scholarly article | Q13442814 |
P356 | DOI | 10.1038/CDDIS.2016.266 |
P8608 | Fatcat ID | release_7sxp6zifxzcy5go5n7cw5mvsfe |
P932 | PMC publication ID | 5133962 |
P698 | PubMed publication ID | 27787521 |
P50 | author | Malgorzata Rak | Q29460560 |
Ferdinando Di Cunto | Q29460599 | ||
Etienne Simon-Loriere | Q29460611 | ||
Sandrine Passemard | Q29460618 | ||
Marco Vignuzzi | Q39190581 | ||
Laetitia Aubry | Q58246078 | ||
Ivan Molineris | Q60319513 | ||
Pierre Gressens | Q37364990 | ||
Federico T Bianchi | Q37367094 | ||
Bryan C Mounce | Q37367118 | ||
Vincent El Ghouzzi | Q37367140 | ||
P2093 | author name string | Sophie Lebon | |
Marta Gai | |||
Chiara Tocco | |||
Francesco Sgrò | |||
Gaia E Berto | |||
Gianmarco Pallavicini | |||
Alessandra MA Chiotto | |||
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Zika Virus Infection during Pregnancy in Mice Causes Placental Damage and Fetal Demise | Q24050115 | ||
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The South Pacific epidemic strain of Zika virus replicates efficiently in human epithelial A549 cells leading to IFN-β production and apoptosis induction | Q24261325 | ||
Zika Virus Depletes Neural Progenitors in Human Cerebral Organoids through Activation of the Innate Immune Receptor TLR3 | Q24261340 | ||
Zika Virus Targets Human STAT2 to Inhibit Type I Interferon Signaling | Q24261402 | ||
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Endoplasmic reticulum stress induces p53 cytoplasmic localization and prevents p53-dependent apoptosis by a pathway involving glycogen synthase kinase-3beta | Q24306430 | ||
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Human cytomegalovirus infection causes premature and abnormal differentiation of human neural progenitor cells | Q24570111 | ||
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A novel histone acetyltransferase is an integral subunit of elongating RNA polymerase II holoenzyme | Q27936754 | ||
Bioinformatics enrichment tools: paths toward the comprehensive functional analysis of large gene lists | Q28131785 | ||
DNA damage-induced phosphorylation of p53 alleviates inhibition by MDM2 | Q28254119 | ||
CEP63 deficiency promotes p53-dependent microcephaly and reveals a role for the centrosome in meiotic recombination | Q28589697 | ||
PGC-1alpha-responsive genes involved in oxidative phosphorylation are coordinately downregulated in human diabetes | Q29547229 | ||
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Highly efficient neural conversion of human ES and iPS cells by dual inhibition of SMAD signaling | Q29615601 | ||
The exon junction complex in neural development and neurodevelopmental disease. | Q30386814 | ||
Prolonged Mitosis of Neural Progenitors Alters Cell Fate in the Developing Brain | Q30696843 | ||
Tissue-specific control of midbody microtubule stability by Citron kinase through modulation of TUBB3 phosphorylation | Q30742850 | ||
Growth of the developing cerebral cortex is controlled by microRNA-7 through the p53 pathway | Q33793899 | ||
The exon junction complex component Magoh controls brain size by regulating neural stem cell division. | Q33814636 | ||
Dual Role of p53 in Innate Antiviral Immunity | Q38613932 | ||
Microcephaly and Zika virus infection | Q39404041 | ||
Hepatitis C virus NS4B induces unfolded protein response and endoplasmic reticulum overload response-dependent NF-kappaB activation | Q39821567 | ||
p53 regulates Toll-like receptor 3 expression and function in human epithelial cell lines | Q39941925 | ||
Induction of p53-dependent and mitochondria-mediated cell death pathway by dengue virus infection of human and animal cells | Q39964340 | ||
p53-mediated control of gene expression via mRNA translation during Endoplasmic Reticulum stress | Q39984297 | ||
ASK1-p38 MAPK-p47phox activation is essential for inflammatory responses during tuberculosis via TLR2-ROS signalling | Q40047410 | ||
West Nile virus capsid protein induces p53-mediated apoptosis via the sequestration of HDM2 to the nucleolus. | Q40094517 | ||
The effect of interferon-beta on mouse neural progenitor cell survival and differentiation | Q40976248 | ||
Citron-kinase, a protein essential to cytokinesis in neuronal progenitors, is deleted in the flathead mutant rat. | Q41166591 | ||
