Physical association of the human base-excision repair enzyme uracil DNA glycosylase with the 70,000-dalton catalytic subunit of DNA polymerase alpha.

Seal, Gita; Sirover, Michael A.

doi:10.1073/pnas.83.20.7608

Cited by 26 publications

(11 citation statements)

References 20 publications

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“…This finding agrees with data showing a physical association of uracil DNA-glycosylase with DNA polymerase cx (Seal & Sirover, 1986) and substantiates the hypothesis that once incorporated into DNA of adult neurons, uracil is not easily removed and might accumulate into DNA during the life span.…”

Section: P Mazzarello Et Ulsupporting

confidence: 92%

Misincorporation of Uracil Into DNA as Possible Contributor to Neuronal aging and Abiotrophy

Mazzarello

Focher

Verri

et al. 1990

International Journal of Neuroscience

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Neuronal aging and abiotrophy may be related to the abnormal presence of uracil in DNA. Evidence which could support this hypothesis exists: 1) DNA polymerase beta, the only nuclear DNA polymerase present in adult neurons which is able to repair damaged DNA, incorporates dUTP or dTTP with the same efficiency. This suggests that in adult neurons the incorporation of dUTP into DNA is solely dependent on the relative intracellular concentration of dUTP; 2) uracil into DNA also arises from cytosine deamination; 3) at birth, when neurons stop proliferating, uracil DNA-glycosylase, the enzyme responsible of the removal of uracil from DNA, nearly disappears; 4) a significant replacement of thymine by uracil in DNA could produce genetic instability which in turn could affect the recognition of DNA sequences by enzymes and/or by regulatory DNA binding proteins. Thus enzymatic defects which might alter the intracellular dUTP pool, in different neuronal systems, could account for the multiplicity of the clinical manifestations of aging and neurodegenerative disorders. The increase of the age-specific rate of abiotrophic diseases may be due to accumulation with time of uracil containing DNA.

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Section: P Mazzarello Et Ulsupporting

confidence: 92%

Misincorporation of Uracil Into DNA as Possible Contributor to Neuronal aging and Abiotrophy

Mazzarello

Focher

Verri

et al. 1990

International Journal of Neuroscience

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“…As each antibody inhibited catalysis, the glycosylase-antibody complex that sediments at a higher density could not be detected (16). In contrast, this second peak of activity could be observed by using an anti-DNA polymerase a monoclonal antibody that recognizes the glycosylase when it is bound to the polymerase (16,26).…”

Section: Resultsmentioning

confidence: 98%

Immunological lesions in human uracil DNA glycosylase: association with Bloom syndrome.

Seal

Brech

Karp

et al. 1988

Proc. Natl. Acad. Sci. U.S.A.

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Three monoclonal antibodies that react with uracil DNA glycosylase of normal human placenta were tested to determine whether one of the antibodies could be used as a negative marker for Bloom syndrome. As defined by enzyme-linked immunosorbent assay, monoclonal antibody 40.10.09, which reacts with normal human glycosylase, neither recognized nor inhibited native uracil DNA glycosylase from any of five separate Bloom syndrome cell strains. Immunoblot analyses demonstrated that the denatured glycosylase protein from all five Bloom syndrome cell strains was immunoreactive with the 40.10.09 antibody. Further, each native enzyme was immunoreactive with two other anti-human placental uracil DNA glycosylase monoclonal antibodies. In contrast, ELISA reactivity was observed with all three monoclonal antibodies in reactions of glycosylases from 5 normal human cell types and 13 abnormal human cell strains. These results experimentally verify the specificity of the aberrant reactivity of the Bloom syndrome uracil DNA glycosylase. The possibility arises that determination of the lack of immunoreactivity with antibody 40.10.09 may have value in the early diagnosis of Bloom syndrome.

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“…Homologs of the thymidine kinase genes found in the alpha-and gammaherpesviruses are absent in HCMV, HHV-6, and HHV-7 (17,43). The HHV-7 dUTPase and uracil-DNA glycosylase homologs presumably specify enzymatic activities involved in excision of uridine residues from DNA, by analogy to bacterial and eukaryotic counterparts (67,97,121), although there is notable sequence divergence between the HHV-7, cellular, and other herpesvirus dUTPase homologs.…”

Section: Resultsmentioning

confidence: 99%

Determination and analysis of the complete nucleotide sequence of human herpesvirus

Nicholas¹

1996

J Virol

272

159

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Human herpesvirus 7 (HHV-7) is a recently isolated betaherpesvirus that is prevalent in the human population, with primary infection usually occurring in early childhood. HHV-7 is related to human herpesvirus 6 (HHV-6) in terms of both biological and, from limited prior DNA sequence analysis, genetic criteria. However, extensive analysis of the HHV-7 genome has not been reported, and the precise phylogenetic relationship of HHV-7 to the other human betaherpesviruses HHV-6 and human cytomegalovirus has not been determined. Here I report on the determination and analysis of the complete DNA sequence of HHV-7 strain JI. The data establish that the close biological relationship of HHV-6 and HHV-7 is reflected at the genetic level, where there is a very high degree of conservation of genetic content and encoded amino acid sequences. The data also delineate loci of divergence between the HHV-6 and HHV-7 genomes, which occur at the genome termini in the region of the terminal direct-repeat elements and within limited regions of the unique component. Of potential significance with respect to biological and evolutionary divergence of HHV-6 and HHV-7 are notable structural differences in putative transcriptional regulatory genes specified by the direct-repeat and immediate-early region A loci of these viruses and the absence of an equivalent of the HHV-6 adeno-associated virus type 2 rep gene homolog in HHV-7.

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Physical association of the human base-excision repair enzyme uracil DNA glycosylase with the 70,000-dalton catalytic subunit of DNA polymerase alpha.

Cited by 26 publications

References 20 publications

Misincorporation of Uracil Into DNA as Possible Contributor to Neuronal aging and Abiotrophy

Misincorporation of Uracil Into DNA as Possible Contributor to Neuronal aging and Abiotrophy

Immunological lesions in human uracil DNA glycosylase: association with Bloom syndrome.

Determination and analysis of the complete nucleotide sequence of human herpesvirus

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