebrafish somitogenesis oscillator. |
| Q37141071 | Building the spine: the vertebrate segmentation clock. |
| Q35058303 | Canine disorder mirrors human disease: exonic deletion in HES7 causes autosomal recessive spondylocostal dysostosis in miniature Schnauzer dogs. |
| Q33290478 | Chick Hairy1 protein interacts with Sap18, a component of the Sin3/HDAC transcriptional repressor complex. |
| Q35265333 | Circadian genes, xBmal1 and xNocturnin, modulate the timing and differentiation of somites in Xenopus laevis |
| Q35943690 | Clock genes in cell clocks: roles, actions, and mysteries |
| Q48796148 | Cloning, characterization and promoter analysis of common carp hairy/Enhancer-of-split-related gene, her6. |
| Q52023087 | Comparative analysis of her genes during fish somitogenesis suggests a mouse/chick-like mode of oscillation in medaka. |
| Q47128143 | Comparative cell cycle transcriptomics reveals synchronization of developmental transcription factor networks in cancer cells |
| Q40245530 | Completing the set of h/E(spl) cyclic genes in zebrafish: her12 and her15 reveal novel modes of expression and contribute to the segmentation clock. |
| Q31053995 | Complex dynamics of transcription regulation |
| Q27322328 | Control of Hes7 expression by Tbx6, the Wnt pathway and the chemical Gsk3 inhibitor LiCl in the mouse segmentation clock |
| Q34568331 | Cooperative Mesp activity is required for normal somitogenesis along the anterior-posterior axis |
| Q42055406 | Cooperative function of deltaC and her7 in anterior segment formation |
| Q47073624 | Coordination of symmetric cyclic gene expression during somitogenesis by Suppressor of Hairless involves regulation of retinoic acid catabolism |
| Q36786579 | Coupling cellular oscillators: a mechanism that maintains synchrony against developmental noise in the segmentation clock |
| Q37592411 | Cyclic Nrarp mRNA expression is regulated by the somitic oscillator but Nrarp protein levels do not oscillate. |
| Q36792682 | Deciphering the somite segmentation clock: beyond mutants and morphants |
| Q43941194 | Delay-managed tradeoff in the molecular dynamics of the segmentation clock |
| Q28069407 | Delta-Notch signalling in segmentation |
| Q39532078 | Different types of oscillations in Notch and Fgf signaling regulate the spatiotemporal periodicity of somitogenesis |
| Q30945648 | Differential axial requirements for lunatic fringe and Hes7 transcription during mouse somitogenesis |
| Q98184223 | Dynamical gene regulatory networks are tuned by transcriptional autoregulation with microRNA feedback |
| Q35635073 | Dynamics of the slowing segmentation clock reveal alternating two-segment periodicity. |
| Q50043698 | ES cell-derived presomitic mesoderm-like tissues for analysis of synchronized oscillations in the segmentation clock |
| Q51986088 | Editorial on segmentation focus. |
| Q34190763 | Evolutionary plasticity of segmentation clock networks. |
| Q38018288 | Experiments, measurements, and mathematical modeling to decipher time signals in development |
| Q34145324 | Expression of the oscillating gene her1 is directly regulated by Hairy/Enhancer of Split, T-box, and Suppressor of Hairless proteins in the zebrafish segmentation clock |
| Q27321015 | Fast synchronization of ultradian oscillators controlled by delta-notch signaling with cis-inhibition |
| Q28651646 | From dinosaurs to birds: a tail of evolution |
| Q21090160 | From dynamic expression patterns to boundary formation in the presomitic mesoderm |
| Q33346156 | From signals to patterns: space, time, and mathematics in developmental biology |
| Q37288471 | Genetic aspects of congenital and idiopathic scoliosis |
| Q36318161 | Genetic association analysis between polymorphisms of HAIRY-AND-ENHANCER-OF SPLIT-7 and congenital scoliosis |
| Q34234902 | Hes7 3'UTR is required for somite segmentation function |
| Q60046998 | Hybrids Provide Insight Into Cell and Organism Size Control |
