The first section will very briefly set out the most recent scientific data on stem cells and the biotechnological data on their production and use. Given the growing relevance of the debate on the limits and liceity of the production and use of such cells, there is a pressing need to reflect on the ethical implications which are present. But in the regular time in your bone marrow, the stem cells make mostly asymmetric divisions, which keep the number of stem cells pretty standard.This document seeks to contribute to the debate on the production and use of embryonic stem cells which is now taking place in scientific and ethical literature and in public opinion. So in periods like after a bone marrow transplant, where the stem cell number has to expand, they make many more symmetric than asymmetric divisions. Or they can make asymmetric division, in which one cell goes on to proliferate and differentiate into the progeny, and the other cell stays a stem cell. They can make what's called a symmetric division, where the stem cell divides and both cells stay undifferentiated in stem cells. ![]() So what stem cells do is they have two different kinds of divisions they can make. So it's kind of like if you're getting three wishes, your last wish should be for more wishes. So the very important thing to remember about stem cells is they need not only divide and proliferate to make these many, many mature progeny cells, they also need to assure that their own stem cell pool is not reduced. And these are the three different general parts of an organism that happens during its development. There are also embryonic stem cells, and these are derived from three and a half days in the mouse and about six- to eight-day embryos in people, and these are cells with even more potential than the adult cells, because an embryonic stem cell derived in the proper way can give rise to neural cells, muscle cells, and liver cells. And there are many different kinds of stem cells that have been identified in adults. There are stem cells in neural tissue that give rise to neurons and astroglial cells and things like that. There are stem cells in the liver that give rise to hepatocytes and secretory cells. And people have stem cells in their bone marrow that give rise to all the different kinds of blood that they have. These are the ones that live in the adult organism. ![]() Now, there are several different kinds of stem cells. So a very small number of stem cells can give rise to an enormous number of mature progeny. And you can see that not only do they mature as they head down the pyramid, but they get greater in number. So generally, if you think about it, stem cell is the top brick in a big pyramid, and at the base of the pyramid are maybe four different kinds of cells that are derived from that stem cell. So stem cells generally are undifferentiated, and then the kind of cells that they make would become the more mature cells that you're familiar with. ![]() ![]() A stem cell is a specific type of cell in the body that has the potential to form many different cell types.
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