Viruses and the DNA Damage Response: Activation and Antagonism | Q41681279 | ||
Differentiation from human pluripotent stem cells of cortical neurons of the superficial layers amenable to psychiatric disease modeling and high-throughput drug screening | Q41765005 | ||
Mutations in the murine homologue of TUBB5 cause microcephaly by perturbing cell cycle progression and inducing p53-associated apoptosis | Q41926260 | ||
A Dynamic Unfolded Protein Response Contributes to the Control of Cortical Neurogenesis | Q41926959 | ||
Neuronal death resulting from targeted disruption of the Snf2 protein ATRX is mediated by p53. | Q41938609 | ||
Induction of growth arrest by a temperature-sensitive p53 mutant is correlated with increased nuclear localization and decreased stability of the protein | Q42215813 | ||
Nuclear localization is essential for the activity of p53 protein | Q57835304 | ||
Citron kinase controls abscission through RhoA and anillin | Q34208692 | ||
Tbr2 is essential for hippocampal lineage progression from neural stem cells to intermediate progenitors and neurons | Q34272444 | ||
Microcephaly | Q34341490 | ||
Multiple facets of histone variant H2AX: a DNA double-strand-break marker with several biological functions | Q35171563 | ||
De novo nonsense mutations in KAT6A, a lysine acetyl-transferase gene, cause a syndrome including microcephaly and global developmental delay | Q35221908 | ||
Aspm sustains postnatal cerebellar neurogenesis and medulloblastoma growth in mice. | Q36462666 | ||
What primary microcephaly can tell us about brain growth. | Q36531152 | ||
Long Neural Genes Harbor Recurrent DNA Break Clusters in Neural Stem/Progenitor Cells. | Q36577607 | ||
Citron kinase controls a molecular network required for midbody formation in cytokinesis | Q36932255 | ||
Microcephaly syndromes | Q36990888 | ||
PKR, a p53 target gene, plays a crucial role in the tumor-suppressor function of p53 | Q37194715 | ||
Conditional loss of Dicer disrupts cellular and tissue morphogenesis in the cortex and hippocampus | Q37352375 | ||
Investigating microcephaly | Q38118290 | ||
Congenital microcephaly | Q38210879 | ||
Molecular and cellular basis of autosomal recessive primary microcephaly | Q38303675 | ||
Elongator, a conserved complex required for wobble uridine modifications in eukaryotes | Q38326905 | ||
What next-generation sequencing (NGS) technology has enabled us to learn about primary autosomal recessive microcephaly (MCPH). | Q38518978 | ||
P433 | issue | 10 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Zika virus | Q202864 |
microcephaly | Q431643 | ||
genotoxicity | Q1009245 | ||
P5008 | on focus list of Wikimedia project | WikiProject Zika Corpus | Q54439832 |
P304 | page(s) | e2440 | |
P577 | publication date | 2016-10-27 | |
P1433 | published in | Cell Death and Disease | Q2197222 |
P1476 | title | ZIKA virus elicits P53 activation and genotoxic stress in human neural progenitors similar to mutations involved in severe forms of genetic microcephaly and p53 | |
P478 | volume | 7 |
Q51336602 | A Fluorescent Cell-Based System for Imaging Zika Virus Infection in Real-Time. |
Q96429893 | Acute Lengthening of Progenitor Mitosis Influences Progeny Fate during Cortical Development in vivo |
Q29365210 | Adaptive Immune Responses to Zika Virus Are Important for Controlling Virus Infection and Preventing Infection in Brain and Testes |
Q27980653 | Advances in Zika Virus Research: Stem Cell Models, Challenges, and Opportunities |
Q30145552 | Advances in research on Zika virus |
Q38157065 | An Integrative Analysis Reveals a Central Role of P53 Activation via MDM2 in Zika Virus Infection Induced Cell Death |
Q101470490 | An allomaltol derivative triggers distinct death pathways in luminal a and triple-negative breast cancer subtypes |
Q59094567 | An orthogonal proteomic survey uncovers novel Zika virus host factors |
Q112076734 | Apoptosis during ZIKA Virus Infection: Too Soon or Too Late? |
Q59795032 | Breaking Bad: How Viruses Subvert the Cell Cycle |
Q90226047 | Chasing Intracellular Zika Virus Using Proteomics |
Q108890771 | Comparison of the Impact of Zika and Dengue Virus Infection, and Other Acute Illnesses of Unidentified Origin on Cognitive Functions in a Prospective Cohort in Chiapas Mexico |