| Q42738593 | Identification of oscillatory genes in somitogenesis from functional genomic analysis of a human mesenchymal stem cell model |
| Q28505422 | Instability of Hes7 protein is crucial for the somite segmentation clock |
| Q37201732 | Interfering with Wnt signalling alters the periodicity of the segmentation clock. |
| Q34602627 | Intronic delay is essential for oscillatory expression in the segmentation clock |
| Q27315061 | Jagged2a-notch signaling mediates cell fate choice in the zebrafish pronephric duct |
| Q28510335 | Lfng regulates the synchronized oscillation of the mouse segmentation clock via trans-repression of Notch signalling |
| Q26865201 | Life rhythm as a symphony of oscillatory patterns: electromagnetic energy and sound vibration modulates gene expression for biological signaling and healing |
| Q33779631 | Modeling the zebrafish segmentation clock's gene regulatory network constrained by expression data suggests evolutionary transitions between oscillating and nonoscillating transcription |
| Q35238701 | Modelling coupled oscillations in the Notch, Wnt, and FGF signaling pathways during somitogenesis: a comprehensive mathematical model |
| Q51975063 | Mouse Ripply2 is downstream of Wnt3a and is dynamically expressed during somitogenesis. |
| Q32874834 | Negative feedback loop formed by Lunatic fringe and Hes7 controls their oscillatory expression during somitogenesis |
| Q34535986 | Noise-resistant and synchronized oscillation of the segmentation clock. |
| Q34809773 | Noncyclic Notch activity in the presomitic mesoderm demonstrates uncoupling of somite compartmentalization and boundary formation |
| Q28590793 | Notch is a critical component of the mouse somitogenesis oscillator and is essential for the formation of the somites |
| Q37503775 | Notch signaling, the segmentation clock, and the patterning of vertebrate somites |
| Q41964871 | Notch signalling regulates the contribution of progenitor cells from the chick Hensen's node to the floor plate and notochord. |
| Q25255507 | Number of active transcription factor binding sites is essential for the Hes7 oscillator |
| Q36762222 | Oscillator mechanism of Notch pathway in the segmentation clock |
| Q27322653 | Oscillatory control of Delta-like1 in cell interactions regulates dynamic gene expression and tissue morphogenesis. |
| Q38116917 | Oscillatory gene expression and somitogenesis. |
| Q38770518 | PAPC couples the segmentation clock to somite morphogenesis by regulating N-cadherin-dependent adhesion |
| Q24563952 | Papillomavirus-mediated neoplastic progression is associated with reciprocal changes in JAGGED1 and manic fringe expression linked to notch activation |
| Q46713018 | Pnrc2 regulates 3'UTR-mediated decay of segmentation clock-associated transcripts during zebrafish segmentation |
| Q40286298 | Posterior-anterior gradient of zebrafish hes6 expression in the presomitic mesoderm is established by the combinatorial functions of the downstream enhancer and 3'UTR. |
| Q42579695 | Practical lessons from theoretical models about the somitogenesis |
| Q89081045 | Presomitic mesoderm-specific expression of the transcriptional repressor Hes7 is controlled by E-box, T-box, and Notch signaling pathways |
| Q51989566 | Priming, initiation and synchronization of the segmentation clock by deltaD and deltaC. |
| Q37636813 | Progress and perspective of TBX6 gene in congenital vertebral malformations |
| Q91562404 | Pumilio response and AU-rich elements drive rapid decay of Pnrc2-regulated cyclic gene transcripts |
| Q30476642 | Real-time imaging of the somite segmentation clock: revelation of unstable oscillators in the individual presomitic mesoderm cells |
| Q36382727 | Regulation of intrathymic T-cell development by Lunatic Fringe- Notch1 interactions |
| Q34585462 | Roles of O-fucose glycans in notch signaling revealed by mutant mice. |
| Q34353557 | Scoliosis and segmentation defects of the vertebrae |
