| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2020NatCo..11..964F |
| P356 | DOI | 10.1038/S41467-020-14762-7 |
| P932 | PMC publication ID | 7031237 |
| P698 | PubMed publication ID | 32075970 |
| P50 | author | Katrina L Adams | Q56506798 |
| Joseph Scafidi | Q60608993 | ||
| Evan Z Goldstein | Q88869488 | ||
| Kazue Hashimoto-Torii | Q89790886 | ||
| P2093 | author name string | Vittorio Gallo | |
| Jeffrey L Dupree | |||
| Beata Jablonska | |||
| Thomas A Forbes | |||
| Yuka Imamura | |||
| P2860 | cites work | Neural consequences of environmental enrichment | Q22337282 |
| Early developmental intervention programs post hospital discharge to prevent motor and cognitive impairments in preterm infants | Q24245488 | ||
| Silencing or knocking out the Na(+)/Ca(2+) exchanger-3 (NCX3) impairs oligodendrocyte differentiation. | Q24338900 | ||
| Myelin gene regulatory factor is a critical transcriptional regulator required for CNS myelination | Q24657511 | ||
| Different Mechanisms Must Be Considered to Explain the Increase in Hippocampal Neural Precursor Cell Proliferation by Physical Activity | Q26740636 | ||
| Actin filament turnover drives leading edge growth during myelin sheath formation in the central nervous system. | Q27314615 | ||
| Myelin gene regulatory factor is required for maintenance of myelin and mature oligodendrocyte identity in the adult CNS | Q28274507 | ||
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| Moderated estimation of fold change and dispersion for RNA-seq data with DESeq2 | Q29547403 | ||
| HTSeq--a Python framework to work with high-throughput sequencing data | Q29614489 | ||
| STAR: ultrafast universal RNA-seq aligner | Q29615052 | ||
| A translational profiling approach for the molecular characterization of CNS cell types | Q29615252 | ||
| More hippocampal neurons in adult mice living in an enriched environment | Q29617733 | ||
| FGF-dependent midline-derived progenitor cells in hypothalamic infundibular development | Q30500400 | ||
| Rapid production of new oligodendrocytes is required in the earliest stages of motor-skill learning | Q30806734 | ||
| The transcription factors Sox10 and Myrf define an essential regulatory network module in differentiating oligodendrocytes | Q32874749 | ||
| Tests to assess motor phenotype in mice: a user's guide | Q33464903 | ||
| Regulation of oligodendrocyte development | Q33595751 | ||
| VCAM1 acts in parallel with CD69 and is required for the initiation of oligodendrocyte myelination | Q33813417 | ||
| Characterization of progressive motor deficits in mice transgenic for the human Huntington's disease mutation. | Q33857802 | ||
| Neuronal activity promotes oligodendrogenesis and adaptive myelination in the mammalian brain. | Q33897298 | ||
| Cell type-specific mRNA purification by translating ribosome affinity purification (TRAP). | Q33915619 | ||
| Neurobiology of premature brain injury | Q33931878 | ||
| Intranasal epidermal growth factor treatment rescues neonatal brain injury | Q33931902 | ||
| THE EFFECTS OF AN ENRICHED ENVIRONMENT ON THE HISTOLOGY OF THE RAT CEREBRAL CORTEX. | Q33971664 | ||
| Oligodendroglia metabolically support axons and contribute to neurodegeneration. | Q34032818 | ||
| White matter and cognition in adults who were born preterm | Q34055449 | ||
| A critical period for social experience-dependent oligodendrocyte maturation and myelination | Q34194791 | ||
| Motor skill learning induces changes in white matter microstructure and myelination | Q34391861 | ||
| Neurobehavioral deficits in premature graduates of intensive care--potential medical and neonatal environmental risk factors | Q34455497 | ||
| Daam2-PIP5K is a regulatory pathway for Wnt signaling and therapeutic target for remyelination in the CNS | Q34466406 | ||
| Functional genomic analysis of oligodendrocyte differentiation. | Q34576676 | ||
| Evidence for catch-up in cognition and receptive vocabulary among adolescents born very preterm | Q35136025 | ||
| Environmental enrichment rescues postnatal neurogenesis defect in the male and female Ts65Dn mouse model of Down syndrome | Q35661604 | ||
| Arrested preoligodendrocyte maturation contributes to myelination failure in premature infants | Q35727891 | ||
| CNS myelin wrapping is driven by actin disassembly | Q35901012 | ||
| Characterization of Behavioral, Neuropathological, Brain Metabolic and Key Molecular Changes in zQ175 Knock-In Mouse Model of Huntington's Disease | Q35918115 | ||
| Multiple sensitive periods in human visual development: evidence from visually deprived children | Q36072913 | ||
| Environmental enrichment increases the GFAP+ stem cell pool and reverses hypoxia-induced cognitive deficits in juvenile mice | Q36101542 | ||
| Differentiation and death of premyelinating oligodendrocytes in developing rodent brain | Q36273807 | ||
| White matter injury in the preterm infant: pathology and mechanisms | Q36378391 | ||
| Oligodendrocyte regeneration after neonatal hypoxia requires FoxO1-mediated p27Kip1 expression | Q36453502 | ||
| Plasticity in gray and white: neuroimaging changes in brain structure during learning | Q36864561 | ||
| The cytoskeleton in oligodendrocytes. Microtubule dynamics in health and disease | Q37023835 | ||
