EC:2.6.1.44 - FACTA Search

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Query: EC:2.6.1.44 (AGT)
770 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Short incubation at 37 C, 80 per cent reduction in ionic concentration and removal of liquid phases after each reaction step, provided the basis for the construction of four new serologic tests for alloantibodies to human erythrocytes. In the first, the incubation fluid was replaced with protamine sulfate to aggregate intensely the evaluated red blood cells. After dispersal by phosphate buffer, residual antibody mediated agglutination could be discerned. As a second method, this low ionic polycation (LIP) test was followed by a normal ionic IgG antiglobulin test (LIP-AGT). A third method employed low ionic washing of erythrocytes and low ionic antiglobulin serum (LIAGT). Finally, a modified LIP test was conducted entirely under low ionic conditions and followed by a low ionic antiglobulin test (modified LIP-AGT). LIP, LIP-AGT and LIAGT were successfully employed for all routine blood bank serology tests. Their sensitivity and impact on blood bank performance are described.
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PMID:Augmentation of hemagglutination by low ionic conditions. 11 97

This paper describes an interactive program which uses computer graphics techniques to reconstruct a three dimensional representation of thalamic anatomy from two dimensional serial secretion. Figures traced on a Rand tablet, connected to a DEC-340 display, are digitized and scaled. The three dimensional display capabilities of the Adage AGT-30 are used to present the reconstructed structures. Two dimensional cross sections of an arbitrary plane may also be displayed. The program has applications in stereotaxic surgery, teaching neuroanatomy, and may be used to reconstruct other anatomic structures from serial sections.
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PMID:Computer graphics--three dimensional reconstruction of thalamic anatomy from serial sections. 110 51

The influence of BrdU substitution of DNA in Chinese hamster cells on the frequencies of chromosomal aberrations induced by three restriction endonucleases which recognize thymine-rich sequences in DNA has been studied. The restriction enzymes chosen were Eco RI (recognition site G/AATTC), Sca I (AGT/ACT), and Dra I (TTT/AAA). A restriction enzyme that does not have thymine in the recognition sequence, Hae III (GG/CC), was also tried. These enzymes were introduced into cells by electroporation after two cell cycles of BrdU substitution and the aberration yields compared with that observed in non-substituted cells. Our results seem to indicate that the BrdU-substituted chromatin becomes resistant to the chromosome-breaking activity of the restriction enzymes recognizing thymine-rich DNA sequences. These observations are compared with the patterns of cutting of isolated DNA as shown by agarose gel electrophoresis.
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PMID:Chromosome damage induced by restriction endonucleases recognizing thymine-rich DNA sequences in electroporated CHO cells. 134 64

We have synthesized and sequenced alanine:glyoxylate aminotransferase (AGT; HGMW-approved symbol for the gene--AGXT) cDNA from the liver of a primary hyperoxaluria type 1 (PH1) patient who had normal levels of hepatic peroxisomal immunoreactive AGT protein, but no AGT catalytic activity. This revealed the presence of a single point mutation (G----A at cDNA nucleotide 367), which is predicted to cause a glycine-to-glutamate substitution at residue 82 of the AGT protein. This mutation is located in exon 2 of the AGT gene and leads to the loss of an AvaI restriction site. Exon 2-specific PCR followed by AvaI digestion showed that this patient was homozygous for this mutation. In addition, three other PH1 patients, one related to and two unrelated to, but with enzymological phenotype similar to that of the first patient, were also shown to be homozygous for the mutation. However, one other phenotypically similar PH1 patient was shown to lack this mutation. The mechanism by which the glycine-to-glutamate substitution at residue 82 causes loss of catalytic activity remains to be resolved. However, the protein sequence in this region is highly conserved between different mammals, and the substitution at residue 82 is predicted to cause significant local structural alterations.
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PMID:A glycine-to-glutamate substitution abolishes alanine:glyoxylate aminotransferase catalytic activity in a subset of patients with primary hyperoxaluria type 1. 134 75