Q28950433 | Convergence and divergence between the transcriptional responses to Zika virus infection and prenatal irradiation |
Q99200987 | Host cell p53 associates with the feline calicivirus major viral capsid protein VP1, the protease-polymerase NS6/7, and the double-stranded RNA playing a role in virus replication |
Q30145540 | How does Zika virus cause microcephaly? |
Q38158274 | Immune Cell Dynamics in Rhesus Macaques Infected with a Brazilian Strain of Zika Virus |
Q55084384 | Immunoprofiles of human Sertoli cells infected with Zika virus reveals unique insights into host-pathogen crosstalk. |
Q110765216 | Inhibiting microcephaly genes as alternative to microtubule targeting agents to treat brain tumors |
Q96226852 | Ionising Radiation Induces Promoter DNA Hypomethylation and Perturbs Transcriptional Activity of Genes Involved in Morphogenesis during Gastrulation in Zebrafish |
Q50111291 | Media coverage of the Zika crisis in Brazil: The construction of a 'war' frame that masked social and gender inequalities. |
Q110771053 | Non-Structural Protein 5 of Zika Virus Interacts with p53 in Human Neural Progenitor Cells and Induces p53-Mediated Apoptosis |
Q104791388 | Novel modulators of p53-signaling encoded by unknown genes of emerging viruses |
Q90191932 | PARP-1 mediated cell death is directly activated by ZIKV infection |
Q66680444 | Precision Revisited: Targeting Microcephaly Kinases in Brain Tumors |
Q55334036 | Proteomic Analysis of Zika Virus Infected Primary Human Fetal Neural Progenitors Suggests a Role for Doublecortin in the Pathological Consequences of Infection in the Cortex. |
Q61053715 | Proteomic analysis of monkey kidney LLC-MK2 cells infected with a Thai strain Zika virus |
Q92377595 | Review of neuroimaging findings in congenital Zika virus syndrome and its relation to the time of infection |
Q56337423 | Ribosomal biogenesis as an emerging target of neurodevelopmental pathologies |
Q41918921 | Self-Organized Cerebral Organoids with Human-Specific Features Predict Effective Drugs to Combat Zika Virus Infection |
Q90199626 | Spatiotemporal Gradient of Cortical Neuron Death Contributes to Microcephaly in Knock-In Mouse Model of Ligase 4 Syndrome |
Q57292762 | Strain-Dependent Consequences of Zika Virus Infection and Differential Impact on Neural Development |
Q47304409 | Stress-induced unfolded protein response contributes to Zika virus-associated microcephaly |
Q63246282 | The Unfolded Protein Response: A Key Player in Zika Virus-Associated Congenital Microcephaly |
Q91038720 | The ZIKA Virus Delays Cell Death Through the Anti-Apoptotic Bcl-2 Family Proteins |
Q92802470 | Update on the Animal Models and Underlying Mechanisms for ZIKV-Induced Microcephaly |
Q38156781 | Viral Hijacking of Formins in Neurodevelopmental Pathologies |
Q92376545 | Zika Virus Infection Induces DNA Damage Response in Human Neural Progenitors That Enhances Viral Replication |
Q112076594 | Zika Virus Overview: Transmission, Origin, Pathogenesis, Animal Model and Diagnosis |
Q110764475 | Zika Virus and Neuropathogenesis: The Unanswered Question of Which Strain Is More Prone to Causing Microcephaly and Other Neurological Defects |
Q56343953 | Zika Virus and the Metabolism of Neuronal Cells |
Q40037723 | Zika Virus: What Have We Learnt Since the Start of the Recent Epidemic? |
Q47198836 | Zika epidemic: a step towards understanding the infectious causes of microcephaly? |
Q110771002 | Zika virus dysregulates the expression of astrocytic genes involved in neurodevelopment |
Q41918070 | Zika virus infection dysregulates human neural stem cell growth and inhibits differentiation into neuroprogenitor cells |
Q47249024 | Zika virus: The transboundary pathogen from mosquito and updates |
Q55084390 | Zika-virus-infected human full-term placental explants display pro-inflammatory responses and undergo apoptosis. |
Q57449847 | p53 Deletion Rescues Lethal Microcephaly in a Mouse Model with Neural Stem Cell Abscission Defects |
Q57288790 | p53 deletion rescues lethal microcephaly in a mouse model with neural stem cell abscission defects |
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