Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0043346 (xeroderma pigmentosum)
 2,924 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A proteinous factor was purified from calf thymus and HeLa cells, which specifically corrects the excision repair defect of xeroderma pigmentosum complementation group A (XP-A) cells. Recovery of UV-induced unscheduled DNA synthesis after microinjection of XP-A cells was used as a quantitative assay for the correcting activity of protein preparations. XP-A correcting protein appears to be very stable as it withstands heating to 100 degrees C and treatment with SDS or 6 M urea. A molecular weight of 40-45 kD was found both under native (gel filtration) and denaturing (SDS-PAGE) conditions. Calf XP-A protein binds to single-stranded DNA more strongly than to double-stranded DNA, but shows no clear preference for UV-irradiated DNA. Polyclonal antibodies raised against human recombinant XP-A protein, which strongly inhibit UV-induced unscheduled DNA synthesis of normal human cells, completely abolished XP-A correcting activity when mixed with calf thymus preparations. This indicates a close relationship between human gene product and the calf protein. In the final preparation two main protein bands were present. Only one band at approx. 41 kD showed both DNA binding activity in Southwestern blots and immune reaction with human XP-A antibody, suggesting that this is the active calf XP-A correcting factor.
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PMID:Xeroderma pigmentosum group A correcting protein from calf thymus. 138 Jun 54

A protein factor which corrects the defect in xeroderma pigmentosum cells belonging to complementation group A (XP-A cells) was detected in a cell extract prepared from calf thymus. The activity of this factor was measured as the amount of unscheduled DNA synthesis (UDS) reappearing in UV-irradiated XP-A cells after microinjection of the extract. The native molecular mass of this factor was estimated to be 80 kDa by gel-filtration and 25 kDa by glycerol gradient centrifugation. The activity was, however, recovered at a position corresponding to 43 kDa after renaturation on an SDS-PAGE gel. The isoelectric point was determined to be approximately 7.5 by measuring the activity after renaturation on an IEF gel. These values were obtained with a partially purified sample. A spot corresponding to these values was detected on two-dimensional gel electrophoresis with a highly purified sample recovered from an SDS-PAGE gel. The purified protein stimulated UDS specifically in the XP-A cells and endowed the cells with a normal level of UV-resistance. The XP-A cells injected with the factor also showed a normal level of UDS after treatment with either 4HAQO or psoralen plus UV-A. This factor (XP-A complementing factor; XP-ACF) may be involved in the repair of DNA damage induced by various agents.
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PMID:Identification of a specific protein factor defective in group A xeroderma pigmentosum cells. 177 92

The XPA (xeroderma pigmentosum group A) gene encodes a protein of 273 amino acids with a zinc finger motif. The human XPA cDNA was placed in an Escherichia coli expression vector for the synthesis of the recombinant XPA protein. The molecular weight of the wild-type protein was about 40 kDa in SDS-PAGE. Microinjection of the wild-type protein specifically restored the defect of UV-induced unscheduled DNA synthesis in XP-A cells. Thus, the bacterially expressed XPA protein retains biochemical properties identical to those of natural sources. The wild-type protein binds preferentially to UV-, cis-diamminedichloroplatinum(II) (cisplatin)- or osmium tetroxide (OsO4)-damaged DNA as assayed by retention on nitrocellulose filters. In addition, the data from atomic absorption and UV-CD spectra revealed that the wild-type protein is a zinc metalloprotein with secondary structure. Furthermore, the mutant protein, of which the cysteine-103 residue in the zinc finger motif was replaced with serine, has a vastly different protein conformation resulting in a loss of XP-A correcting and DNA-binding activities. These findings indicate that the XPA protein is a zinc-binding protein with affinity for various DNA damages, and a cysteine residue in the C4-type zinc finger motif is indispensable for normal protein conformation.
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PMID:The XPA protein is a zinc metalloprotein with an ability to recognize various kinds of DNA damage. 752

DNA-dependent ATPase activities in crude extracts prepared from HeLa cells were separated into five peaks designated Q1 to Q5 by FPLC Mono Q column chromatography. In our previous study, we observed that crude extracts prepared from xeroderma pigmentosum complementation group C (XP-C) cells contained no DNA-dependent ATPase activity at the peak position of Q1 and exhibited a broader peak with higher activity than normal Q2 at the peak position of Q2 [Yanagisawa, J., Seki, M., Ui, M., & Enomoto, T. (1992) J. Biol. Chem. 267, 3585-3588]. We have purified two DNA-dependent ATPases Q1 and Q2 from HeLa cells and characterized their properties in order to obtain a means to discriminate ATPase Q1 from Q2 in XP-C cells. The apparent molecular masses of Q1 and Q2 on SDS-polyacrylamide gel electrophoresis were 73 and 100 kDa, respectively. The two enzymes required a divalent cation for activity. DNA-dependent ATPase Q1 hydrolyzed ATP and dATP and Q2 hydrolyzed ATP preferentially among the nucleotides tested. Both enzymes preferred single-stranded DNA as a cofactor. The DNA-dependent ATPase activity of Q2 was inhibited by 90% in the presence of 200 mM NaCl, whereas that of Q1 was not affected by NaCl at concentrations up to 200 mM. Both enzymes had DNA helicase activity, that of Q1 being more resistant to NaCl than that of Q2. The DNA helicase activity of Q2 was about 150-fold higher than that of Q1, when compared with units of ATPase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Purification of two DNA-dependent adenosinetriphosphatases having DNA helicase activity from HeLa cells and comparison of the properties of the two enzymes. 805 67