| Q50603451 | Segmental border is defined by Ripply2-mediated Tbx6 repression independent of Mesp2. |
| Q36774083 | Segmental border is defined by the key transcription factor Mesp2, by means of the suppression of Notch activity |
| Q34770048 | Segmental patterning of the vertebrate embryonic axis |
| Q33286066 | Setting the tempo in development: an investigation of the zebrafish somite clock mechanism |
| Q38261780 | Signalling dynamics in vertebrate segmentation |
| Q30528453 | Single-cell-resolution imaging of the impact of Notch signaling and mitosis on segmentation clock dynamics |
| Q28269656 | Somitogenesis |
| Q35550763 | Somitogenesis: breaking new boundaries. |
| Q42174470 | Sprouty4, an FGF inhibitor, displays cyclic gene expression under the control of the notch segmentation clock in the mouse PSM. |
| Q27318039 | Stochastic Regulation of her1/7 Gene Expression Is the Source of Noise in the Zebrafish Somite Clock Counteracted by Notch Signalling |
| Q50473575 | Supt20 is required for development of the axial skeleton. |
| Q34574452 | Tbx6-mediated Notch signaling controls somite-specific Mesp2 expression |
| Q35741905 | The Her7 node modulates the network topology of the zebrafish segmentation clock via sequestration of the Hes6 hub. |
| Q28505901 | The Mesp2 transcription factor establishes segmental borders by suppressing Notch activity |
| Q47820612 | The TAF10-containing TFIID and SAGA transcriptional complexes are dispensable for early somitogenesis in the mouse embryo. |
| Q28511944 | The Wnt3a/β-catenin target gene Mesogenin1 controls the segmentation clock by activating a Notch signalling program |
| Q47074205 | The characterization of zebrafish antimorphic mib alleles reveals that Mib and Mind bomb-2 (Mib2) function redundantly |
| Q36488814 | The long and short of it: somite formation in mice |
| Q28506772 | The period of the somite segmentation clock is sensitive to Notch activity |
| Q43010260 | The precise timeline of transcriptional regulation reveals causation in mouse somitogenesis network |
| Q37781196 | The segmentation clock mechanism moves up a notch. |
| Q35853789 | The synchrony and cyclicity of developmental events |
| Q50010676 | Timing of neuronal plasticity in development and aging |
| Q28481517 | Topology and dynamics of the zebrafish segmentation clock core circuit |
| Q37319464 | Transcript processing and export kinetics are rate-limiting steps in expressing vertebrate segmentation clock genes. |
| Q35513267 | Travelling and splitting of a wave of hedgehog expression involved in spider-head segmentation |
| Q33364683 | Turn It Down a Notch |
| Q34329197 | Two novel missense mutations in HAIRY-AND-ENHANCER-OF-SPLIT-7 in a family with spondylocostal dysostosis |
| Q37785200 | Ultradian Oscillations in Notch Signaling Regulate Dynamic Biological Events |
| Q34341432 | Ultradian oscillations and pulses: coordinating cellular responses and cell fate decisions |
| Q37141076 | Ultradian oscillators in somite segmentation and other biological events |
| Q98394731 | Understanding paraxial mesoderm development and sclerotome specification for skeletal repair |
| Q41492486 | Unraveling the nature of the segmentation clock: Intrinsic disorder of clock proteins and their interaction map. |
| Q37881028 | Vertebrate segmentation: from cyclic gene networks to scoliosis |
| Q91852566 | What are you synching about? Emerging complexity of Notch signaling in the segmentation clock |
| Q34538497 | Whole Genome Sequencing Identifies a Missense Mutation in HES7 Associated with Short Tails in Asian Domestic Cats |
| Q38349987 | Xenopus Rnd1 and Rnd3 GTP-binding proteins are expressed under the control of segmentation clock and required for somite formation |
| 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 |
| Q45017372 | her11 is involved in the somitogenesis clock in zebrafish |
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