| Hypoxia-induced developmental delays of inhibitory interneurons are reversed by environmental enrichment in the postnatal mouse forebrain | Q37093872 | ||
| Reduced EGFR signaling in progenitor cells of the adult subventricular zone attenuates oligodendrogenesis after demyelination | Q37227164 | ||
| Abnormal brain maturation in preterm neonates associated with adverse developmental outcomes | Q37392571 | ||
| Alterations in brain structure and neurodevelopmental outcome in preterm infants hospitalized in different neonatal intensive care unit environments. | Q37412712 | ||
| Modeling premature brain injury and recovery. | Q37441066 | ||
| The key roles of elongases and desaturases in mammalian fatty acid metabolism: Insights from transgenic mice. | Q37657815 | ||
| Perinatal brain damage in children: neuroplasticity, early intervention, and molecular mechanisms of recovery | Q37864752 | ||
| Nature or nurture: a systematic review of the effect of socio-economic status on the developmental and cognitive outcomes of children born preterm | Q38058435 | ||
| Fgfr1 is required for cortical regeneration and repair after perinatal hypoxia | Q38357013 | ||
| Oligodendrocytes: Myelination and Axonal Support | Q38534982 | ||
| Oligodendrocyte Development and Myelination in Neurodevelopment: Molecular Mechanisms in Health and Disease | Q38560934 | ||
| Myelin plasticity in the central nervous system | Q38568475 | ||
| Impaired oligodendrocyte maturation in preterm infants: Potential therapeutic targets | Q38665835 | ||
| Myelin regulatory factor drives remyelination in multiple sclerosis | Q38718081 | ||
| Neurofilaments and Neurofilament Proteins in Health and Disease | Q39217671 | ||
| Natural-enriched environments lead to enhanced environmental engagement and altered neurobiological resilience | Q39291663 | ||
| Glycolytic oligodendrocytes maintain myelin and long-term axonal integrity | Q39492965 | ||
| Vulnerability of premyelinating oligodendrocytes to white-matter damage in neonatal brain injury | Q41453076 | ||
| Effects of Environmental Enrichment on Doublecortin and BDNF Expression along the Dorso-Ventral Axis of the Dentate Gyrus. | Q42173293 | ||
| White matter development during childhood and adolescence: a cross-sectional diffusion tensor imaging study | Q42475376 | ||
| Nontransformed rabbit liver glucocorticoid receptor: purification, characterization and transformation | Q43922084 | ||
| Functional recovery of callosal axons following demyelination: a critical window | Q46182431 | ||
| All Wrapped Up: Environmental Effects on Myelination | Q48138363 | ||
| Enriched environment promotes adult neural progenitor cell mobilization in mouse demyelination models | Q48273782 | ||
| Expression of the green fluorescent protein in the oligodendrocyte lineage: a transgenic mouse for developmental and physiological studies | Q48458691 | ||
| Motor skill learning requires active central myelination. | Q48482406 | ||
| Voluntary Wheel Running Reverses the Decrease in Subventricular Zone Neurogenesis Caused by Corticosterone. | Q48632525 | ||
| Prenatal and Early Postnatal Environmental Enrichment Reduce Acute Cell Death and Prevent Neurodevelopment and Memory Impairments in Rats Submitted to Neonatal Hypoxia Ischemia. | Q48802591 | ||
| Late oligodendrocyte progenitors coincide with the developmental window of vulnerability for human perinatal white matter injury. | Q49071435 | ||
| A new mechanism of nervous system plasticity: activity-dependent myelination. | Q50548732 | ||
| A functional role for EGFR signaling in myelination and remyelination. | Q50674097 | ||
| Brain injury in premature neonates: A primary cerebral dysmaturation disorder? | Q50680469 | ||
| Early experience alters brain function and structure. | Q52091042 | ||
| Myelination and behaviour of tenascin-C null transgenic mice. | Q52174147 | ||
| Direction-specific improvement in motion discrimination. | Q52258245 | ||
| Environmental enrichment effects on synaptic and cellular physiology of hippocampal neurons. | Q52596326 | ||
| Prefrontal cortex NG2 glia undergo a developmental switch in their responsiveness to exercise. | Q52641072 | ||
| Triphasic spikes in the EEG due to profound electrolyte imbalance. | Q54539798 | ||
| Innervation of the hamster Harderian gland | Q67273903 | ||
| In vitro and in vivo studies on antithrombogenicity of poly(propylene oxide) segmented nylon 610 in relation to its crystalline-amorphous micpostructure | Q68483507 | ||
| The last nurse | Q69673153 | ||
| Dimorphic (transitional-anaplastic) ductal cancer of the prostate | Q70200273 | ||
| Environmental enrichment cognitive neuroprotection in an experimental model of cerebral ischemia: biochemical and molecular aspects | Q88442676 | ||
| P4510 | describes a project that uses | ImageJ | Q1659584 |
| P433 | issue | 1 | |
| P304 | page(s) | 964 | |
| P577 | publication date | 2020-02-19 | |
| P1433 | published in | Nature Communications | Q573880 |
| P1476 | title | Environmental enrichment ameliorates perinatal brain injury and promotes functional white matter recovery | |
| P478 | volume | 11 |
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