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Dynamic Expression and Functional Implications of the Cell Polarity Gene, Dchs1, During Cardiac Development. [PDF]
CellsByerly K +15 more
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Neuropilin 1 (NRP1) conveys SEMA3A signals to restrict physiological angiogenesis
Spreafico M +11 more
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Journal of Computational Biology, 2020
We build a theoretical model of morphogenesis. This model describes cell fate in the developing organism using the notion of epigenetic code of each cell. Namely, given the epigenetic spectra of a cell and its neighboring cells, we can determine the corresponding cell event it will perform. This means that the properties of a group of cells (comprising
Yue Wang +7 more
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We build a theoretical model of morphogenesis. This model describes cell fate in the developing organism using the notion of epigenetic code of each cell. Namely, given the epigenetic spectra of a cell and its neighboring cells, we can determine the corresponding cell event it will perform. This means that the properties of a group of cells (comprising
Yue Wang +7 more
openaire +3 more sources
Frontiers in Bioscience, 2008
Embryonic development is one of the most complex biological phenomena that involves the appropriate expression and synchronized interactions of a plethora of proteins, including cell adhesion molecules (CAMs). Many members of the diverse family of CAMs have been shown to be critically involved in the correct execution of embryonic development.
Edwin Bremer +4 more
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Embryonic development is one of the most complex biological phenomena that involves the appropriate expression and synchronized interactions of a plethora of proteins, including cell adhesion molecules (CAMs). Many members of the diverse family of CAMs have been shown to be critically involved in the correct execution of embryonic development.
Edwin Bremer +4 more
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Medical Hypotheses, 1988
The development of consistent asymmetry in the human, with respect to both internal and external structures, is not the result of forces internal to the organism, but results from the organism's response to three major external forces: gravity, magnetism, and the Earth's rotation.
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The development of consistent asymmetry in the human, with respect to both internal and external structures, is not the result of forces internal to the organism, but results from the organism's response to three major external forces: gravity, magnetism, and the Earth's rotation.
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Journal of Internal Medicine, 1997
Toole BP (Tufts University School of Medicine, Boston, MA, USA). Hyaluronan in morphogenesis (Minisymposium: Hyaluronan). J Intern Med 1997; 242: 35–40.Pericellular matrices surrounding migrating and proliferating cells in the developing embryo, in regenerating tissues and in other dynamic cellular events, such as tumour cell invasion, are enriched in ...
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Toole BP (Tufts University School of Medicine, Boston, MA, USA). Hyaluronan in morphogenesis (Minisymposium: Hyaluronan). J Intern Med 1997; 242: 35–40.Pericellular matrices surrounding migrating and proliferating cells in the developing embryo, in regenerating tissues and in other dynamic cellular events, such as tumour cell invasion, are enriched in ...
openaire +4 more sources
The morphogenesis of hydranencephaly
Journal of the Neurological Sciences, 1971Abstract Hydranencephaly may result from any of a variety of destructive or developmental abnormalities which may act to produce the defect at any time from the end of the 3rd month of gestation to the 2nd year of postnatal life. They have in common the effect of markedly reducing the total mass of cerebral tissue.
J.H. Halsey, H.R. Chamberlin, N. Allen
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Birth Defects Research Part C: Embryo Today: Reviews, 2004
AbstractIn the past decade, there has been an explosion of interest in hyaluronan, an often misunderstood, biochemically simple, yet functionally complex carbohydrate polymer that is a resident of many extracellular matrices. Previously thought of as a passive, space‐filling component of the extracellular matrix, the so‐called “goo” concept, hyaluronan
Andrew P. Spicer, Janet Y.L. Tien
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AbstractIn the past decade, there has been an explosion of interest in hyaluronan, an often misunderstood, biochemically simple, yet functionally complex carbohydrate polymer that is a resident of many extracellular matrices. Previously thought of as a passive, space‐filling component of the extracellular matrix, the so‐called “goo” concept, hyaluronan
Andrew P. Spicer, Janet Y.L. Tien
openaire +3 more sources