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Nuclear DNA

About: Nuclear DNA is a research topic. Over the lifetime, 3933 publications have been published within this topic receiving 185830 citations.


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Journal ArticleDOI
15 Aug 1988-Cancer
TL;DR: A striking difference between neuroblastoma and adult tumors in which DNA aneuploidy is generally a poor prognostic sign is indicated and a molecular link between ganglioneuromas and their malignant counterparts is provided.
Abstract: Retrospective quantitative DNA analysis was done on 147 samples from 89 patients with neuroblastoma and ganglioneuroma using flow cytometry. In the neuroblastoma patients, nuclear DNA content was found to be a stable tumor marker irrespective of site (primary versus metastatic) and despite changes with time in tumor progression, maturation, or therapy. The occurrence of DNA aneuploidy, which was detected in 60% of the neuroblastoma patients, paralleled other favorable indicators and was highly associated with survival (P less than 0.001). Of clinical stage, age, primary site, sex, and DNA content, only stage and DNA content correlated with survival. Those patients with favorable stage and DNA aneuploidy had higher survival rates. Further, favorable stage and the presence of DNA aneuploidy were independent prognostic indicators. Abnormal DNA content was also detected in samples from ganglioneuromas in which significant numbers of ganglion cell nuclei were recovered. These results indicate a striking difference between neuroblastoma and adult tumors in which DNA aneuploidy is generally a poor prognostic sign and provide a molecular link between ganglioneuromas and their malignant counterparts.

108 citations

Journal ArticleDOI
TL;DR: The capacity of unlabeled cell DNA to accelerate the reassociation of labeled double-stranded DNA synthesized by the Rous sarcoma virus RNA directed DNA polymerase is measured and is supported by evidence that the techniques employed detect the formation of extensive well-matched duplexes of cell DNA and viral polymerase products.

108 citations

Journal ArticleDOI
TL;DR: OGG1 has a pivotal role in repairing oxidative damage to nuclear DNA under ischemic conditions, thereby reducing brain damage and improving functional outcome.
Abstract: 7,8-Dihydro-8-oxoguanine DNA glycosylase (OGG1) is a major DNA glycosylase involved in base-excision repair (BER) of oxidative DNA damage to nuclear and mitochondrial DNA (mtDNA). We used OGG1-deficient (OGG1−/−) mice to examine the possible roles of OGG1 in the vulnerability of neurons to ischemic and oxidative stress. After exposure of cultured neurons to oxidative and metabolic stress levels of OGG1 in the nucleus were elevated and mitochondria exhibited fragmentation and increased levels of the mitochondrial fission protein dynamin-related protein 1 (Drp1) and reduced membrane potential. Cortical neurons isolated from OGG1−/− mice were more vulnerable to oxidative insults than were OGG1+/+ neurons, and OGG1−/− mice developed larger cortical infarcts and behavioral deficits after permanent middle cerebral artery occlusion compared with OGG1+/+ mice. Accumulations of oxidative DNA base lesions (8-oxoG, FapyAde, and FapyGua) were elevated in response to ischemia in both the ipsilateral and contralateral hemispheres, and to a greater extent in the contralateral cortex of OGG1−/− mice compared with OGG1+/+ mice. Ischemia-induced elevation of 8-oxoG incision activity involved increased levels of a nuclear isoform OGG1, suggesting an adaptive response to oxidative nuclear DNA damage. Thus, OGG1 has a pivotal role in repairing oxidative damage to nuclear DNA under ischemic conditions, thereby reducing brain damage and improving functional outcome.

107 citations

Journal ArticleDOI
TL;DR: The results further support the working hypothesis that nuclear DNA content has marked prognostic significance for patients with adenocarcinoma of the prostate.
Abstract: • Over a 16-year period (1966 to 1981), 349 patients underwent radical retropubic prostatectomy for pathologic stage B adenocarcinoma of the prostate. Nuclear DNA content was measured by flow cytometry on available archival material of 283 patients. Two hundred sixty-one patients (92%) had high-quality histograms. The ploidy distribution was as follows: DNA diploid, 177 (68%); DNA tetraploid, 74 (28%); and DNA aneuploid, 10(4%) The average follow-up was 9.4 years. At the time of follow-up, 53 patients (20%) within the study group had developed tumor progression: 22 local, 23 systemic, and 8 both. The ploidy distribution of the population that developed tumor progression was 27 DNA diploid (51%), 16 DNA tetraploid (30%), and 10 DNA aneuploid (19%). This ploidy distribution is significantly different from that found for the nonprogression group with stage B disease. Overall, 31% of patients with DNA nondiploid tumors had tumors that progressed compared with 15% of patients with DNA diploid tumors. All (100%) DNA aneuploid tumors progressed. The DNA ploidy distribution of all pathologic stage B prostate cancers differs significantly from that found in more advanced stages (C and D1) previously reported for the same time interval. However, the ploidy distribution of stage B tumors that progressed closely resembles that of the stage C and D1 tumors. These results further support the working hypothesis that nuclear DNA content has marked prognostic significance for patients with adenocarcinoma of the prostate. It seems to us that analysis of ploidy by flow or static cytometry will become an essential tool for treating patients with localized prostate cancer. (Arch Surg. 1990;125:327-331)

107 citations

Journal ArticleDOI
TL;DR: It is shown that transgenic potato plants carrying a leucine tRNA gene from bean nuclear DNA contain RNA transcribed from the introduced gene both in the cytosol and inside mitochondria, providing proof that the mitochondrial leucin tRNA is derived from a nuclear gene and imported into the mitochondria.
Abstract: Evidence that nuclear-encoded RNAs are present inside mitochondria has been reported from a wide variety of organisms, and is presumed to be due to import of specific cytosolic RNAs. In plants, the first examples were the mitochondrial leucine transfer RNAs of bean. In all cases, the evidence is circumstantial, based on hybridization of the mitochondrial RNAs to nuclear and not mitochondrial DNA. Here we show that transgenic potato plants carrying a leucine tRNA gene from bean nuclear DNA contain RNA transcribed from the introduced gene both in the cytosol and inside mitochondria, providing proof that the mitochondrial leucine tRNA is derived from a nuclear gene and imported into the mitochondria. The same bean gene carrying a 4 bp insertion in the anticodon loop was also expressed in transgenic potato plants and the transcript found to be present inside mitochondria, suggesting that this natural RNA import system could eventually be used to introduce foreign RNA sequences into mitochondria.

107 citations


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Performance
Metrics
No. of papers in the topic in previous years
YearPapers
202361
202284
202177
202064
201966
201862