EC:2.6.1.44 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.6.1.44 (AGT)
770 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

O6-Alkylguanine-DNA-alkyltransferase (O6-AGT) is a very important DNA repair protein known to carry out the transfer of alkyl groups from the O6 position of guanine in alkylated DNA to a cysteine acceptor site contained within its own protein sequence. In this work, the activity of O6-AGT in different cell lines and the relationship between the depletion of the enzyme and the frequency of micronuclei induced by cisplatin (DDP), Ning Xin platin (camphoramine chloroacetic platinum, CCP) or carboplatin (JM-8) in KB and CHL cells were studied. Experiments indicate that KB cells showed higher O6-AGT activity (greater than 400 dpm/300 micrograms protein extracts) which belonged to Mer+ cells, but CHL, HL-60 and L1210 cells showed very low O6-AGT activity (less than 50 dpm/300 micrograms protein extracts) which can be considered to be Mer- cells. Cytotoxicity studies indicated that no mer- selection was observed in these platinum complexes for KB, HL-60, CHL and L1210 cells. However, a good relationship between the depletion of O6-AGT and the frequency of micronuclei induced by the platinum complexes was obtained. CCP caused the highest depletion of the enzyme and exhibited highest potency in damaging chromosome.
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PMID:[Depletion of O6-alkylguanine alkyltransferase and chromosome damage induced by cisplatin, ning xin platin and carboplatin]. 180 17

In the accompanying paper, we present and analyse the sequence of a "superactivator" mutant allele of the CYP1 (HAP1) gene. This locus encodes a trans-acting pleiotropic positive regulator of the transcription of both isocytochrome c structural genes. In this paper, we present the genetic localization of the mutation and the sequence of the wild-type fragment that includes the mutation. The mutated phenotype that commutes the expression of the two isocytochrome structural genes (superactivation of CYP3 and inhibition of CYC1) results from a transversion in an AGT codon (serine) in the wild-type to an AGG codon (arginine) in the mutant. Moreover, we show that the missense mutation that affects the amino acid preceding the first cysteine of the "Zn finger" is responsible on its own account for the entire mutated phenotype. In all seven yeast regulatory proteins analysed so far, this position is occupied by a neutral amino acid (serine, alanine or glycine), thus the serine-arginine replacement is a radical one. This result is consistent with the hypothesis of alternative and mutually exclusive Zn fingers, formed either at low or high redox potential, recognizing the target sequences identified in the upstream regions of the CYC1 and CYP3 isocytochrome c structural genes.
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PMID:CYP1 (HAP1) regulator of oxygen-dependent gene expression in yeast. II. Missense mutation suggests alternative Zn fingers as discriminating agents of gene control. 285 59

O6-Alkylguanine-DNA-alkyltransferase is a DNA repair protein known to carry out the transfer of alkyl groups from the O6-position of guanine in alkylated DNA to a cysteine acceptor site contained within its own protein sequence. We have examined the ability of this protein isolated from either E. coli or mammalian cells to perform this repair reaction in short oligodeoxynucleotides. Dodecadeoxynucleotides of the sequence 5'-dCGNGAATTCm6GCG-3' where N is any one of the normal four bases were all repaired very rapidly by the protein with 50% repair in less than 15 s at 0 degree C. The hexadeoxynucleotide 5'-dCGCm6GCG-3' was repaired slightly more slowly with 50% removal taking 7 min at 0 degree C and 1.5 min at 37 degrees C. The tetradeoxynucleotide 5'-dTm6GCA-3' was also a substrate but was repaired much more slowly requiring 45 min for 50% repair at 37 degrees C. These results indicate that (a) the AGT has a strong but not absolute preference for double-stranded DNA substrates; (b) the repair of O6-methylguanine is independent of the base opposite the lesion; and (c) that oligodeoxynucleotides as short as tetramers are substrates for repair by this protein.
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PMID:Repair of oligodeoxynucleotides containing O6-methylguanine by O6-alkylguanine-DNA-alkyltransferase. 373 92

