Cong Chen scite author profile

Nanog is a master pluripotency factor of embryonic stem cells (ESCs). Stable expression of Nanog is essential to maintain the stemness of ESCs. However, Nanog is a short-lived protein and quickly degraded by the ubiquitin-dependent proteasome system. Here we report that the deubiquitinase USP21 interacts with, deubiquitinates and stabilizes Nanog, and therefore maintains the protein level of Nanog in mouse ESCs (mESCs). Loss of USP21 results in Nanog degradation, mESCs differentiation and reduces somatic cell reprogramming efficiency. USP21 is a transcriptional target of the LIF/STAT3 pathway and is downregulated upon differentiation. Moreover, differentiation cues promote ERK-mediated phosphorylation and dissociation of USP21 from Nanog, thus leading to Nanog degradation. In addition, USP21 is recruited to gene promoters by Nanog to deubiquitinate histone H2A at K119 and thus facilitates Nanog-mediated gene expression. Together, our findings provide a regulatory mechanism by which extrinsic signals regulate mESC fate via deubiquitinating Nanog.

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Origin of Two Larmor Frequencies in the Coherent Spin Dynamics of Colloidal CdSe Quantum Dots Revealed by Controlled Charging

Yakovlev

Liang

et al. 2019

J. Phys. Chem. Lett.

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Coherent spin dynamics in colloidal CdSe quantum dots (QDs) typically show two spin components with different Larmor frequencies, whose origin is an open question. We exploit the photocharging approach to identify their origin and find that surface states play a key role in the appearance of the spin signals. By controlling the photocharging with electron or hole acceptors, we show that the specific spin component can be enhanced by the choice of acceptor type. In core/shell CdSe/ZnS QDs, the spin signals are significantly weaker. Our results exclude the neutral exciton as the spin origin and suggest that both Larmor frequencies are related to the coherent spin precession of electrons in photocharged QDs. The lower frequency is due to the electron confined in the middle of the QD, and the higher frequency to the electron additionally localized in the vicinity of the surface.

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AMPK Promotes SPOP-Mediated NANOG Degradation to Regulate Prostate Cancer Cell Stemness

et al. 2019

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Graphical AbstractHighlights d SPOP targets NANOG for degradation d Cancer-associated SPOP mutants lost the ability to degrade NANOG d NANOG stability is regulated by AMPK-BRAF-mediated phosphorylation d SPOP represses prostate cancer stemness via targeting NANOG SUMMARY NANOG is an essential transcriptional factor for the maintenance of embryonic stem cells (ESCs) and cancer stem cells (CSCs) in prostate cancer (PCa). However, the regulation mechanism of NANOG protein stability in cancer progression is still elusive.Here, we report that NANOG is degraded by SPOP, a frequently mutated tumor suppressor of PCa. Cancer-associated mutations of SPOP or the mutation of NANOG at S68Y abrogates the SPOP-mediated NANOG degradation, leading to elevated PCa cancer stemness and poor prognosis. In addition, SPOPmediated NANOG degradation is controlled by the AMPK-BRAF signal axis through the phosphorylation of NANOG at Ser68, which blocked the interaction between SPOP and NANOG. Thus, our study provides a regulation mechanism of PCa stemness controlled by phosphorylation-mediated NANOG stability, which helps to identify novel drug targets and improve therapeutic strategy for PCa.

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Empirical Evidence of Tags Supporting High-Level Awareness

Chen

Zhang

Itoh

2012

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Schedulability analysis for real-time mobile systems (S)

Chen¹,

Chen²,

Jiang³

et al. 2019

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Autonomous driving systems are complex real-time mobile systems. To guarantee their safety and security, the mobile objects (agents) in these systems must be isolated from each other so that they do not collide with each other. Since isolation means two or more mobile objects cannot be located in the same area at the same time, a scheduling policy is required to control the movement of these mobile objects. However, traditional scheduling theories are based on task scheduling which is coarsegrained and cannot be directly used for fine-grained isolation controls. In this paper, we first propose an event-based formal model called a time dependency structure which is used to model and analyze real-time mobile systems. Then, an event-based schedule is defined. Finally, we analyze the schedulability of isolation-that is, checking whether a given schedule ensures the isolation relationship among mobile objects or not.

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Cong Chen

The deubiquitinase USP21 maintains the stemness of mouse embryonic stem cells via stabilization of Nanog

Origin of Two Larmor Frequencies in the Coherent Spin Dynamics of Colloidal CdSe Quantum Dots Revealed by Controlled Charging

AMPK Promotes SPOP-Mediated NANOG Degradation to Regulate Prostate Cancer Cell Stemness

Empirical Evidence of Tags Supporting High-Level Awareness

Schedulability analysis for real-time mobile systems (S)

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