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Publication DateCell Stem Cell, ISSN 1934-5909, 2008, Volume 2, Issue 1, pp. 60 - 71
The embryonic stem cell differentiation system was used to define the roles of the Activin/Nodal, BMP, and canonical Wnt signaling pathways at three distinct...
STEMCELL | NODAL-RELATED SIGNALS | GASTRULATION | PRIMITIVE STREAK | EXPRESSION DEFINES | DEFINITIVE HEMATOPOIESIS | MESODERM | BONE MORPHOGENETIC PROTEIN | YOLK-SAC | MOUSE EMBRYOS | RECEPTOR | CELL BIOLOGY | Embryonic Stem Cells - cytology | Signal Transduction | Activins - physiology | Bone Morphogenetic Protein 4 - physiology | Embryonic Induction | Primitive Streak - cytology | Embryonic Stem Cells - physiology | Cell Lineage | Animals | Gene Expression Regulation, Developmental | Hematopoiesis | Hematopoietic Stem Cells - cytology | Primitive Streak - physiology | Hematopoietic Stem Cells - physiology | Cell Differentiation | Mice | Wnt Proteins - physiology
STEMCELL | NODAL-RELATED SIGNALS | GASTRULATION | PRIMITIVE STREAK | EXPRESSION DEFINES | DEFINITIVE HEMATOPOIESIS | MESODERM | BONE MORPHOGENETIC PROTEIN | YOLK-SAC | MOUSE EMBRYOS | RECEPTOR | CELL BIOLOGY | Embryonic Stem Cells - cytology | Signal Transduction | Activins - physiology | Bone Morphogenetic Protein 4 - physiology | Embryonic Induction | Primitive Streak - cytology | Embryonic Stem Cells - physiology | Cell Lineage | Animals | Gene Expression Regulation, Developmental | Hematopoiesis | Hematopoietic Stem Cells - cytology | Primitive Streak - physiology | Hematopoietic Stem Cells - physiology | Cell Differentiation | Mice | Wnt Proteins - physiology
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Loading RightsDevelopmental Dynamics, ISSN 1058-8388, 02/2012, Volume 241, Issue 2, pp. 270 - 283
Background: During gastrulation, an embryo acquires the three primordial germ layers that will give rise to all of the tissues in the body. In amniote embryos,...
mouse embryo | epithelial to mesenchymal transition | morphogenesis | primitive streak | gastrulation | Epithelial to mesenchymal transition | Morphogenesis | Primitive streak | Gastrulation | Mouse embryo | PROGENITOR CELLS | GASTRULATING RABBIT EMBRYO | NEURAL-TUBE DEFECTS | ANATOMY & MORPHOLOGY | CADHERIN EXPRESSION | DEVELOPMENTAL BIOLOGY | MESODERM DIFFERENTIATION | AVIAN GASTRULATION | EPIBLAST CELLS | MOVEMENT PATTERNS | ANTERIOR VISCERAL ENDODERM | CLONAL ANALYSIS | Animals | Signal Transduction | Primitive Streak - physiology | Epithelial-Mesenchymal Transition | Primitive Streak - cytology | Mice | Germ Layers - cytology | Mice, Inbred Strains | Cell Movement | Germ Layers - physiology | Immunohistochemistry | Research | Oncology, Experimental | Stem cells | Cancer
mouse embryo | epithelial to mesenchymal transition | morphogenesis | primitive streak | gastrulation | Epithelial to mesenchymal transition | Morphogenesis | Primitive streak | Gastrulation | Mouse embryo | PROGENITOR CELLS | GASTRULATING RABBIT EMBRYO | NEURAL-TUBE DEFECTS | ANATOMY & MORPHOLOGY | CADHERIN EXPRESSION | DEVELOPMENTAL BIOLOGY | MESODERM DIFFERENTIATION | AVIAN GASTRULATION | EPIBLAST CELLS | MOVEMENT PATTERNS | ANTERIOR VISCERAL ENDODERM | CLONAL ANALYSIS | Animals | Signal Transduction | Primitive Streak - physiology | Epithelial-Mesenchymal Transition | Primitive Streak - cytology | Mice | Germ Layers - cytology | Mice, Inbred Strains | Cell Movement | Germ Layers - physiology | Immunohistochemistry | Research | Oncology, Experimental | Stem cells | Cancer
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Loading RightsDevelopmental Biology, ISSN 0012-1606, 07/2018, Volume 439, Issue 1, pp. 30 - 41
During vertebrate development, progenitor cells give rise to tissues and organs through a complex choreography that commences at gastrulation. A hallmark event...
