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Vital dye mapping of the gastrula and neurula of Xenopus laevis. II. Prospective areas and morphogenetic movements of the deep layer.
Keller RE. Keller RE. Dev Biol. 1976 Jul 1;51(1):118-37. doi: 10.1016/0012-1606(76)90127-5. Dev Biol. 1976. PMID: 950072 No abstract available.
Cell segregation, mixing, and tissue pattern in the spinal cord of the Xenopus laevis neurula.
Edlund AF, Davidson LA, Keller RE. Edlund AF, et al. Among authors: keller re. Dev Dyn. 2013 Oct;242(10):1134-46. doi: 10.1002/dvdy.24004. Epub 2013 Aug 5. Dev Dyn. 2013. PMID: 23813905 Free PMC article.
Fibronectin, mesoderm migration, and gastrulation in Xenopus.
Winklbauer R, Keller RE. Winklbauer R, et al. Among authors: keller re. Dev Biol. 1996 Aug 1;177(2):413-26. doi: 10.1006/dbio.1996.0174. Dev Biol. 1996. PMID: 8806820 Free article.
Vital dye mapping of the gastrula and neurula of Xenopus laevis. I. Prospective areas and morphogenetic movements of the superficial layer.
Keller RE. Keller RE. Dev Biol. 1975 Feb;42(2):222-41. doi: 10.1016/0012-1606(75)90331-0. Dev Biol. 1975. PMID: 46836 No abstract available.
Dorsal mesoderm has a dual origin and forms by a novel mechanism in Hymenochirus, a relative of Xenopus.
Minsuk SB, Keller RE. Minsuk SB, et al. Among authors: keller re. Dev Biol. 1996 Feb 25;174(1):92-103. doi: 10.1006/dbio.1996.0054. Dev Biol. 1996. PMID: 8626024
Monopolar protrusive activity: a new morphogenic cell behavior in the neural plate dependent on vertical interactions with the mesoderm in Xenopus.
Elul T, Keller R. Elul T, et al. Among authors: keller r. Dev Biol. 2000 Aug 1;224(1):3-19. doi: 10.1006/dbio.2000.9746. Dev Biol. 2000. PMID: 10898957
Cells remain competent to respond to mesoderm-inducing signals present during gastrulation in Xenopus laevis.
Domingo C, Keller R. Domingo C, et al. Among authors: keller r. Dev Biol. 2000 Sep 1;225(1):226-40. doi: 10.1006/dbio.2000.9769. Dev Biol. 2000. PMID: 10964477
The effects of aphidicolin on morphogenesis and differentiation in the sea urchin embryo.
Stephens L, Hardin J, Keller R, Wilt F. Stephens L, et al. Among authors: keller r. Dev Biol. 1986 Nov;118(1):64-9. doi: 10.1016/0012-1606(86)90073-4. Dev Biol. 1986. PMID: 3095164
Cellular mechanism underlying neural convergent extension in Xenopus laevis embryos.
Elul T, Koehl MA, Keller R. Elul T, et al. Among authors: keller r. Dev Biol. 1997 Nov 15;191(2):243-58. doi: 10.1006/dbio.1997.8711. Dev Biol. 1997. PMID: 9398438
Epithelial cell wedging and neural trough formation are induced planarly in Xenopus, without persistent vertical interactions with mesoderm.
Poznanski A, Minsuk S, Stathopoulos D, Keller R. Poznanski A, et al. Among authors: keller r. Dev Biol. 1997 Sep 15;189(2):256-69. doi: 10.1006/dbio.1997.8678. Dev Biol. 1997. PMID: 9299118
Keller et al. , 1992, Dev. Dyn. 193, 218-234). These processes include: (1) cell elongation perpendicular to the plane of the epithelium, forming the neural plate; (2) cell wedging, which rolls the neural plate into a trough; (3) intercalation of two layers of neural plate
Keller et al. , 1992, Dev. Dyn. 193, 218-234). These processes include: (1) cell elongation perpendicular to the plane of the epithel
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