Somatic cell nuclear transfer: Difference between revisions
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== Problems == |
== Problems == |
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The stress on both the cell and the nucleus are enormous, which leads to a high mortality rate of recipient cells. As the procedure currently cannot be automated, but has to be performed manually under a [[microscope]], somatic cell nuclear transfer is very resource-consuming. |
The stress on both the cell and the nucleus are enormous, which leads to a high mortality rate of recipient cells. As the procedure currently cannot be automated, but has to be performed manually under a [[microscope]], somatic cell nuclear transfer is very resource-consuming. |
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As the donor cell is a [[somatic cell]], it has to be artificially "activated" to start working as a [[fertilization|fertilized]] [[egg cell]], thus growing into a whole organism. The biochemistry involving this activation is far from understood. |
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Also, not all genetic information of the donor cell is transfered. DNA of [[organelle]]s (mostly [[mitochondria]]) is not moved together with the nucleus, but remains that of the recipient cell. |
Also, not all genetic information of the donor cell is transfered. DNA of [[organelle]]s (mostly [[mitochondria]]) is not moved together with the nucleus, but remains that of the recipient cell. |
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Revision as of 08:37, 14 January 2003
In genetics, somatic cell nuclear transfer is a technique for cloning.
What happens
The nucleus of a cell contains the DNA of an organism, which acts as its blueprint. By removing the nucleus of a cell and replacing it with a nucleus from another cell, the former starts using the blueprint for the latter, thus transforming itself and all cells that derive from it via cell division.
Problems
The stress on both the cell and the nucleus are enormous, which leads to a high mortality rate of recipient cells. As the procedure currently cannot be automated, but has to be performed manually under a microscope, somatic cell nuclear transfer is very resource-consuming.
As the donor cell is a somatic cell, it has to be artificially "activated" to start working as a fertilized egg cell, thus growing into a whole organism. The biochemistry involving this activation is far from understood.
Also, not all genetic information of the donor cell is transfered. DNA of organelles (mostly mitochondria) is not moved together with the nucleus, but remains that of the recipient cell.