GASTRULATION | WHOLE-MOUNT | MESODERM | EMBRYO | RNA-SEQ | HYPOBLAST | NEURAL INDUCTION | SPATIOTEMPORAL ANALYSIS | DEVELOPMENTAL BIOLOGY | DYNAMIC EXPRESSION | EMBRYOGENESIS | Animals | Gastrulation - genetics | Single-Cell Analysis - methods | Chickens | Primitive Streak - embryology | Primitive Streak - physiology | Gene Expression Regulation, Developmental - genetics | Gene Expression Profiling - methods | Spatio-Temporal Analysis | Transcriptome - genetics | Chick Embryo
GASTRULATION | WHOLE-MOUNT | MESODERM | EMBRYO | RNA-SEQ | HYPOBLAST | NEURAL INDUCTION | SPATIOTEMPORAL ANALYSIS | DEVELOPMENTAL BIOLOGY | DYNAMIC EXPRESSION | EMBRYOGENESIS | Animals | Gastrulation - genetics | Single-Cell Analysis - methods | Chickens | Primitive Streak - embryology | Primitive Streak - physiology | Gene Expression Regulation, Developmental - genetics | Gene Expression Profiling - methods | Spatio-Temporal Analysis | Transcriptome - genetics | Chick Embryo
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Loading RightsDevelopment, ISSN 0950-1991, 03/2012, Volume 139, Issue 6, pp. 1059 - 1069
When amniotes appeared during evolution, embryos freed themselves from intracellular nutrition; development slowed, the mid-blastula transition was lost and...
Evolution | Gastrulation | Mouse | Chick | Endoderm | Extra-embryonic tissues | ANTERIOR-POSTERIOR AXIS | HEAD INDUCTION | YOLK-SAC | EXTRAEMBRYONIC ENDODERM | DEVELOPMENTAL BIOLOGY | PRIMORDIAL GERM-CELLS | PRIMITIVE STREAK FORMATION | MURINE ALLANTOIS | MOUSE EMBRYO | HOMEOBOX GENE HEX | CHICK-EMBRYO | Embryonic Induction - genetics | Nutritional Physiological Phenomena | Endoderm - embryology | Amnion - physiology | Chick Embryo | Biological Evolution | Amnion - metabolism | Animals | Gene Expression Regulation, Developmental | Primitive Streak - physiology | Mice | Nervous System - embryology | Body Patterning - genetics | Germ Layers - physiology | Review
Evolution | Gastrulation | Mouse | Chick | Endoderm | Extra-embryonic tissues | ANTERIOR-POSTERIOR AXIS | HEAD INDUCTION | YOLK-SAC | EXTRAEMBRYONIC ENDODERM | DEVELOPMENTAL BIOLOGY | PRIMORDIAL GERM-CELLS | PRIMITIVE STREAK FORMATION | MURINE ALLANTOIS | MOUSE EMBRYO | HOMEOBOX GENE HEX | CHICK-EMBRYO | Embryonic Induction - genetics | Nutritional Physiological Phenomena | Endoderm - embryology | Amnion - physiology | Chick Embryo | Biological Evolution | Amnion - metabolism | Animals | Gene Expression Regulation, Developmental | Primitive Streak - physiology | Mice | Nervous System - embryology | Body Patterning - genetics | Germ Layers - physiology | Review
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Loading RightsFASEB Journal, ISSN 0892-6638, 01/2009, Volume 23, Issue 1, pp. 114 - 122
Formation of the primitive streak (PS) is the initial specification step that generates all the mesodermal and endodermal tissue lineages during early...
