Stem Cell Project by Jordan Anderson

Stem Cell Project by Jordan Anderson https://padlet.com/1633404/hyyxd70quu18 By Jordan, Keltoum, and Julia en-us 2019-01-10 16:05:49 UTC 2025-08-13 15:55:05 UTC hello@padlet.com https://padlet-assets.s3.amazonaws.com/icons/Brightnessdown.png Describe a NON Therapeutic use for Stem Cells 1633404 https://padlet.com/1633404/hyyxd70quu18/wish/319314195 If people don’t want to eat meat then they will use stem cells to grow it. “Cultured” or “synthetic” meat could be constructed with different characteristics and be produced faster and more efficiently than traditional meat.]]> 2019-01-10 16:08:29 UTC https://padlet.com/1633404/hyyxd70quu18/wish/319314195 Evaluate one ethical implication of stem cell research. 1633404 https://padlet.com/1633404/hyyxd70quu18/wish/319314872 Research with hECs have come across many ethical issues

Destruction of embryos
Creation of embryos specifically for research purposes

]]> 2019-01-10 16:09:32 UTC https://padlet.com/1633404/hyyxd70quu18/wish/319314872 Describe the difference between embryonic stem cells, cord blood stem cells and adult stem cells, where each are found or cultured and what each can become. 1633404 https://padlet.com/1633404/hyyxd70quu18/wish/319315113 Embryonic Stem Cells: They are derived from embryos and most of them are fertilized in a lab (in vitro). Some of the cells in the inner cell mass are pluripotent, meaning that they can make every type of cell in the body.

Cord Blood Stem Cells: Umbilical Cord Blood is the blood left over in your umbilical cord after your baby is born. Doctors have increasingly turned to cord blood stem cells as a life-saving alternative to bone marrow transplants.

Adult Stem Cells: They have been identified in many organs and tissues, including brain, bone marrow, peripheral blood, blood vessels, skeletal muscle, skin, teeth, heart, etc.

]]> 2019-01-10 16:09:56 UTC https://padlet.com/1633404/hyyxd70quu18/wish/319315113 1633404 https://padlet.com/1633404/hyyxd70quu18/wish/319322813 2019-01-10 16:22:31 UTC https://padlet.com/1633404/hyyxd70quu18/wish/319322813 Describe the use of stem cells to treat Stargardt’s disease and Diabetes 1633404 https://padlet.com/1633404/hyyxd70quu18/wish/319323792 Regarding Stargardt’s disease, there is currently no treatment for it. However, using stem cells can generate a virtually unlimited supply of healthy RPE cells. RPE cells are the first cells to die off in Stargardt's and other forms of macular degeneration.

Treating with stem cells enables researchers to track the disease from the very earliest stages, before the point when diabetes is usually picked up in a patient. Skin cells from a person with diabetes can be reprogrammed into induced pluripotent stem (iPS) cells that have the potential to make any cell type in the body, including beta cells, as well as the immune cells that attack and destroy beta cells in type 1 diabetes.

]]> 2019-01-10 16:23:59 UTC https://padlet.com/1633404/hyyxd70quu18/wish/319323792 Explain and give an example of cell differentiation 1633404 https://padlet.com/1633404/hyyxd70quu18/wish/319340125 Cell differentiation is the process through which a cell undergoes changes in gene expression to become a more specific type of cell.

Example: in animals, every species starts as a single cell: the zygote and from there even the largest animals such as the whale can be created.

]]> 2019-01-10 16:48:06 UTC https://padlet.com/1633404/hyyxd70quu18/wish/319340125 Explain what stem cells are and their capacity to differentiate 1633404 https://padlet.com/1633404/hyyxd70quu18/wish/319359928 Stem cells are undifferentiated cells that can turn into specific cells, as the body needs them. Day-to-day living means the body is constantly renewing its tissues. In some parts of the body, such as the gut and bone marrow, stem cells regularly divide to produce new body tissues for maintenance and repair.

Stem cells are present inside different types of tissue. Scientists have found stem cells in tissues including the brain and liver.

]]> 2019-01-10 17:20:00 UTC https://padlet.com/1633404/hyyxd70quu18/wish/319359928 1633404 https://padlet.com/1633404/hyyxd70quu18/wish/319361683 2019-01-10 17:22:55 UTC https://padlet.com/1633404/hyyxd70quu18/wish/319361683 Who is Henrietta Lacks? Describe her legacy in Stem Cell research 1633404 https://padlet.com/1633404/hyyxd70quu18/wish/319362338 Henrietta Lacks was an African-American woman whose cancer cells are the source of the HeLa cell line, the first immortalized cell line and one of the most important cell lines in medical research. An immortalized cell line reproduces indefinitely under specific conditions, and the HeLa cell line continues to be a source of invaluable medical data to the present day.]]> 2019-01-10 17:23:54 UTC https://padlet.com/1633404/hyyxd70quu18/wish/319362338 1633404 https://padlet.com/1633404/hyyxd70quu18/wish/319363343 2019-01-10 17:25:33 UTC https://padlet.com/1633404/hyyxd70quu18/wish/319363343