Cerulenin, an antifungal antibiotic produced by Cephalosporium caerulens, is a potent inhibitor of fatty acid synthase in various organisms, including Saccharomyces cerevisiae. The antibiotic inhibits the enzyme by binding covalently to the active center cysteine of the condensing enzyme domain. We isolated 12 cerulenin-resistant mutants of S. cerevisiae following treatment with ethyl methanesulfonate. The mechanism of cerulenin resistance in one of the mutants, KNCR-1, was studied. Growth of the mutant was over 20 times more resistant to cerulenin than that of the wild-type strain. Tetrad analysis suggested that all mutants mapped at the same locus, FAS2, the gene encoding the alpha subunit of the fatty acid synthase. The isolated fatty acid synthase, purified from the mutant KNCR-1, was highly resistant to cerulenin. The cerulenin concentration causing 50% inhibition (IC50) of the enzyme activity was measured to be 400 microM, whereas the IC50 value was 15 microM for the enzyme isolated from the wild-type strain, indicating a 30-fold increase in resistance to cerulenin. The FAS2 gene was cloned from the mutant. Sequence replacement experiments suggested that an 0.8 kb EcoRV-HindIII fragment closely correlated with cerulenin resistance. Sequence analysis of this region revealed that the GGT codon encoding Gly-1257 of the FAS2 gene was altered to AGT in the mutant, resulting in the codon for Ser. Furthermore, a recombinant FAS2 gene, in which the 0.8 Kb EcoRV-HindIII fragment of the wild-type FAS2 gene was replaced with the same region from the mutant, when introduced into FAS2-defective S. cerevisiae complemented the FAS2 phenotype and showed cerulenin resistance.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cerulenin-resistant mutants of Saccharomyces cerevisiae with an altered fatty acid synthase gene. 804 67

In Taiwan, there are two million people who have a betel quid chewing habit, and approximately 80% of all oral cancer deaths are associated with this habit. To investigate the incidence and types of Ki-ras codon 12 mutations in oral cancer associated with betel quid chewing, we used a sensitive mutation-specific two-stage polymerase chain reaction (PCR) technique to examine human oral squamous cell carcinomas from formalin-fixed, paraffin-embedded tissues. DNA sequence analysis of PCR products revealed that 6 of 33 (18%) tumour specimens contained Ki-ras codon 12 mutations. Four of the tumours contained more than one mutation. Three different base changes were detected, resulting from a substitution of wild type glycine (GGT) to either serine (AGT), aspartic acid (GAT) or cysteine (TAT). These results indicate that Ki-ras oncogene activation may play a role in the oncogenesis of betel quid chewing-related human oral squamous cell carcinomas.
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PMID:Mutations of Ki-ras oncogene codon 12 in betel quid chewing-related human oral squamous cell carcinoma in Taiwan. 816 56

A subset of human growth hormone (GH)-secreting pituitary tumors contains the gsp oncogene that encodes an activation mutation of the alpha-subunit of the stimulatory GTP-binding protein (G(S) alpha). This study was undertaken to investigate the frequency of the gsp oncogene in GH-secreting pituitary tumors in Korean acromegalic patients and to elucidate the clinical characteristics of these patients to endocrine testing. Direct polymerase chain reaction sequencing revealed the gsp oncogene mutation in 9 out of 21 tumors (43%) at amino acid 201 of the G(S) alpha protein. A single nucleotide mutation in the tumors carrying the gsp oncogene was observed, which replaced an arginine (CGT) in the normal protein with cysteine (TGT) in eight tumors and serine (AGT) in one tumor. The patients with the gsp oncogene mutation (group 1) were older (54 +/- 10 vs 41 +/- 11 years, p = 0.0085) than those without the mutation (group 2). Sex, tumor size and grade, basal GH and prolactin levels, the GH response to oral glucose loading, the GH fluctuation and the paradoxical response to thyrotropin-releasing hormone or gonadotropin-releasing hormone did not differ between the groups. The gsp oncogene was found mostly in somatotroph adenomas. The octreotide-induced GH suppression was significantly higher in group 1 than in group 2 (95 +/- 5% vs 81 +/- 17%, p = 0.0335). The GH response to bromocriptine did not differ between the groups. These results suggest that the G(S) alpha mutations of GH-secreting tumor are observed in Korean acromegalic patients with similar frequency to those of western countries. The patients with gsp oncogene are likely to be older than those without the oncogene, and show excellent response of GH suppression to octreotide.
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PMID:Characteristics of gsp-positive growth hormone-secreting pituitary tumors in Korean acromegalic patients. 876 42

N-alkyl-N-nitrosoureas exhibit a wide spectrum of antitumor activity. They react as alkylating agents at nucleophilic sites in purine and pyrimidine moieties of DNA. The predominant site of this alkylation is N7 of guanine, which is followed by the site N3 of adenine and 06 of guanine. The formation and persistence of 0(6)-alkylguanine (0(6)-AG) may be of primary importance in cytotoxicity of the nitrosoureas. 0(6)-AG adducts of DNA of the tumor cells are repaired by protein 0(6)-alkylguanine-DNA transferase (0(6)-AGT) which transfers the alkyl group to internal cysteine residue being the acceptor protein for the alkyl group in an irreversible transfer reaction. 0(6)-AGT can protect the tumor cells against 0(6)-AG adducts by the way of inhibiting the formation of the DNA interstrand cross-links 0(6)-AGT plays an important role in the drug resistance because it repairs the DNA alkyl adducts at the 0(6) position of guanine. The 0(6)-AGT activity inversely correlates with the cytotoxic effect of the nitrosoureas. The agents like 0(6)-methylguanosine, 0(6)-methyl-2'-deoxyguanosine, and some 0(6)-benzylated guanine derivatives are effective inactivators of 0(6)-AGT, and thus can be used to enhance the cytotoxicity of N-nitrosoureas. The activation of 0(6)-AGT and other repairing enzymes such as alpha and beta DNA-polymerases as well as an increase in the level of reduced glutathione may be used in developing the resistance to the nitrosoureas.
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PMID:[The biochemical mechanisms of the action of N-alkyl-N-nitrosoureas. The possible reasons for drug resistance to these compounds]. 897 72