Brachyury | sox17 | Regenerative medicine | Endoderm | Mesendoderm | mesendoderm | endoderm | regenerative medicine | BIOCHEMISTRY & MOLECULAR BIOLOGY | DEFINITIVE ENDODERM | brachyury | MOUSE EMBRYO | CELL BIOLOGY | GASTRULATION | GENE | MESODERM FORMATION | BIOLOGY | BODIES | MICE | DIFFERENTIATION | EXPRESSION | REQUIREMENT | Wnt Proteins - pharmacology | Embryonic Stem Cells - cytology | Signal Transduction | Humans | Wnt Proteins - administration & dosage | Culture Media, Serum-Free | Primitive Streak - drug effects | Dose-Response Relationship, Drug | Animals | Activins - pharmacology | Embryonic Stem Cells - drug effects | Primitive Streak - physiology | Wnt3 Protein | Cell Differentiation | Mice | Cell Culture Techniques | Gene Expression Regulation, Developmental - physiology
Brachyury | sox17 | Regenerative medicine | Endoderm | Mesendoderm | mesendoderm | endoderm | regenerative medicine | BIOCHEMISTRY & MOLECULAR BIOLOGY | DEFINITIVE ENDODERM | brachyury | MOUSE EMBRYO | CELL BIOLOGY | GASTRULATION | GENE | MESODERM FORMATION | BIOLOGY | BODIES | MICE | DIFFERENTIATION | EXPRESSION | REQUIREMENT | Wnt Proteins - pharmacology | Embryonic Stem Cells - cytology | Signal Transduction | Humans | Wnt Proteins - administration & dosage | Culture Media, Serum-Free | Primitive Streak - drug effects | Dose-Response Relationship, Drug | Animals | Activins - pharmacology | Embryonic Stem Cells - drug effects | Primitive Streak - physiology | Wnt3 Protein | Cell Differentiation | Mice | Cell Culture Techniques | Gene Expression Regulation, Developmental - physiology
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Loading RightsDevelopmental Dynamics, ISSN 1058-8388, 08/2011, Volume 240, Issue 8, pp. 1905 - 1916
Formation of the mammalian primitive streak appears to rely on cell proliferation to a minor extent only, but compensating cell movements have not yet been...
axial differentiation | cell movements | metaphase plate orientation | Cell movements | Metaphase plate orientation | Axial differentiation | NOTOCHORD FORMATION | POLARITY | ANATOMY & MORPHOLOGY | TISSUE | DEVELOPMENTAL BIOLOGY | INTERCALATION | GASTRULATION | MORPHOGENESIS | GERM-LAYER | ORIENTATION | CHICK-EMBRYO | AXIS FORMATION | Cell Polarity | Rabbits | Cell Proliferation | Gastrulation | Humans | Cells, Cultured | Blastocyst - cytology | Blastocyst - physiology | Primitive Streak - cytology | Microscopy, Interference | Cell Movement - physiology | Cell Division - physiology | Embryo, Mammalian - physiology | Animals | Embryo, Mammalian - cytology | Primitive Streak - physiology | Time-Lapse Imaging - methods | Microscopy, Fluorescence, Multiphoton
axial differentiation | cell movements | metaphase plate orientation | Cell movements | Metaphase plate orientation | Axial differentiation | NOTOCHORD FORMATION | POLARITY | ANATOMY & MORPHOLOGY | TISSUE | DEVELOPMENTAL BIOLOGY | INTERCALATION | GASTRULATION | MORPHOGENESIS | GERM-LAYER | ORIENTATION | CHICK-EMBRYO | AXIS FORMATION | Cell Polarity | Rabbits | Cell Proliferation | Gastrulation | Humans | Cells, Cultured | Blastocyst - cytology | Blastocyst - physiology | Primitive Streak - cytology | Microscopy, Interference | Cell Movement - physiology | Cell Division - physiology | Embryo, Mammalian - physiology | Animals | Embryo, Mammalian - cytology | Primitive Streak - physiology | Time-Lapse Imaging - methods | Microscopy, Fluorescence, Multiphoton
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Loading RightsDevelopment, ISSN 0950-1991, 04/2012, Volume 139, Issue 7, pp. 1276 - 1284
The mouse transcription factor Noto is expressed in the node and controls node morphogenesis, formation of nodal cilia and left-right asymmetry. Noto acts...
