'1' - blastula, '2' - gastrula; 'orange' - ectoderm, 'red' - endoderm.
The 'gastrula' phase of
embryonic development is seen in all
animals except the
sponges. It follows the
blastula phase.
Development
The purpose of gastrulation is to position the three embryonic
germ layers, the endoderm, ectoderm and mesoderm. These layers later develop into certain bodily systems.
★ The
ectoderm develops into the brain, skin, nails, epithelium of the nose, mouth and anal canal; lens of the eye, retina and nervous system.
★ The
endoderm developes into the inner linings of the
digestive tract, as well as the linings for the
respiratory tracts. It also forms many glands, such as the
liver and
pancreas.
★ The
mesoderm forms the
somites, the
notochord, and the
mesenchyme.
During gastrulation, embryonic cells migrate through an opening within the embryo known as a
blastocoel. As the gastrula forms, the remnants of the blastocoel shrink to eventually disappear completely.
The opening into the gastrula is known as the
blastopore.
The inner cavity created by the infolding is known as the archenteron.
Movements
There are five main types of cell movements in gastrulation:
★
ingression - the movement of single cells inwards
★
involution - the inturning of a lower cell layer caused by movement of the upper layer
★
invagination - an infolding, or poking, of cells
★
delamination - when one sheet of cells split into two
★
epiboly - when the embryo is encompassed by the ectoderm.
★ In addition to these movements,
convergent extension can also take place. Although it is not real movement it does allow the cells to stretch (shorter, longer, or taller)
Once gastrulation is complete,
organogenesis begins.
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