| P50 | author | Paul François | Q50794372 |
| P2093 | author name string | Sharon L Amacher | |
| | Emilie A Delaune | |
| | Nathan P Shih | |
| P2860 | cites work | A multi-cell, multi-scale model of vertebrate segmentation and somite formation | Q27332728 |
| | Stages of embryonic development of the zebrafish | Q27860947 |
| | Mutations affecting segment number and polarity in Drosophila | Q28273492 |
| | Notch signalling synchronizes the zebrafish segmentation clock but is not needed to create somite boundaries | Q28472138 |
| | Periodic repression by the bHLH factor Hes7 is an essential mechanism for the somite segmentation clock | Q28585491 |
| | 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 |
| | Phenotypic models of evolution and development: geometry as destiny | Q28709545 |
| | Real-time imaging of the somite segmentation clock: revelation of unstable oscillators in the individual presomitic mesoderm cells | Q30476642 |
| | Delayed coupling theory of vertebrate segmentation | Q30487939 |
| | Single-cell-resolution imaging of the impact of Notch signaling and mitosis on segmentation clock dynamics | Q30528453 |
| | Specified neural progenitors sort to form sharp domains after noisy Shh signaling. | Q30540383 |
| | Spatial gradients of protein-level time delays set the pace of the traveling segmentation clock waves | Q30617464 |
| | Setting the tempo in development: an investigation of the zebrafish somite clock mechanism | Q33286066 |
| | Oscillating gene expression determines competence for periodic Arabidopsis root branching | Q33349759 |
| | In toto imaging of embryogenesis with confocal time-lapse microscopy | Q33679344 |
| | Signaling gradients during paraxial mesoderm development | Q33687019 |
| | Notch signalling and the synchronization of the somite segmentation clock | Q33926876 |
| | 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 | Q34145324 |
| | Genetic oscillations. A Doppler effect in embryonic pattern formation | Q34428712 |
| | Noise-resistant and synchronized oscillation of the segmentation clock. | Q34535986 |
| | Intronic delay is essential for oscillatory expression in the segmentation clock | Q34602627 |
| | Deriving structure from evolution: metazoan segmentation | Q36327188 |
| | Evolutionary conservation and divergence of the segmentation process in arthropods | Q36794463 |
| | Notch signaling, the segmentation clock, and the patterning of vertebrate somites | Q37503775 |
| | Vertebrate segmentation: from cyclic gene networks to scoliosis | Q37881028 |
| | Patterning embryos with oscillations: structure, function and dynamics of the vertebrate segmentation clock | Q37978500 |
| | An anterior limit of FGF/Erk signal activity marks the earliest future somite boundary in zebrafish | Q39254816 |
| | Different types of oscillations in Notch and Fgf signaling regulate the spatiotemporal periodicity of somitogenesis | Q39532078 |
| | 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 |
| | Fgf/MAPK signalling is a crucial positional cue in somite boundary formation | Q40673345 |
| | Scaling of embryonic patterning based on phase-gradient encoding | Q44023372 |
| | Anterior and posterior waves of cyclic her1 gene expression are differentially regulated in the presomitic mesoderm of zebrafish | Q44538271 |
| | A segmentation clock with two-segment periodicity in insects | Q44630357 |
| | 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 |
| | Somites in zebrafish doubly mutant for knypek and trilobite form without internal mesenchymal cells or compaction | Q47073364 |
| | Segment number and axial identity in a segmentation clock period mutant | Q47073670 |
| | beamter/deltaC and the role of Notch ligands in the zebrafish somite segmentation, hindbrain neurogenesis and hypochord differentiation | Q47073807 |
| | Intercellular coupling regulates the period of the segmentation clock | Q47073862 |
| | Pulses of Notch activation synchronise oscillating somite cells and entrain the zebrafish segmentation clock | Q47074100 |
| | Avian hairy gene expression identifies a molecular clock linked to vertebrate segmentation and somitogenesis | Q48041941 |
| | A nomenclature for prospective somites and phases of cyclic gene expression in the presomitic mesoderm | Q48736832 |
| | Synchrony dynamics during initiation, failure, and rescue of the segmentation clock. | Q51907797 |
| | Priming, initiation and synchronization of the segmentation clock by deltaD and deltaC. | Q51989566 |
| | Autoinhibition with transcriptional delay: a simple mechanism for the zebrafish somitogenesis oscillator. | Q52010517 |
| | 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 |
| | Expression domains of a zebrafish homologue of the Drosophila pair-rule gene hairy correspond to primordia of alternating somites. | Q52200983 |
| | A β-catenin gradient links the clock and wavefront systems in mouse embryo segmentation | Q60492559 |
| | A clock and wavefront model for control of the number of repeated structures during animal morphogenesis | Q60698414 |
| | Heat shock produces periodic somitic disturbances in the zebrafish embryo | Q78026235 |
| | Dynamics of zebrafish somitogenesis | Q80673390 |
| P433 | issue | 10 | |
| P407 | language of work or name | English | Q1860 |
| P1104 | number of pages | 9 | |
| P304 | page(s) | 1785-1793 | |
| P577 | publication date | 2015-05-01 | |
| P1433 | published in | Development | Q3025404 |
| P1476 | title | Dynamics of the slowing segmentation clock reveal alternating two-segment periodicity | |
| P478 | volume | 142 | |