Mouse node | Left-right determination | Cilia | SITUS-INVERSUS | MOUSE | NOTOCHORDAL PLATE | DEVELOPMENTAL BIOLOGY | LEFT-RIGHT ASYMMETRY | LEFTWARD FLOW | EPITHELIAL-CELLS | LEFT-RIGHT AXIS | MICE | HOMEOBOX GENE | EXPRESSION | Cilia - physiology | Microscopy, Video - methods | Epithelium - metabolism | Morphogenesis - genetics | Genotype | Mice, Transgenic | Forkhead Transcription Factors - physiology | Transcription Factors - metabolism | Animals | Gene Expression Regulation, Developmental | Models, Biological | Primitive Streak - physiology | Alleles | Mice | Models, Genetic | Homeodomain Proteins - physiology
Mouse node | Left-right determination | Cilia | SITUS-INVERSUS | MOUSE | NOTOCHORDAL PLATE | DEVELOPMENTAL BIOLOGY | LEFT-RIGHT ASYMMETRY | LEFTWARD FLOW | EPITHELIAL-CELLS | LEFT-RIGHT AXIS | MICE | HOMEOBOX GENE | EXPRESSION | Cilia - physiology | Microscopy, Video - methods | Epithelium - metabolism | Morphogenesis - genetics | Genotype | Mice, Transgenic | Forkhead Transcription Factors - physiology | Transcription Factors - metabolism | Animals | Gene Expression Regulation, Developmental | Models, Biological | Primitive Streak - physiology | Alleles | Mice | Models, Genetic | Homeodomain Proteins - physiology
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Loading RightsJournal of Cellular Physiology, ISSN 0021-9541, 12/2007, Volume 213, Issue 3, pp. 654 - 660
The definitive axes of the mouse embryo can be unequivocally identified in embryos dissected at 5.5 days of gestation. However, how and when are these axes...
PHYSIOLOGY | EXTRAEMBRYONIC ECTODERM | EMBRYONIC STEM-CELLS | GENE-EXPRESSION | BLASTOCYST AXIS | EPITHELIAL-MESENCHYMAL TRANSITIONS | POSTERIOR AXIS | ANTERIOR VISCERAL ENDODERM | PRIMITIVE STREAK FORMATION | 1ST CLEAVAGE | MOUSE EMBRYO | CELL BIOLOGY | Endoderm - physiology | Morula - physiology | Blastocyst - physiology | Morphogenesis | Endoderm - cytology | Primitive Streak - physiology | Female | Gastrula - embryology | Embryo Implantation - physiology | Zygote - cytology | Primitive Streak - embryology | Embryonic Development - physiology | Blastocyst - cytology | Primitive Streak - cytology | Gastrula - cytology | Morula - cytology | Body Patterning - physiology | Gastrula - physiology | Pregnancy | Embryo, Mammalian - physiology | Animals | Embryo, Mammalian - cytology | Models, Biological | Cell Polarity - physiology | Mice | Zygote - physiology
PHYSIOLOGY | EXTRAEMBRYONIC ECTODERM | EMBRYONIC STEM-CELLS | GENE-EXPRESSION | BLASTOCYST AXIS | EPITHELIAL-MESENCHYMAL TRANSITIONS | POSTERIOR AXIS | ANTERIOR VISCERAL ENDODERM | PRIMITIVE STREAK FORMATION | 1ST CLEAVAGE | MOUSE EMBRYO | CELL BIOLOGY | Endoderm - physiology | Morula - physiology | Blastocyst - physiology | Morphogenesis | Endoderm - cytology | Primitive Streak - physiology | Female | Gastrula - embryology | Embryo Implantation - physiology | Zygote - cytology | Primitive Streak - embryology | Embryonic Development - physiology | Blastocyst - cytology | Primitive Streak - cytology | Gastrula - cytology | Morula - cytology | Body Patterning - physiology | Gastrula - physiology | Pregnancy | Embryo, Mammalian - physiology | Animals | Embryo, Mammalian - cytology | Models, Biological | Cell Polarity - physiology | Mice | Zygote - physiology
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Loading RightsThe Anatomical Record, ISSN 1932-8486, 03/2013, Volume 296, Issue 3, pp. 533 - 543
ABSTRACT Primitive streak (PS) is the first structure occurring in embryonic gastrulation, in which the epiblast cells undergo the epithelial‐mesenchymal...
