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The archenteron is labeled as the digestive tube. The filopodia—thin fibers formed by the mesenchyme cells, found in late gastrulation—contract to drag the tip of the archenteron across the blastocoel. The endoderm of the archenteron will fuse with the ectoderm of the blastocoel wall. At this point gastrulation is complete, and the embryo ...
From this moment the embryo is called a gastrula, and the concave, visible from outside, is the emerging blastopore. Over the upper edge of the blastopore, called the dorsal lip, a migration of cells occurs, which derives from the central area of the gray crescent. The process of involution takes place – the dorsal lip turns in upon itself.
Gastrulation is the stage in the early embryonic development of most animals, during which the blastula (a single-layered hollow sphere of cells), or in mammals the blastocyst, is reorganized into a two-layered or three-layered embryo known as the gastrula. [1]
The blastula develops into a structure called a gastrula through a process called gastrulation. The gastrula then undergoes further development, including the formation of organs ( organogenesis ). The embryo then transforms into the next stage of development, the nature of which varies among different animal species (examples of possible next ...
In the journal PLOS One, it notes this frog species is unique, because skipping the egg stage and going straight to tadpoles means it possesses internal fertilization.
The lungs and glands of the organism may develop this way. [6] A primary step in organogenesis for chordates is the development of the notochord, which induces the formation of the neural plate, and ultimately the neural tube in vertebrate development. The development of the neural tube will give rise to the brain and spinal cord. [1]
The next cells passing through Hensen's node become the chordamesoderm. The chordamesoderm has two components: the head process and the notochord. The most anterior part, the head process, is formed by central mesoderm cells migrating anteriorly, behind the prechordal plate mesoderm and toward the rostral tip of the embryo.
Scientists have studied the process of neural tube formation in vertebrate embryos since the late 1800s. [2] Across vertebrate groups including amphibians , reptiles , birds , and mammals , the neural tube (the embryonic precursor of the spinal cord ) forms through the invagination of the neural plate into a tube, known as primary neurulation.