scholarly article | Q13442814 |
P50 | author | Rudolf Jaenisch | Q90073 |
Ulrich Dirnagl | Q27870042 | ||
P2093 | author name string | M Endres | |
M A Moskowitz | |||
D Biniszkiewicz | |||
A Meisel | |||
S Namura | |||
A Lipski | |||
K Prass | |||
K Ruscher | |||
P2860 | cites work | Transcriptional repression by the methyl-CpG-binding protein MeCP2 involves a histone deacetylase complex | Q24324026 |
Targeted mutation of the DNA methyltransferase gene results in embryonic lethality | Q28131773 | ||
Cloning and characterization of a family of novel mammalian DNA (cytosine-5) methyltransferases | Q28507226 | ||
Methylated DNA and MeCP2 recruit histone deacetylase to repress transcription | Q29547568 | ||
Role for DNA methylation in genomic imprinting | Q29618669 | ||
A mammalian protein with specific demethylase activity for mCpG DNA. | Q33853552 | ||
5-Methylcytosine in eukaryotic DNA. | Q34252459 | ||
Glutamate neurotoxicity and diseases of the nervous system | Q34560997 | ||
Cytosine deaminations catalyzed by DNA cytosine methyltransferases are unlikely to be the major cause of mutational hot spots at sites of cytosine methylation in Escherichia coli | Q35059178 | ||
The essentials of DNA methylation | Q35326024 | ||
DNA methylation and genetic instability in colorectal cancer cells | Q36049856 | ||
DNA methylation and development | Q36581357 | ||
Complementation of methylation deficiency in embryonic stem cells by a DNA methyltransferase minigene | Q36685637 | ||
Abnormal patterns of DNA methylation in human neoplasia: potential consequences for tumor progression | Q36928327 | ||
DNA methylation is a reversible biological signal | Q37197626 | ||
Oxidative damage to the c-fos gene and reduction of its transcription after focal cerebral ischemia | Q37259819 | ||
Damage, repair, and mutagenesis in nuclear genes after mouse forebrain ischemia-reperfusion | Q37263073 | ||
Limited up-regulation of DNA methyltransferase in human colon cancer reflecting increased cell proliferation. | Q37338914 | ||
DNA methylation: evolution of a bacterial immune function into a regulator of gene expression and genome structure in higher eukaryotes | Q37581127 | ||
Dna Methylation in Eukaryote | Q40105518 | ||
DNA methylation and gene activity | Q40137033 | ||
CpG islands and genes | Q40406688 | ||
Alterations in DNA methylation may play a variety of roles in carcinogenesis | Q40410595 | ||
Trichostatin A and trapoxin: novel chemical probes for the role of histone acetylation in chromatin structure and function | Q40547910 | ||
DNA methylation and genomic imprinting | Q40754526 | ||
DNA methylation errors and cancer. | Q41000721 | ||
The role of DNA methylation in cancer genetic and epigenetics | Q41291310 | ||
Mutagenic and epigenetic effects of DNA methylation | Q41439628 | ||
Influence of oxygen radical injury on DNA methylation. | Q41439646 | ||
Gene expression induced by cerebral ischemia: an apoptotic perspective | Q41589230 | ||
Structure of the DNA of bacteriophage phiX174. VII. Methylation | Q43577533 | ||
S-adenosyl-L-methionine protects the hippocampal CA1 neurons from the ischemic neuronal death in rat. | Q44002027 | ||
DNA methylation models histone acetylation | Q44585032 | ||
Expression of DNA methyltransferase gene in mature and immature neurons as well as proliferating cells in mice | Q48149199 | ||
Prolonged therapeutic window for ischemic brain damage caused by delayed caspase activation | Q48373661 | ||
Detection of excision nuclease in cell-free extracts from the adult mammalian brain | Q48423823 | ||
Attenuation of delayed neuronal death after mild focal ischemia in mice by inhibition of the caspase family | Q48513221 | ||
Ischemic brain injury is mediated by the activation of poly(ADP-ribose)polymerase | Q48589751 | ||
DNA mismatch repair and DNA methylation in adult brain neurons. | Q49158568 | ||
Beneficial effects of S-adenosyl-L-methionine on blood-brain barrier breakdown and neuronal survival after transient cerebral ischemia in gerbils. | Q50531102 | ||
Imprinting and the initiation of gene silencing in the germ line. | Q52187741 | ||
Germ-line passage is required for establishment of methylation and expression patterns of imprinted but not of nonimprinted genes. | Q52201995 | ||
Acute treatment of hypertension increases infarct sizes in spontaneously hypertensive rats. | Q52974192 | ||
Suppression of intestinal neoplasia by DNA hypomethylation. | Q54613769 | ||
Effects of Cerebral Ischemia in Mice Deficient in Neuronal Nitric Oxide Synthase | Q71647466 | ||
Plasma and cerebrospinal fluid pharmacokinetics of 5-Aza-2'-deoxycytidine in rabbits and dogs | Q72683667 | ||
DNA methylation properties: consequences for pharmacology | Q72755740 | ||
RNA and the epigenetic regulation of X chromosome inactivation | Q74557357 | ||
P433 | issue | 9 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 3175-3181 | |
P577 | publication date | 2000-05-01 | |
P1433 | published in | Journal of Neuroscience | Q1709864 |
P1476 | title | DNA methyltransferase contributes to delayed ischemic brain injury | |
P478 | volume | 20 |
Q58792029 | A molecular signature for delayed graft function |
Q39423542 | A single day of 5-azacytidine exposure during development induces neurodegeneration in neonatal mice and neurobehavioral deficits in adult mice |
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Q48372953 | Effects of transient cerebral ischemia on the expression of DNA methyltransferase 1 in the gerbil hippocampal CA1 region |
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Q34587312 | Epigenetic targets of HDAC inhibition in neurodegenerative and psychiatric disorders. |
Q37724103 | Epigenetics in Stroke Recovery |
Q36465858 | Epigenetics in the human brain |
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Q36395765 | Fetal stress-mediated hypomethylation increases the brain susceptibility to hypoxic-ischemic injury in neonatal rats |
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Q53668815 | Fractionated low-dose exposure to ionizing radiation leads to DNA damage, epigenetic dysregulation, and behavioral impairment. |
Q37441257 | Genetics of stroke |
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Q57471207 | Histone Hyperacetylation as a Response to Global Brain Ischemia Associated with Hyperhomocysteinemia in Rats |
Q35153024 | Histone acetylation and CREB binding protein are required for neuronal resistance against ischemic injury |
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