zygote to embryo 3 Flashcards
establishment of symmetry and asymmetry
expression of specific sets of genes establish cranial caudal and dorsal ventral axes of the embryo. Bilateral symmetry right and left sidedness is established by presence of midline structures like the notochord
Asymmetry is established by specific gene expression involving the primitive node
inductive cell
induction requires:
Inducing tissue- gives the signal
transfer signal- usually diffusion
competent response- respondent tissue must be competent to respond to signal
Neuroectoderm
rises from ectoderm: signaling molecules originating from the notochord and prechordal mesoderm cause changes in overlying ectoderm
ectoderm on either side of midline thickens (ectoderm cells get tallercalled neuroectoder/neural plate- precursor to the CNS
The neural plate elongates, expands cranially and narrows caudally, due to changes in cell shape and number and cycle length. Primary neurulation- when the neural plate becomes the neural tube occurs between day 18 and 28
bending and folding also occurs due to shape and cycle lengths, the basal midline or floor plate acts as a median hinge point, mesoderm proliferation helps rais folds
closure of neural tube happens at day 22
Neural tube
cranial part becomes the brain, with a ventral flexture
Prodrncephalon, mesencephalon, rhombencephalon
By the mesencephalon- ectoderm thickens- inner ear
by the prsencephalon- eyeball
Neural crest
cells that leave the neural tube, undergoes a epithelial->mesenchym transformation- becomes sensory neurons, PNS sheath, ANS and pigment cells
Intraembryonic mesoderm is organized into 3 regions
paraxial, intermediate, and lateral
paraxial mesoderm
in the head paraxial mesoderm remains unsegmented, in the trunk becomes segmented into somites, all somites are not present at once, somite formation goes cranially to caudally:
Fissure formation: mesenchy aggregates and makes presomites
Periodicity: segmentation clock and wave
Epithelialization: M->E !
Specification: regional patterns
Differentiations: form into specifc cells
intermediate mesoderm
solid cell cord, nephrogenic ridge
lateral mesoderm
intercellular spaces coalesce forming intraembryonic ceolom. Ceolon slits the lateral mesoderm, one layer associates with the ectoderm- this becomes the somatic mesoderm, the other layer associates with the endoderm- splanchnic mesoderm
ectoderm+ lateral mesoderm= somatopleure
endoderm + lateral plate mesoderm= splanchnopleure
Early formation of cardiovascular system
precursors=hemeangioblasts, begins in wall of UV
vasculogenesis- denovo, angiogensis- branching
heart formation from splanchnic mesoderm in anteriolateral area of embryo
folding of the embryo in the sagittal and transverse planes of the tube within the tube body plan of embryo
in the sagittal plane- becomes a C
neural tube elongation is the major driving force for folding
embryo lifted up into amniotic cavity
folding in transverse plane- becomes a tubular embryo- outer tube- ectoderm, inner tube- endoderm
clsure of ventral body wall
4 folds- head and tail fold
2 lateral folds
draw together around the umbilical ring
heart starts beating
