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Embryonic Stem Cells and Embryology
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What are embryonic stem cells? derived from embryos that develop from eggs that have been fertilized in vitro not derived from eggs fertilized in a woman's body typically four or five days old and are a hollow microscopic ball of cells called the blastocyst.
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do not have a specific gene code to be an exact cell have all of the genes that the other cells do, but their genes are activated for a primary purpose of mitosis without a specialized tissue function have not undergone differentiation daughter cells derived from these stem cells are capable of differentiating into almost any kind of cell
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in the laboratory, stem cells can be manipulated to take on characteristics of specific cells, such as heart cells, nerve cells or even pancreatic cells ( a process called directed differentiation). in the laboratory, stem cells can be manipulated to take on characteristics of specific cells, such as heart cells, nerve cells or even pancreatic cells ( a process called directed differentiation). during this process, scientists activate certain genes, and deactivate other genes. during this process, scientists activate certain genes, and deactivate other genes. as a result, the newly coded cells develop specific structures to perform certain functions.
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Adult Stem Cells Stem cells can also come from any body cell Do not have to be embryonic Cells are already differentiated
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Embryonic Development Cleavage: division of cells in the early embryo Zygotes of many species undergo rapid cell cycles with no significant growth, producing a cluster of cells the same size as the original zygote. The different cells derived from cleavage are called blastomeres and form a compact mass called the morula blastomeresmorulablastomeresmorula Cleavage ends with the formation of the blastula (hollow ball of single layer of cells) blastula
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Early Embryological Development Week 1 Following fertilization, the major events of the first week of development are cleavage, formation of the blastocyst, and the beginning of the implantation process. fertilizationcleavageblastocystimplantationfertilizationcleavageblastocystimplantation Blastula is formed
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Week 2 By the end of the second week, the blastocyst has completed implantation
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Week 3 Gastrulation occurs (bilaminar embryo trilaminar embryo) - one side of blastula pushes inward - three cell lineages that will eventually form every system ectoderm, mesoderm, and endoderm This is the time of early tissue and organ differentiation of the nervous and cardiovascular systems, as well as the formation of future body cavities.
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Embryonic Differentiation Ectoderm nervous system, skin nervous system, skin Mesoderm muscles, circulatory, skeletal, excretory, and reproductive systems muscles, circulatory, skeletal, excretory, and reproductive systems Endoderm linings of digestive and respiratory tracts, liver, pancreas linings of digestive and respiratory tracts, liver, pancreas
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Week 4 In week 4, the embryo undergoes major morphological changes as it changes from a trilaminar disk-shaped embryo to a cylindrical embryo. This is also an important week in terms of determining placement of future organs. Following median and horizontal folding, many organs and body cavities will begin to form or will be repositioned.
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