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Myristoyl-coenzyme A (CoA):protein N-myristoyltransferase (NMT) catalyzes the covalent attachment of myristate to the N-terminal glycine residue of various proteins. To develop a high-throughput assay for NMT, the principle of enzyme-linked immunosorbent assay (ELISA) is used, in which anti-N-myristoylglycine (anti-N-Myr-Gly) monoclonal antibody is utilized for the detection of the N-myristoylglycine moiety of the product of NMT catalysis. Enzyme-catalyzed reaction was performed using recombinant NMT expressed in Escherichia coli, myristoyl-CoA, and an octapeptide substrate that is biotinylated at its C terminus. The mixture of the products of the reaction was added to immunoplate wells precoated with anti-N-Myr-Gly monoclonal antibody. Then, the N-myristoyl-biotinylated octapeptide product was specifically captured by the antibody and stained with streptavidin-biotinylated peroxidase and tetramethylbenzidine substrate. This was followed by absorbance measurement (lambda(450)-lambda(630)). In this ELISA, the calibration curve showed a strong correlation between the concentration of the synthetic N-myristoyl-biotinylated octapeptide and the absorbance, indicating that this system may be useful for enzyme kinetics studies. Using this ELISA system, we assayed for serinal derivatives to determine their NMT inhibitory activity and found that serinal bisulfite inhibits yeast NMT activity. This is the first report of the measurement of NMT activity by the ELISA system. 相似文献
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Okada T Sonoda E Yamashita YM Koyoshi S Tateishi S Yamaizumi M Takata M Ogawa O Takeda S 《The Journal of biological chemistry》2002,277(50):48690-48695
DNA damage, which is left unrepaired by excision repair pathways, often blocks replication, leading to lesions such as breaks and gaps on the sister chromatids. These lesions may be processed by either homologous recombination (HR) repair or translesion DNA synthesis (TLS). Vertebrate Polkappa belongs to the DNA polymerase Y family, as do most TLS polymerases. However, the role for Polkappa in vertebrate cells is unclear because of the lack of reverse genetic studies. Here, we generated cells deficient in Polkappa (polkappa cells) from the chicken B lymphocyte line DT40. Although purified Polkappa is unable to bypass ultraviolet (UV) damage, polkappa cells exhibited increased UV sensitivity, and the phenotype was suppressed by expression of human and chicken Polkappa, suggesting that Polkappa is involved in TLS of UV photoproduct. Defects in both Polkappa and Rad18, which regulates TLS in yeast, in DT40 showed an additive effect on UV sensitivity. Interestingly, the level of sister chromatid exchange, which reflects HR-mediated repair, was elevated in normally cycling polkappa cells. This implies functional redundancy between HR and Polkappa in maintaining chromosomal DNA. In conclusion, vertebrate Polkappa is involved in Rad18-independent TLS of UV damage and plays a role in maintaining genomic stability. 相似文献
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Takao M Kanno S Shiromoto T Hasegawa R Ide H Ikeda S Sarker AH Seki S Xing JZ Le XC Weinfeld M Kobayashi K Miyazaki J Muijtjens M Hoeijmakers JH van der Horst G Yasui A Sarker AH 《The EMBO journal》2002,21(13):3486-3493
Endonuclease III, encoded by nth in Escherichia coli, removes thymine glycols (Tg), a toxic oxidative DNA lesion. To determine the biological significance of this repair in mammals, we established a mouse model with mutated mNth1, a homolog of nth, by gene targeting. The homozygous mNth1 mutant mice showed no detectable phenotypical abnormality. Embryonic cells with or without wild-type mNth1 showed no difference in sensitivity to menadione or hydrogen peroxide. Tg produced in the mutant mouse liver DNA by X-ray irradiation disappeared with time, though more slowly than in the wild-type mouse. In extracts from mutant mouse liver, we found, instead of mNTH1 activity, at least two novel DNA glycosylase activities against Tg. One activity is significantly higher in the mutant than in wild-type mouse in mitochondria, while the other is another nuclear glycosylase for Tg. These results underscore the importance of base excision repair of Tg both in the nuclei and mitochondria in mammals. 相似文献
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Maeda H Fujimoto C Haruki Y Maeda T Kokeguchi S Petelin M Arai H Tanimoto I Nishimura F Takashiba S 《FEMS immunology and medical microbiology》2003,39(1):81-86
