Add to ORKGNPAT is an in vivo substrate of cyclin E-Cdk2 kinase and is thought to play a critical role in coordinated transcriptional activation of histone genes during the G(1)/S-phase transition and in S-phase entry in mammalian cells. Here we show that NPAT transcription is up-regulated at the G(1)/S-phase boundary in growth-stimulated cells and that the NPAT promoter responds to activation by E2F proteins. We demonstrate that endogenous E2F proteins interact with the promoter of the NPAT gene in vivo and that induced expression of E2F1 stimulates NPAT mRNA expression, supporting the idea that the expression of NPAT is regulated by E2F. Consistently, we find that the E2F sites in the NPAT promoter are required for its activation during the G(1)/S-p...
International audienceCyclin E is classified as a putative G1 cyclin on the basis of its cyclic patt...
Rapid self-renewal of human embryonic stem (ES) cells (NIH designation WA01 and WA09) is accommodate...
Competency for DNA replication is functionally coupled to the activation of histone gene expression ...
Thesis (Ph.D.)--University of Rochester. School of Medicine & Dentistry. Dept. of Molecular Biology,...
AbstractCommitment of mammalian cells to enter S phase enables the transcription factor E2F-1 to act...
Regulation of transcription during the cell-cycle is under the control of E2 factors (E2Fs), often i...
Cell cycle progression beyond the G1/S phase transition requires the activation of a transcription c...
Human embryonic stem (ES) cells have an expedited cell cycle ( approximately 15 h) due to an abbrevi...
At the G(1)/S phase cell cycle transition, multiple histone genes are expressed to ensure that newly...
AbstractBackground: The transition from G1 to S phase is the key regulatory step in the mammalian ce...
The E2F family of transcription factors plays a central role in regulating cellular proliferation by...
E2F transcriptional regulators control human-cell proliferation by repressing and activating the tra...
The mammalian nuclear protein E2F-1 has recently been cloned based on its ability to bind the retino...
Terminal differentiation exerts a remarkably tight control on cell proliferation. However, the oncog...
We show that the centrosome- and microtubule-regulating protein γ-tubulin interacts with E2 promoter...
International audienceCyclin E is classified as a putative G1 cyclin on the basis of its cyclic patt...
Rapid self-renewal of human embryonic stem (ES) cells (NIH designation WA01 and WA09) is accommodate...
Competency for DNA replication is functionally coupled to the activation of histone gene expression ...
Thesis (Ph.D.)--University of Rochester. School of Medicine & Dentistry. Dept. of Molecular Biology,...
AbstractCommitment of mammalian cells to enter S phase enables the transcription factor E2F-1 to act...
Regulation of transcription during the cell-cycle is under the control of E2 factors (E2Fs), often i...
Cell cycle progression beyond the G1/S phase transition requires the activation of a transcription c...
Human embryonic stem (ES) cells have an expedited cell cycle ( approximately 15 h) due to an abbrevi...
At the G(1)/S phase cell cycle transition, multiple histone genes are expressed to ensure that newly...
AbstractBackground: The transition from G1 to S phase is the key regulatory step in the mammalian ce...
The E2F family of transcription factors plays a central role in regulating cellular proliferation by...
E2F transcriptional regulators control human-cell proliferation by repressing and activating the tra...
The mammalian nuclear protein E2F-1 has recently been cloned based on its ability to bind the retino...
Terminal differentiation exerts a remarkably tight control on cell proliferation. However, the oncog...
We show that the centrosome- and microtubule-regulating protein γ-tubulin interacts with E2 promoter...
International audienceCyclin E is classified as a putative G1 cyclin on the basis of its cyclic patt...
Rapid self-renewal of human embryonic stem (ES) cells (NIH designation WA01 and WA09) is accommodate...
Competency for DNA replication is functionally coupled to the activation of histone gene expression ...