Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.26.9 (ribonuclease)
 6,589 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Repair synthesis in human cells in tissue culture can be readily separated from semi-conservative DNA synthesis with the aid of a benzoylated naphthoylated DEAE cellulose (BND-cellulose) column. Cells are incubated with a radioactive DNA precursor during treatment with a repair-inducing agent. An inhibitor of semi-conservative DNA synthesis (hydroxyurea) is added to slow the progression of the DNA growing point. The cells are lysed and after treatment with ribonuclease and pronase the lysates are sheared and passed through a BND-cellulose column. Native DNA is eluted with I M NaCl. Any increase in radioactivity in the native DNA is due to repair synthesis and the specific repair activity (nucleotides inserted per mug of DNA) can be determined from radioactivity and absorbancy measurements. Repair can also be measured in the region of the DNA growing point by fractionation of the material eluted from BND-cellulose with 50% formamide. Repair was not detected in N-acetoxy-2-acetylaminofluorene (AAAF)-treated lymphoblasts derived from an individual with xeroderma pigmentosum although methyl methanesulfonate (MMS)-induced repair was observed in these cells.
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PMID:The measurement of chemically-induced DNA repair synthesis in human cells by BND-cellulose chromatography. 117 59

The effects of cis-diamminedichloroplatinum(II) (cis-DDP) and trans-DDP adducts on mammalian transcription in vivo have been investigated. A plasmid containing the beta-galactosidase (beta-gal) reporter gene was modified with either of the two platinum compounds and transfected into human or hamster cell lines. A 2-3 fold higher level of transcription was observed in both cell lines from plasmids containing trans-DDP adducts as compared to plasmids modified by cis-DDP. This difference in transcriptional activity was not decreased in human and rodent nucleotide excision repair deficient cell lines, indicating that more efficient excision repair of the trans-DDP adducts was not the cause of its lower ability to block transcription in this assay. For this conclusion to be valid, it is assumed that trans-DDP adducts are repaired primarily by the nucleotide excision repair pathway, as is the case with the adducts of cis-DDP. The possibility that trans-DDP adducts are preferentially bypassed by RNA polymerase was examined by monitoring the elongation of beta-gal mRNA on damaged templates in vivo. Nascent beta-gal mRNA transcripts were recovered from excision repair deficient xeroderma pigmentosum A cells transfected with platinated plasmids, and the extent of RNA synthesis was measured by using ribonuclease protection. Fourfold more trans-DDP than cis-DDP adducts were required to inhibit transcription elongation by 63%. RNA polymerase II bypassed cis- and trans-DDP DNA adducts with efficiencies of 0-16% and 60-70%, respectively. These data provide insight into the differential toxicity of the two platinum isomers.
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PMID:DNA adducts of cis-diamminedichloroplatinum(II) and its trans isomer inhibit RNA polymerase II differentially in vivo. 757 87

In eukaryotes, pre-mRNA splicing is an essential step for gene expression. We have been analyzing post-splicing intron turnover steps in higher eukaryotes. Here, we report protein interaction between human Debranching enzyme 1 (hDbr1) and several factors found in the Intron Large (IL) complex, which is an intermediate complex of the intron degradation pathway. The hDbr1 protein specifically interacts with xeroderma pigmentosum, complementeation group A (XPA)-binding protein 2 (Xab2). We also attempted to identify specific interactors of hDbr1. Co-immunoprecipitation experiments followed by mass spectrometry analysis identified a novel protein as one of the specific interactors of hDbr1. This protein is well conserved among many species and shows the highest similarity to yeast Drn1, so it is designated as human Dbr1 associated ribonuclease 1 (hDrn1). hDrn1 directly interacts with hDbr1 through protein-protein interaction. Furthermore, hDrn1 shuttles between the nucleus and the cytoplasm, as hDbr1 protein does. These findings suggest that hDrn1 has roles in both the nucleus and the cytoplasm, which are highly likely to involve hDbr1.
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PMID:Identification of the specific interactors of the human lariat RNA debranching enzyme 1 protein. 2567 12