cell migration | primitive streak | graft | local microenvironment | gastrulation | Primitive streak | Graft | Gastrulation | Local microenvironment | Cell migration | ANATOMY & MORPHOLOGY | ENDODERM | INDUCTION | MYOSIN HEAVY-CHAIN | CADHERIN | MESODERM | MOVEMENT PATTERNS | CHICK-EMBRYO | EXPRESSION | AXIS | Immunohistochemistry | Embryonic Stem Cells - metabolism | Green Fluorescent Proteins - genetics | In Situ Hybridization | Transfection | Time Factors | Gene Expression Regulation, Developmental | Primitive Streak - physiology | Cell Differentiation | Stem Cell Niche | Tissue Culture Techniques | Primitive Streak - metabolism | Electroporation | Primitive Streak - cytology | Chick Embryo | Embryonic Stem Cells - physiology | Organogenesis | Cell Lineage | Phenotype | Animals | Green Fluorescent Proteins - biosynthesis | Embryonic Stem Cells - transplantation | Microscopy, Fluorescence | Cell Movement
cell migration | primitive streak | graft | local microenvironment | gastrulation | Primitive streak | Graft | Gastrulation | Local microenvironment | Cell migration | ANATOMY & MORPHOLOGY | ENDODERM | INDUCTION | MYOSIN HEAVY-CHAIN | CADHERIN | MESODERM | MOVEMENT PATTERNS | CHICK-EMBRYO | EXPRESSION | AXIS | Immunohistochemistry | Embryonic Stem Cells - metabolism | Green Fluorescent Proteins - genetics | In Situ Hybridization | Transfection | Time Factors | Gene Expression Regulation, Developmental | Primitive Streak - physiology | Cell Differentiation | Stem Cell Niche | Tissue Culture Techniques | Primitive Streak - metabolism | Electroporation | Primitive Streak - cytology | Chick Embryo | Embryonic Stem Cells - physiology | Organogenesis | Cell Lineage | Phenotype | Animals | Green Fluorescent Proteins - biosynthesis | Embryonic Stem Cells - transplantation | Microscopy, Fluorescence | Cell Movement
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Loading RightsPLoS ONE, ISSN 1932-6203, 2011, Volume 6, Issue 4, p. e18081
Measurements on embryonic epithelial tissues in a diverse range of organisms have shown that the statistics of cell neighbor numbers are universal in tissues...
SHAPE | PRIMITIVE STREAK FORMATION | CHICK | MULTIDISCIPLINARY SCIENCES | DIVISION | Markov Chains | Cell Proliferation | Epithelium - metabolism | Gastrula - cytology | Models, Statistical | Chick Embryo | Algorithms | Animals | Chickens | Computer Simulation | Primitive Streak - physiology | Female | Cell Movement | Markov processes | Embryonic development | Models | Analysis | Cell proliferation | Statistical analysis | Computer simulation | Rheology | Developmental biology | Spatial discrimination | Cell division | Chemical reactions | Markov chains | Topology | Tissues | Statistics | Embryos | Physics | Cell adhesion & migration | Primitive streak | Insects | Morphology | Life sciences | Plate tectonics
SHAPE | PRIMITIVE STREAK FORMATION | CHICK | MULTIDISCIPLINARY SCIENCES | DIVISION | Markov Chains | Cell Proliferation | Epithelium - metabolism | Gastrula - cytology | Models, Statistical | Chick Embryo | Algorithms | Animals | Chickens | Computer Simulation | Primitive Streak - physiology | Female | Cell Movement | Markov processes | Embryonic development | Models | Analysis | Cell proliferation | Statistical analysis | Computer simulation | Rheology | Developmental biology | Spatial discrimination | Cell division | Chemical reactions | Markov chains | Topology | Tissues | Statistics | Embryos | Physics | Cell adhesion & migration | Primitive streak | Insects | Morphology | Life sciences | Plate tectonics
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Loading RightsCurrent Biology, ISSN 0960-9822, 02/2008, Volume 18, Issue 3, pp. R119 - R121
Formation of the primitive streak, the equivalent of the blastopore, is a critical step during the early development of amniote embryos. Medio-lateral cell...
GASTRULATION | MOVEMENTS | POLARITY | BIOCHEMISTRY & MOLECULAR BIOLOGY | CHICK-EMBRYO | PATTERNS | PRIMITIVE STREAK FORMATION | MOTILITY | CELL BIOLOGY | Animals | Primitive Streak - physiology | Mammals - embryology | Embryonic Development - physiology | Birds - embryology | Drosophila - cytology | Drosophila - embryology | Primitive Streak - cytology | Chick Embryo | Embryonic development | Developmental biology
GASTRULATION | MOVEMENTS | POLARITY | BIOCHEMISTRY & MOLECULAR BIOLOGY | CHICK-EMBRYO | PATTERNS | PRIMITIVE STREAK FORMATION | MOTILITY | CELL BIOLOGY | Animals | Primitive Streak - physiology | Mammals - embryology | Embryonic Development - physiology | Birds - embryology | Drosophila - cytology | Drosophila - embryology | Primitive Streak - cytology | Chick Embryo | Embryonic development | Developmental biology
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Loading RightsDevelopmental Biology, ISSN 0012-1606, 2006, Volume 296, Issue 1, pp. 137 - 149
Gastrulation in amniotes begins with extensive re-arrangements of cells in the epiblast resulting in the formation of the primitive streak. We have developed a...
