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Biology 624 - Developmental Genetics. Lecture #5 - Gastrulation IV . GASTRULATION is a complex series of cell movements that: --rearranges cells, giving them new neighbors --results in the formation of 3 GERM LAYERS that will form the subsequent embryo: ectoderm, endoderm and mesoderm
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Biology 624 - Developmental Genetics Lecture #5 - Gastrulation IV
GASTRULATION is a complex series of cell movements that: --rearranges cells, giving them new neighbors --results in the formation of 3 GERM LAYERS that will form the subsequent embryo: ectoderm, endoderm and mesoderm --forms the main body axes of the embryo (they were specified earlier but not formed)
* cleavage organogenesis GASTRULATION 16h 1.5h 0h 6h * organogenesis cleavage GASTRULATION dorsal closure * cleavage 2.5h GASTRULATION neurulation organogenesis 24h * 0h 10h GASTRULATION cleavage * segmentation organogenesis * GASTRULATION GASTRULATION 3.5h first cleavage implantation organogenesis cleavage organogenesis 18h 2.8h segmentation segmentation 5h 10h 24h 24h 24h 14d 20d 48-72h 21d 4.5d 6.5d 4d 7d 36h
Involution- the inturning of an expanding outer layer of cells
Ingression- the migration of individual cells from surface to interior
Delamination- the splitting of one sheet of cells into two parallel sheets of cells
Epiboly- the movement of epithelial sheets that spread as a unit to cover the embryo
Convergent Extension Convergent extension- the lengthening of a group of cells in the long axis while shortening in the perpendicular axis
Cell Movements during Convergent Extension in Zebrafish
FGF Signaling is Critical to Gastrulation in Drosophila Stage 7 Stage 8 Stage 9 WildType Mutant early gastrulation mid- gastrulation extended germ band Neurotactin, membrane marker Twist, mesoderm marker (Gryzik and Muller, 2004)
Model for FGF signaling in Drosophila gastrulation (Leptin and Affolter, 2004)
Epiboly of the Ectoderm Is Accomplished by Cell Division and Intercalation
Convergent Extension Convergent extension- the lengthening of a group of cells in the long axis while shortening in the perpendicular axis
Fibronectin and Amphibian Gastrulation Normal FN block peptides
Blastocoel Roof Explants deposit matrix that directs the migration of mesoderm from Nagel et al, 2004
FGF Expression during avian gastrulation and the putative role of Sprouty/spred from Keller, 2005
Convergent Extension Tissue Separation Wnt Signaling Mediates Two Distinct Aspects of Gastrulation (Huelsken and Birchmeier, 2001)
Amphibian Convergence Extension Requires Non-canonical Wnt Signaling (Habas et al, 2003)
CE in Zebrafish Requires Oriented Cell Division This is the dorsal ectoderm of embryos in gastrulation, Xdd is a Disheveled mt, animal pole is up (Gong et al, 2004)
At the end of gastrulation-- --the basic body plan is set up --the three germ layers have formed and will produce all embryonic structures except the germline
ECTODERM-- --skin, nervous system, neural crest MESODERM-- --muscle, bones, blood and vessels, kidney, gonads, connective tissue ENDODERM-- --gut, liver, lungs, pancreas
* cleavage GASTRULATION organogenesis 0h 1.5h 6h 16h C. elegans embryogenesis
* organogenesis cleavage GASTRULATION dorsal closure 0h 2.5h 10h 24h Drosophila embryogenesis
* cleavage GASTRULATION neurulation organogenesis 3.5h 18h Frog embryogenesis 36h
* GASTRULATION cleavage segmentation organogenesis 2.8h 5h 10h 24h 48-72h Zebrafish embryogenesis
Egg laid * GASTRULATION cleavage organogenesis segmentation 21d 24h 4d 7d Chick embryogenesis
* GASTRULATION first cleavage implantation organogenesis segmentation 14d 20d 24h 4.5d 6.5d Mouse embryogenesis