Xeroderma pigmentosum (XP) is an inherited disease characterized by defective repair of DNA damaged by ultraviolet (UV) radiation or agents that produce bulky DNA adducts. Human cells contain a factor that is deficient in a subset of patients from XP complementation group E and binds to DNA damaged by UV, cisplatin, or denaturation. This factor, XPE binding factor (XPE-BF), was purified to near homogeneity. The denatured protein migrated as a 125-kDa polypeptide on SDS-PAGE, and the native protein migrated primarily as a monomer on gel filtration and glycerol gradient sedimentation. Sedimentation revealed major peak in binding activity at 6.8 S, corresponding to the monomeric form, and a minor peak at 14.5 S, suggesting a homodimeric form. Binding activity was dependent on unmodified cysteine residues, stimulated by magnesium, and inhibited by zinc. Binding to UV-damaged nucleotides was 500,000-fold greater than for intact nucleotides, explaining how a molecule with an abundance of only 1-2 molecules per megabase can survey the genome for damaged DNA. Binding required a minimal DNA substrate of between 16 and 26 bp, as determined by a novel "shoe size" assay. Consistent with its previously noted versatility, XPE-BF bound to some cyclobutane pyrimidine dimers and at least one other UV-induced lesion. However, it may not bind to a subset of cyclobutane dimers, likely including the thymine dimer. These findings may explain the relatively mild phenotype of XP group E and suggest the existence of at least one other binding protein involved in the XP repair pathway.
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PMID:Purification and characterization of a human protein that binds to damaged DNA. 843 46

DDB is a damage-specific DNA binding protein whose binding activity is absent from a minority of cell strains from individuals with xeroderma pigmentosum Group E, a human hereditary disease characterized by defective nucleotide excision DNA repair and an increased incidence of skin cancer. The binding activity from HeLa cells is associated with polypeptides of M(r) 124,000 and 41,000 as determined by SDS-polyacrylamide gels. This report describes the isolation of full-length human cDNAs encoding each polypeptide of DDB. The predicted peptide molecular masses based on open reading frames are 127,000 and 48,000. When expressed in an in vitro rabbit reticulocyte system, the p48 subunit migrates with an M(r) of 41 kDa on SDS-polyacrylamide gels, similarly to the peptide purified from HeLa cells. There is no significant homology between the derived p48 peptide sequence and any proteins in current databases, and the derived peptide sequence of p127 has homology only with the monkey DDB p127 (98% nucleotide identity and only one conserved amino acid substitution). Using a fluorescence in situ hybridization technique, the DDB p127 locus (DDB1) was assigned to the chromosomal location 11q12-q13, and the DDB p48 locus (DDB2) to 11p11-p12.
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PMID:Chromosomal localization and cDNA cloning of the genes (DDB1 and DDB2) for the p127 and p48 subunits of a human damage-specific DNA binding protein. 853 Jan 2

UV damage-specific binding proteins are considered to play important roles in early responses of cells irradiated with UV, including damage recognition in the DNA repair process. We have surveyed nuclear and cytoplasmic proteins which bind selectively to UV-irradiated DNA using an electrophoretic mobility shift assay. We detected four distinct binding activities with different mobilities in fractions separated from HeLa cells by heparin chromatography. Three of them were found in nuclear extracts and one in cytoplasmic extracts. We purified one of the binding factors from nuclear extracts to homogeneity, which was designated NF-10 (the 10th fraction of nuclear extract on heparin chromatography). It migrated as a 40 kDa polypeptide in SDS-PAGE, and bound to UV-irradiated double- stranded DNA but not to unirradiated DNA. The binding pattern of the NF-10 protein to DNA irradiated with UV corresponded to the induction kinetics of (6-4) photoproduct. Removal of (6-4) photoproducts from UV- irradiated DNA by (6-4) photoproduct-specific photolyase diminished the binding of NF-10 protein. These results suggest that the NF-10 protein binds to UV-damaged DNA through (6-4) photoproduct. Immunoblot analysis using a monoclonal antibody revealed that the NF-10 protein was expressed in cell lines from all complementation groups of xeroderma pigmentosum, indicating that the NF-10 protein is a novel UV-damaged-DNA binding protein.
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PMID:Purification of a novel UV-damaged-DNA binding protein highly specific for (6-4) photoproduct. 860 44

The xeroderma pigmentosum group A protein (XPA) is an essential component of the eukaryotic nucleotide excision repair (NER) process. Recombinant human XPA was expressed in baculovirus-infected insect cells as a [His](6)-tagged fusion protein. A two-column purification procedure resulted in greater than 90% purity for the recombinant protein with a final yield of 0.53 mg from 200 ml of infected cells. The recombinant protein migrated as a doublet of 44 and 42 kDa upon SDS-PAGE consistent with that observed for the native protein. XPA can interact with a number of proteins including replication protein A (RPA) which has been implicated in the initial recognition of damaged DNA. Using a modified ELISA, we demonstrate that the recombinant XPA fusion protein also forms a complex with RPA independent of DNA. The ability of XPA to bind damaged DNA was assessed in an electrophoretic mobility shift assay using globally cisplatin-damaged DNA. The results revealed a slight preference for DNA damaged with cisplatin consistent with its proposed role in the recognition of damaged DNA. The recombinant XPA fusion protein was able to complement cell-free extracts immunodepleted of XPA restoring NER-catalyzed incision of cisplatin-damaged DNA in an in vitro excision repair assay.
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PMID:Overexpression and purification of human XPA using a baculovirus expression system. 1083 84