Primitive streak | Cell division | Cell intercalation | FGF signalling | SIGNALING PATHWAYS | MARGINAL ZONE | cell division | DEVELOPMENTAL BIOLOGY | INDUCTION | MYOSIN-II | CONVERGENT EXTENSION MOVEMENTS | primitive streak | WNT PATHWAY | cell intercalation | MESODERM FORMATION | GENE-EXPRESSION | XENOPUS EMBRYOS | VERTEBRATE GASTRULATION | Cell Division - physiology | Animals | Cell Polarity - physiology | Signal Transduction - physiology | Gastrula - cytology | Wnt Proteins - physiology | Chick Embryo | Cell Movement - physiology | Gastrula - physiology | Cell interaction | Embryology, Experimental | Motility | Analysis | Chick embryo | Research | Cells | Embryonic development | Muscle proteins | Developmental biology | Myosin
Primitive streak | Cell division | Cell intercalation | FGF signalling | SIGNALING PATHWAYS | MARGINAL ZONE | cell division | DEVELOPMENTAL BIOLOGY | INDUCTION | MYOSIN-II | CONVERGENT EXTENSION MOVEMENTS | primitive streak | WNT PATHWAY | cell intercalation | MESODERM FORMATION | GENE-EXPRESSION | XENOPUS EMBRYOS | VERTEBRATE GASTRULATION | Cell Division - physiology | Animals | Cell Polarity - physiology | Signal Transduction - physiology | Gastrula - cytology | Wnt Proteins - physiology | Chick Embryo | Cell Movement - physiology | Gastrula - physiology | Cell interaction | Embryology, Experimental | Motility | Analysis | Chick embryo | Research | Cells | Embryonic development | Muscle proteins | Developmental biology | Myosin
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Loading RightsNature Cell Biology, ISSN 1465-7392, 04/2015, Volume 17, Issue 4, pp. 397 - 408
Primitive streak formation in the chick embryo involves large-scale highly coordinated flows of more than 100,000 cells in the epiblast. These large-scale...
GASTRULATION | EMBRYONIC-DEVELOPMENT | MECHANISM | DYNAMICS | PATTERNS | INHIBITORS | MULTICELLULAR ROSETTE FORMATION | MESENCHYMAL TRANSITION | CHICK | PLANAR POLARITY | CELL BIOLOGY | Phosphorylation | Cell Proliferation | Myosin Type II - antagonists & inhibitors | Humans | Myosin Type I - antagonists & inhibitors | Heterocyclic Compounds, 4 or More Rings - pharmacology | Gastrulation - physiology | Myosin Type II - metabolism | RNA Interference | HEK293 Cells | Myosin Type II - genetics | Myosin Type V - antagonists & inhibitors | Cell Line | Myosin Type V - metabolism | Myosin Type I - genetics | Animals, Genetically Modified | Hydrocarbons, Chlorinated - pharmacology | Primitive Streak - embryology | Primitive Streak - cytology | Chick Embryo | Myosin Type I - metabolism | Pyrroles - pharmacology | Animals | Myosin Type V - genetics | Chickens | RNA, Small Interfering | Cell Shape - physiology | Cell Movement | Genetic aspects | Properties | Endoderm | Cellular control mechanisms | Myosin
GASTRULATION | EMBRYONIC-DEVELOPMENT | MECHANISM | DYNAMICS | PATTERNS | INHIBITORS | MULTICELLULAR ROSETTE FORMATION | MESENCHYMAL TRANSITION | CHICK | PLANAR POLARITY | CELL BIOLOGY | Phosphorylation | Cell Proliferation | Myosin Type II - antagonists & inhibitors | Humans | Myosin Type I - antagonists & inhibitors | Heterocyclic Compounds, 4 or More Rings - pharmacology | Gastrulation - physiology | Myosin Type II - metabolism | RNA Interference | HEK293 Cells | Myosin Type II - genetics | Myosin Type V - antagonists & inhibitors | Cell Line | Myosin Type V - metabolism | Myosin Type I - genetics | Animals, Genetically Modified | Hydrocarbons, Chlorinated - pharmacology | Primitive Streak - embryology | Primitive Streak - cytology | Chick Embryo | Myosin Type I - metabolism | Pyrroles - pharmacology | Animals | Myosin Type V - genetics | Chickens | RNA, Small Interfering | Cell Shape - physiology | Cell Movement | Genetic aspects | Properties | Endoderm | Cellular control mechanisms | Myosin
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