It becomes the embryo proper and some extra-embryonic membranes. First it specializes into an epiblast and hypoblast. The epiblast becomes the embryo proper and the hypoblast becomes the yolk sac.
The inner cell mass of the blastocyst will undergo gastrulation and form the embryo. This inner cell mass consists of pluripotent cells that will give rise to the various tissues and organs of the developing embryo.
The inner cell mass of the blastocyst develops into the body of the embryo. This inner cell mass will give rise to the different cell types and structures that form the developing fetus.
The outer layer of the blastocyst will become the trophoblast, which later develops into the placenta. The inner cell mass of the blastocyst will give rise to the embryo and eventually the fetus.
Cells in a blastocyst start to differentiate into specific cell types, forming layers called the inner cell mass and the trophectoderm. These cells will give rise to different tissues and organs as the embryo develops. The inner cell mass forms the embryo itself, while the trophectoderm will become the placenta.
In mammals, the blastula forms the blastocyst in the next stage of embryonic development. Here the cells in the blastula arrange themselves in two layers: the inner cell mass and an outer layer called the trophoblast . The inner cell mass is also known as the embryoblast; this mass of cells will go on to form the embryo. At this stage of development, the inner cell mass consists of embryonic stem cells that will differentiate into the different cell types needed by the organism. The trophoblast will contribute to the placenta and nourish the embryo
Inner cell mass
Only totipotent and pluripotent stem cells. Totipotent can become any cell type, because they come from a 3-day-embryo. Pluripotent are already differentiated cells, coming from the inner cell mass of a blastocyst kai can become any tissue cell type or any organ. Pluripotent can be extracted from the inner cell mass of the blastocyst the 5th day after the fertilization. This has ethical drawbacks. That's why the scientists are trying to extract stem cells from only one cell from the inner cell mass of the blastocyst.
The inner cell mass of the blastocyst will undergo gastrulation and form the embryo. This inner cell mass consists of pluripotent cells that will give rise to the various tissues and organs of the developing embryo.
The inner cell mass of the blastocyst develops into the body of the embryo. This inner cell mass will give rise to the different cell types and structures that form the developing fetus.
The outer layer of the blastocyst will become the trophoblast, which later develops into the placenta. The inner cell mass of the blastocyst will give rise to the embryo and eventually the fetus.
That is the correct spelling of "cytoplasm" (inner fluid mass of a cell).
Cells in a blastocyst start to differentiate into specific cell types, forming layers called the inner cell mass and the trophectoderm. These cells will give rise to different tissues and organs as the embryo develops. The inner cell mass forms the embryo itself, while the trophectoderm will become the placenta.
Mercury is the inner planet with the most mass.
Jupiter has great mass, but it's not an inner planet. Earth has most mass of the inner planets, but far less than Jupiter.
the cell would regulate and the outer and inner liquid would become the same
Believe you meant "blastocyst". Defined as a distinctive stage of a mammalian embryo. It is a form of blastula that develops from a berry-like cluster of cells, the morula. A cavity appears in the morula between the cells of the inner cell mass and the enveloping layer. This cavity becomes filled with fluid. The blastocyst differs from the blastula in that it is composed of two already differentiated cell types, the inner cell mass and the enveloping layer.
The inner cell mass of the blastocyst is the structure that becomes the embryo. It contains the cells that will develop into the fetus.