Primary hyperoxaluria type 1 (PH1) is a severe autosomal recessive inborn error of glyoxylate metabolism caused by deficiency of the hepatic peroxisomal enzyme alanine:glyoxylate aminotransferase. This enzyme is encoded by the AGXT gene on chromosome 2q37.3. DNA samples from 79 PH1 patients were studied using single strand conformation polymorphism analysis to detect sequence variants, which were then characterised by direct sequencing and confirmed by restriction enzyme digestion. Four novel mutations were identified in exon 7 of AGXT: a point mutation T853C, which leads to a predicted Ile244Thr amino acid substitution, occurred in nine patients. Two other mutations in adjacent nucleotides, C819T and G820A, mutated the same codon at residue 233 from arginine to cysteine and histidine, respectively. The fourth mutation, G860A, introduced a stop codon at amino acid residue 246. Enzyme studies in these patients showed that AGT catalytic activity was either very low or absent and that little or no immunoreactive protein was present. Together with a new polymorphism in exon 11 (C1342A) these findings underline the genetic heterogeneity of the AGXT gene. The novel mutation T853C is the second most common mutation found to date with an allelic frequency of 9% and will therefore be of clinical importance for the diagnosis of PH1.
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PMID:Primary hyperoxaluria type 1: a cluster of new mutations in exon 7 of the AGXT gene. 919 70

The plant cystatins or phytocystatins (PhyCys) are cysteine proteinase inhibitors containing the QxVxG motif and have been placed in the cystatin superfamily of proteins. The primary sequences of PhyCys have a high degree of homology with the members of the cystatin family, but they resemble stefins by the absence of disulfide bonds and cysteine residues. A multialignment and a phylogenetic analysis of 63 cystatins, 32 of which are PhyCys, demonstrate that all PhyCys cluster in a major evolutionary tree branch and support the classification of PhyCys as a new cystatin family. The PhyCys also possess a specific consensus sequence [LVI]-[AGT]-[RKE]-[FY]-[AS]-[VI]-x-[EDQV]-[HYFQ] -N placed on the region corresponding to a predictable amino-terminal alpha-helix. This sequence can be used to specifically identify PhyCys on protein data banks and to differentiate them from the other members of the superfamily.
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PMID:Structural and phylogenetic relationships among plant and animal cystatins. 979 56

Two patients with amyloidosis caused by transthyretin (TTR) were investigated by immunohistopathologic, mass spectrometric, and molecular genetic methods. After confirming the immunoreactivity of TTR in the amyloid deposits using anti-TTR polyclonal antibody, a new method: centrifugal concentration and electrospray ionization mass spectrometry (ESI-MS) was employed to detect the variant TTR in the serum. Only 50 microl of the serum and 30 microl of the anti-TTR antibody were needed for the analysis. After incubation with the antibody, the samples were passed through a 1000 kDa cut off centrifugal concentrator to retain the antibody, thereafter, the filtrate was analyzed by ESI-MS. Several forms of normal and variant TTR were detected in the serum samples: unconjugated TTR, cysteine and cysteine-glycine conjugated TTR. In the patients, a variant form of TTR was detected with a 26.0 Da higher molecular weight than that of normal TTR. Single-strand conformation polymorphism (SSCP) and direct sequence analysis confirmed the presence of a one-base substitution situated at the codon 50 from AGT (Ser) to ATT (Ile) in both patients, that corresponded to the increased molecular weight of 26.0. The present diagnostic procedure demonstrates the usefulness of both ESI-MS and SSCP to screen for TTR related amyloidosis rapidly. Moreover, the DNA samples obtained from the band showing abnormal electrophoretic migration pattern in SSCP, facilitate the direct sequence analysis to detect the unknown mutation, and the observed shift in molecular weight of the variant TTR in ESI-MS confirms the base substitution.
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PMID:A new diagnostic procedure to detect unknown transthyretin (TTR) mutations in familial amyloidotic polyneuropathy (FAP). 1067 60

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