Add to ORKGProper control of cell cycle exit is an essential aspect of the development of all multicellular organisms. Cell cycle exit frequently occurs during G1 phase, and a stable G1 arrest is usually necessary for cell differentiation (Myster and Duronio, 2000)
<p>Cells can be in one of the proliferative (green regions) cell cycle phases: , , or . Each site i...
Embryonic stem cells have the capacity for unlimited proliferation while retaining their potential t...
The initiation and maintenance of G1 cell cycle arrest is a key feature of animal development. In th
Terminal differentiation is essential for the development and maintenance of tissues in all multi-ce...
The transition between proliferating and quiescent states must be carefully regulated to ensure that...
After each mitotic cycle, a cell either remains in the cell cycle and divides once again, or withdra...
The cellular decision governing the transition between proliferative and arrested states is crucial ...
How and when eukaryotic cells make the irrevocable commitment to divide remain central questions in ...
Terminal differentiation is essential for the development and maintenance of tissues in all multi-ce...
Growth and development of plants are driven by the continuous production of new cells at the meriste...
Growth and development of plants are driven by the continuous production of new cells at the meriste...
<div><p>Transitions between consecutive phases of the eukaryotic cell cycle are driven by the cataly...
Background: The eukaryotic cell cycle consists of four well-defined phases. During the S phase DNA i...
The germ cell lineage is our lifelong reservoir of reproductive stem cells and our mechanism for tra...
Transitions between consecutive phases of the eukaryotic cell cycle are driven by the catalytic acti...
<p>Cells can be in one of the proliferative (green regions) cell cycle phases: , , or . Each site i...
Embryonic stem cells have the capacity for unlimited proliferation while retaining their potential t...
The initiation and maintenance of G1 cell cycle arrest is a key feature of animal development. In th
Terminal differentiation is essential for the development and maintenance of tissues in all multi-ce...
The transition between proliferating and quiescent states must be carefully regulated to ensure that...
After each mitotic cycle, a cell either remains in the cell cycle and divides once again, or withdra...
The cellular decision governing the transition between proliferative and arrested states is crucial ...
How and when eukaryotic cells make the irrevocable commitment to divide remain central questions in ...
Terminal differentiation is essential for the development and maintenance of tissues in all multi-ce...
Growth and development of plants are driven by the continuous production of new cells at the meriste...
Growth and development of plants are driven by the continuous production of new cells at the meriste...
<div><p>Transitions between consecutive phases of the eukaryotic cell cycle are driven by the cataly...
Background: The eukaryotic cell cycle consists of four well-defined phases. During the S phase DNA i...
The germ cell lineage is our lifelong reservoir of reproductive stem cells and our mechanism for tra...
Transitions between consecutive phases of the eukaryotic cell cycle are driven by the catalytic acti...
<p>Cells can be in one of the proliferative (green regions) cell cycle phases: , , or . Each site i...
Embryonic stem cells have the capacity for unlimited proliferation while retaining their potential t...
The initiation and maintenance of G1 cell cycle arrest is a key feature of animal development. In th