Abstract Formation of the central nervous system requires a period of extensive progenitor cell proliferation, accompanied or closely followed by differentiation; the balance between these two processes in various regions of the central nervous system gives rise to differential growth and cellular diversity. The correlation between cell cycle lengthening and differentiation has been reported across several types of cell lineage and from diverse model organisms, both in vivo and in vitro. Furthermore, different cell fates might be determined during different phases of the preceding cell cycle, indicating direct cell cycle influences on both early lineage commitment and terminal cell fate decisions. Significant advances have been made in the ...
The cerebral cortex is a highly organized structure whose development depends on diverse progenitor ...
During mammalian cerebral cortex development, the G1-phase of the cell cycle is known to lengthen, b...
The general mechanisms that control the cell cycle in mammalian cells have been studied in depth and...
Formation of the central nervous system requires a period of extensive progenitor cell proliferation...
AbstractFor a long time, it has been understood that neurogenesis is linked to proliferation and thu...
Cell cycle proteins are critical regulators of proliferation in dividing cells. Paradoxically, accum...
The central nervous system (CNS) exhibits an extraordinary diversity of neurons, with the right cell...
The switch of neural stem and progenitor cells from proliferation to differentiation during developm...
Abstract Background During the development of the nervous system, neural progenitor cells can either...
Complex physiopathological relationships have been proven to exist between two of the body's most vi...
During embryonic development, cells must divide to produce appropriate numbers, but later must exit ...
peer reviewedThe cerebral cortex is a highly organized structure whose development depends on divers...
Progenitor cells exist in two distinct phases during development with different forms of division: p...
How do precursor cells know when it is time to stop dividing and differentiate. The phenomenon of li...
The intricate balance between proliferation and differentiation is of fundamental importance in the ...
The cerebral cortex is a highly organized structure whose development depends on diverse progenitor ...
During mammalian cerebral cortex development, the G1-phase of the cell cycle is known to lengthen, b...
The general mechanisms that control the cell cycle in mammalian cells have been studied in depth and...
Formation of the central nervous system requires a period of extensive progenitor cell proliferation...
AbstractFor a long time, it has been understood that neurogenesis is linked to proliferation and thu...
Cell cycle proteins are critical regulators of proliferation in dividing cells. Paradoxically, accum...
The central nervous system (CNS) exhibits an extraordinary diversity of neurons, with the right cell...
The switch of neural stem and progenitor cells from proliferation to differentiation during developm...
Abstract Background During the development of the nervous system, neural progenitor cells can either...
Complex physiopathological relationships have been proven to exist between two of the body's most vi...
During embryonic development, cells must divide to produce appropriate numbers, but later must exit ...
peer reviewedThe cerebral cortex is a highly organized structure whose development depends on divers...
Progenitor cells exist in two distinct phases during development with different forms of division: p...
How do precursor cells know when it is time to stop dividing and differentiate. The phenomenon of li...
The intricate balance between proliferation and differentiation is of fundamental importance in the ...
The cerebral cortex is a highly organized structure whose development depends on diverse progenitor ...
During mammalian cerebral cortex development, the G1-phase of the cell cycle is known to lengthen, b...
The general mechanisms that control the cell cycle in mammalian cells have been studied in depth and...