Accurate quantification of bacterial species in dental plaque is needed for microbiological diagnosis of periodontal diseases. The present study was designed to assess the sensitivity, specificity and quantitativity of the real-time PCR using the GeneAmp Sequence Detection System with two fluorescence chemistries. TaqMan probe with reporter and quencher dye, and SYBR Green dye were used for sources of the fluorescence. Primers and probes were designed for Actinobacillus actinomycetemcomitans, Porphyromonas gingivalis, Prevotella intermedia and total bacteria based on the nucleotide sequences of the respective 16S ribosomal RNA genes. Since spread of antibiotic resistance genes is one of the crucial problems in periodontal therapy, quantitative detection of tetQ gene, which confers resistance to tetracycline, was included in the examination. The detection of P. gingivalis, P. intermedia and A. actinomycetemcomitans was linear over a range of 10-10(7) cells (10-10(7) copies for tetQ gene), while the quantitative range for total bacteria was 10(2)-10(7) cells. Species-specific amplifications were observed for the three periodontal bacteria, and there was no significant difference between the TaqMan and SYBR Green chemistry in their specificity, quantitativity and sensitivity. The SYBR Green assay, which was simpler than TaqMan assay in its manipulations, was applied to the clinical plaque samples. The plaque samples were obtained from eight patients (eight periodontal pockets) before and 1 week after the local drug delivery of minocycline. Although the number of P. gingivalis, P. intermedia and A. actinomycetemcomitans markedly decreased after the antibiotic therapy in most cases, higher copy numbers of the tetQ gene were detectable. The real-time PCR demonstrated sufficient sensitivity, specificity and quantitativity to be a powerful tool for microbiological examination in periodontal disease, and the quantitative monitoring of antibiotic resistance gene accompanied with the antibiotic therapy should be included in the examination. 相似文献
39.
Hossain MT Sunami T Tsunoda M Hikima T Chatake T Ueno Y Matsuda A Takénaka A 《Nucleic acids research》2001,29(19):3949-3954
To investigate the mutation mechanism of purine transitions in DNA damaged with methoxyamine, a DNA dodecamer with the sequence d(CGCAAATTmo4CGCG), where mo4C is 2′-deoxy-N4-methoxycytidine, has been synthesized and the crystal structure determined by X-ray analysis. The duplex structure is similar to that of the original undamaged B-form dodecamer, indicating that the methoxylation does not affect the overall DNA conformation. Electron density maps clearly show that the two mo4C residues form Watson–Crick-type base pairs with the adenine residues of the opposite strand and that the methoxy groups of mo4C adopt the anti conformation to N3 around the C4–N4 bond. For the pair formation through hydrogen bonds the mo4C residues are in the imino tautomeric state. Together with previous work, the present work establishes that the methoxylated cytosine residue can present two alternate faces for Watson–Crick base-pairing, thanks to the amino↔imino tautomerism allowed by methoxylation. Based on this property, two gene transition routes are proposed. 相似文献
40.
Oka S Terayama K Imiya K Yamamoto S Kondo A Kato I Kawasaki T 《Glycoconjugate journal》2000,17(12):877-885
The acceptor specificity of a rat brain glucuronyltransferase, GlcAT-P, associated with biosynthesis of the HNK-1 epitope on glycoproteins, was investigated using asialoorosomucoid as a model acceptor substrate. Structural analysis of N-linked oligosaccharides, to which glucuronic acid was transferred by GlcAT-P, by means of two-dimensional mapping of pyridylamino-oligosaccharides and MS spectrometry, demonstrated that the enzyme transferred glucuronic acid to bi-, tri-, and tetra-antennary complex type sugar chains, with almost equal efficiency, indicating that the enzyme has no preference as to the number of acceptor sugar branches. Next, we studied the branch specificity of this enzyme by means of the selective branch scission method involving two step exoglycosidase digestion using authentic pyridylamino-oligosaccharides. The GlcAT-P is highly specific for the terminal N-acetyllactosamine structure and no glucuronic acid was incorporated into a Gal1-3GlcNAc moiety. The GlcAT-P transferred glucuronic acid to the galactose residues in the N-acetyllactosamine branches of bi-, tri-, and tetra-antennary oligosaccharide chains, with different efficiencies and most preferentially to those in the Gal1-4GlcNAc1-4Man1-3 branch. 相似文献