Cancer Stem Cells: Cell Culture Products
As for all stem cells, oncogenically transformed cancer stem cells (CSCs) are defined by their ability for self-renewal and multipotency. The CSC hypothesis states that, although CSCs represent a rare population of cells within a tumor, their high tumorigenic capacity drives tumorigenesis. Due to their intrinsic stem cell-like properties, CSC proliferation generates more CSCs, and all the differentiated cell types that compose the bulk of the tumor. Non-CSCs in the tumor have been shown to proliferate at a faster rate than CSCs, but have little tumor-initiating potential. Because CSCs exhibit increased resistance to toxic and chemical insults, this specific subpopulation of cells is believed to underlie resistance to chemotherapy and disease relapse. In fact, the CSC model posits that all CSCs must be eradicated to eliminate a tumor and prevent its recurrence.
2 results for "Cancer Stem Cells Cell Culture Products" in Products
2 results for "Cancer Stem Cells Cell Culture Products" in Products
Cancer Stem Cells: Cell Culture Products
As for all stem cells, oncogenically transformed cancer stem cells (CSCs) are defined by their ability for self-renewal and multipotency. The CSC hypothesis states that, although CSCs represent a rare population of cells within a tumor, their high tumorigenic capacity drives tumorigenesis. Due to their intrinsic stem cell-like properties, CSC proliferation generates more CSCs, and all the differentiated cell types that compose the bulk of the tumor. Non-CSCs in the tumor have been shown to proliferate at a faster rate than CSCs, but have little tumor-initiating potential. Because CSCs exhibit increased resistance to toxic and chemical insults, this specific subpopulation of cells is believed to underlie resistance to chemotherapy and disease relapse. In fact, the CSC model posits that all CSCs must be eradicated to eliminate a tumor and prevent its recurrence.
Insulin-Transferrin-Selenium Media Supplement
For Tumorsphere Formation of Human/Mouse/Rat Cancer Cells