CPEB regulation of human cellular senescence, energy metabolism, and p53 mRNA translation - sprookjes - yvandenbroek - TriplyDB

CPEB regulation of human cellular senescence, energy metabolism, and p53 mRNA translation

CPEB regulation of human cellular senescence, energy metabolism, and p53 mRNA translation

http://www.wikidata.org/entity/Q34920958

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Pyruvate dehydrogenase kinase as a novel therapeutic target in oncology Potential roles for prions and protein-only inheritance in cancer Global Analysis of CPEBs Reveals Sequential and Non-Redundant Functions in Mitotic Cell Cycle Cytoplasmic polyadenylation element binding protein deficiency stimulates PTEN and Stat3 mRNA translation and induces hepatic insulin resistance Identification of a conserved interface between PUF and CPEB proteins New Phosphospecific Antibody Reveals Isoform-Specific Phosphorylation of CPEB3 Protein Cyclin B1 expression regulated by cytoplasmic polyadenylation element binding protein in astrocytes The poly(rC)-binding protein alphaCP2 is a noncanonical factor in X. laevis cytoplasmic polyadenylation.Parthenogenic blastocysts derived from cumulus-free in vitro matured human oocytes.CPEB1 promotes differentiation and suppresses EMT in mammary epithelial cells Tumor suppressor p53 and estrogen receptors in nuclear-mitochondrial communication.Poly(A)-tail profiling reveals an embryonic switch in translational control.Genome-wide unmasking of epigenetically silenced genes in lung adenocarcinoma from smokers and never smokers Cellular senescence and protein degradation: breaking down cancer Specificity factors in cytoplasmic polyadenylation Efficient translation of Dnmt1 requires cytoplasmic polyadenylation and Musashi binding elements The CPEB protein Orb2 has multiple functions during spermatogenesis in Drosophila melanogaster.Essential role for the interaction between hnRNP H/F and a G quadruplex in maintaining p53 pre-mRNA 3'-end processing and function during DNA damage.CPEB regulation of TAK1 synthesis mediates cytokine production and the inflammatory immune response Cytoplasmic polyadenylation element binding protein is a conserved target of tumor suppressor HRPT2/CDC73.Mitochondrial dysfunction impairs tumor suppressor p53 expression/function.CPEB4 knockout mice exhibit normal hippocampus-related synaptic plasticity and memory.CPEB-mediated ZO-1 mRNA localization is required for epithelial tight-junction assembly and cell polarity.p53, aerobic metabolism, and cancer.Translational control in oocyte development Signaling pathway-based identification of extensive prognostic gene signatures for lung adenocarcinoma.Destabilization of microRNAs in human cells by 3' deadenylation mediated by PARN and CUGBP1.Cooperativity in RNA-protein interactions: global analysis of RNA binding specificity An unusual two-step control of CPEB destruction by Pin1.Translational control in cancer etiology.Translational control of mitochondrial energy production mediates neuron morphogenesis.CPEB1 mediates epithelial-to-mesenchyme transition and breast cancer metastasis The WEE1 regulators CPEB1 and miR-15b switch from inhibitor to activators at G2/M A Multi-Step miRNA-mRNA Regulatory Network Construction Approach Identifies Gene Signatures Associated with Endometrioid Endometrial Carcinoma.RNA-binding protein CPEB1 remodels host and viral RNA landscapes.Altered splicing leads to reduced activation of CPEB3 in high-grade gliomas.Role of 3'-untranslated region translational control in cancer development, diagnostics and treatment.Translational control in cellular and developmental processes.Translational control by changes in poly(A) tail length: recycling mRNAs.Dysregulated glycolysis as an oncogenic event.

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CPEB regulation of human cellular senescence, energy metabolism, and p53 mRNA translation

http://www.wikidata.org/entity/Q34920958

description

2008 nî lūn-bûn

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2008 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած

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2008 թվականի դեկտեմբերին հրատարակված գիտական հոդված

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2008年の論文

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2008年論文

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2008年論文

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2008年論文

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2008年論文

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2008年論文

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2008年论文

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name

CPEB regulation of human cellular senescence, energy metabolism, and p53 mRNA translation

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CPEB regulation of human cellular senescence, energy metabolism, and p53 mRNA translation

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CPEB regulation of human cellular senescence, energy metabolism, and p53 mRNA translation

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CPEB regulation of human cellular senescence, energy metabolism, and p53 mRNA translation

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CPEB regulation of human cellular senescence, energy metabolism, and p53 mRNA translation

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CPEB regulation of human cellular senescence, energy metabolism, and p53 mRNA translation

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CPEB regulation of human cellular senescence, energy metabolism, and p53 mRNA translation

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CPEB regulation of human cellular senescence, energy metabolism, and p53 mRNA translation

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CPEB regulation of human cellular senescence, energy metabolism, and p53 mRNA translation

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Genes & Development

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CPEB regulation of human cellular senescence, energy metabolism, and p53 mRNA translation

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P2093

David M Burns

http://www.w3.org/2001/XMLSchema#string

Joel D Richter

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P2860

A PtdIns4,5P2-regulated nuclear poly(A) polymerase controls expression of select mRNAs

Regulation of cellular response to oncogenic and oxidative stress by Seladin-1

Crucial role of p53-dependent cellular senescence in suppression of Pten-deficient tumorigenesis

p53 regulates mitochondrial respiration

Circularization of mRNA by eukaryotic translation initiation factors

Why do cancers have high aerobic glycolysis?

Cell-cycle related regulation of poly(A) polymerase by phosphorylation

Regulated CPEB phosphorylation during meiotic progression suggests a mechanism for temporal control of maternal mRNA translation

CPEB-mediated cytoplasmic polyadenylation and the regulation of experience-dependent translation of alpha-CaMKII mRNA at synapses

Germ cell differentiation and synaptonemal complex formation are disrupted in CPEB knockout mice

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3449-3460

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scholarly article

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10.1101/GAD.1697808

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24

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22

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2008-12-01T00:00:00Z

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23784999

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19141477

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2607074

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