In a recent issue of Nature, Diehn et al. (2009) demonstrate that breast cancer stem cells (CSCs) maintain lower levels of reactive oxygen species (ROS) than their nontumorigenic counterparts. Their studies provide a link between the management of ROS by CSCs and enhanced tumor radioresistance
tem cells are defined by their unique ability to self-renew and their multipotent differentiation ca...
Metabolism of oxygen, while central to life, also produces reactive oxygen species (ROS) that have b...
Reactive oxygen species and tumor biology are intertwined in a complex web, making it difficult to u...
In a recent issue of Nature, Diehn et al. (2009) demonstrate that breast cancer stem cells (CSCs) ma...
Reactive oxygen species (ROS) can initiate cancer, but oxidant generation in tumors leaves them vuln...
Aims: A subpopulation of cancer cells, termed cancer stem cells (CSCs), has stemness properties, suc...
Controlling reactive oxygen species (ROS) at sustainable levels can drive multiple facets of tumor b...
Stem cells are defined by their unique ability to self-renew and their multipotent differentiation c...
Stem cells are defined by their unique ability to self-renew and their multipotent differentiation c...
Stem cells are defined by their unique ability to self-renew and their multipotent differentiation c...
Increasing evidence indicates that most of the tumors are sustained by a distinct population of canc...
Reactive oxygen species (ROS) are closely related to tumorgenesis. Under hypoxic environment, increa...
There remains great interest in practical strategies to limit the elevated risks of familial breast ...
tem cells are defined by their unique ability to self-renew and their multipotent differentiation ca...
Cancer cells display a higher level of reactive oxygen species (ROS) mainly due to increased metabol...
tem cells are defined by their unique ability to self-renew and their multipotent differentiation ca...
Metabolism of oxygen, while central to life, also produces reactive oxygen species (ROS) that have b...
Reactive oxygen species and tumor biology are intertwined in a complex web, making it difficult to u...
In a recent issue of Nature, Diehn et al. (2009) demonstrate that breast cancer stem cells (CSCs) ma...
Reactive oxygen species (ROS) can initiate cancer, but oxidant generation in tumors leaves them vuln...
Aims: A subpopulation of cancer cells, termed cancer stem cells (CSCs), has stemness properties, suc...
Controlling reactive oxygen species (ROS) at sustainable levels can drive multiple facets of tumor b...
Stem cells are defined by their unique ability to self-renew and their multipotent differentiation c...
Stem cells are defined by their unique ability to self-renew and their multipotent differentiation c...
Stem cells are defined by their unique ability to self-renew and their multipotent differentiation c...
Increasing evidence indicates that most of the tumors are sustained by a distinct population of canc...
Reactive oxygen species (ROS) are closely related to tumorgenesis. Under hypoxic environment, increa...
There remains great interest in practical strategies to limit the elevated risks of familial breast ...
tem cells are defined by their unique ability to self-renew and their multipotent differentiation ca...
Cancer cells display a higher level of reactive oxygen species (ROS) mainly due to increased metabol...
tem cells are defined by their unique ability to self-renew and their multipotent differentiation ca...
Metabolism of oxygen, while central to life, also produces reactive oxygen species (ROS) that have b...
Reactive oxygen species and tumor biology are intertwined in a complex web, making it difficult to u...
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