Regulatory guidelines suggest testing chemicals up to cytotoxic doses in chromosomal-aberration assays. To investigate the utility and limitations of various cytotoxicity indicators we used Chinese hamster ovary (CHO) cells to test 8 chemicals with differing ratios of cytotoxicity to clastogenicity. We measured immediate or delayed cell killing and growth inhibition (ATP levels, cell counts, colony-forming efficiency, CFE) and cell-cycle perturbations (mitotic index, MI; average generation time, AGT). Aberrations (abs) were scored 10 and 24 h from the beginning of the 3-h treatment. All 8 compounds induced abs at concentrations that reduced cell growth at 24 h by 50% or less. Concentrations of each chemical which induced at least 15% cells with abs, gave little loss of CFE (0-20%) for mitomycin C, adriamycin, cadmium sulfate and 2,6-diaminotoluene in contrast to the marked loss of CFE (70-80%) for eugenol (EUG), 2-aminobiphenyl and 8-hydroxyquinoline (8-HQ). 2,4-Diaminotoluene (2,4-DAT) was intermediate. Higher aberration yields were found at 24 h than at 10 h, even when minimal cell-cycle delay was detected by AGT estimates from BrdUrd-labeled cells. Cells with multiple abs were seen at 24 but not at 10 h, and often confirmed clastogenicity when there was only a weak increase in the percentage of cells with aberrations. Total ATP per culture did not always correlate with cell number, especially at later times after treatment. This is likely due to metabolic perturbations or altered cell biomass that are known to affect cell ATP content. MI suppression often did not correlate with AGT, e.g., only small increases in AGT were seen for 8-HQ, 2,4-DAT and EUG despite severe mitotic suppression at 10 h. By 24 h the MI for all chemicals had recovered, sometimes exceeding control levels. Marked mitotic accumulation was seen at 10 h for 2,4-DAT, indicating cell synchrony. Thus, the MI has limited value for dose selection. In conclusion, even weakly active chemicals were detected at a single time without exceeding a 50% growth reduction at 24 h.
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PMID:A quantitative assessment of the cytotoxicity associated with chromosomal aberration detection in Chinese hamster ovary cells. 137 Feb 42

O6-alkylguanine has been known to be the major lesion in DNA for the cytotoxicity of alkylating agents and it is repaired by O6-Alkylguanine-DNA alkyltransferase (O6-AGT). To examine the relation of O6-AGT to the clinical characteristics in malignant melanoma (MM), O6-AGT activity in 13 human MM tissues was measured. The activity in tumor tissues varied widely from 0 to 0.11 pmol/mg protein. The activity in normal skin tissues was lower and less variable than in the tumors. The activity was not related to the tumor size or clinical stage of melanomas, but it was higher in tumors after chemotherapy with alkylating agents than in those without chemotherapy. In metastatic tissues, in primary tumors of the patients with metastases and in tumors of the patients with bad prognosis, the activity was also high. Two of the tumors, having the highest O6-AGT activity, were both transplantable to nude mice. These results suggest two possibilities; melanomas exposed to the alkylating agents may change to have high O6-AGT activity, followed by the resistance to such agents, or O6-AGT in melanomas may be originally diverse. O6-AGT activity in the tumour tissue may represent the effect of alkylating agents and can be used in selecting the methods of therapy.
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PMID:O6-alkylguanine-DNA alkyltransferase activity in human malignant melanoma. 139 Apr 58

Based on the finding that the wobble G.T mismatch 5' to the C of AGC.GCT results in switching of the attack chemistry by neocarzinostatin chromophore (NCS-Chrom) on the deoxyribose moiety of C from C-1' to C-4' [Kappen, L. S. & Goldberg, I. H. (1992) Proc. Natl. Acad. Sci. U.S.A. 89, 6706-6710], a series of mismatches has been explored for their effect on the chemistry of damage at the T of AGT.ACT in oligodeoxynucleotides, a site at which 4'-chemistry ordinarily occurs. Placement of a G.T mispair 5' to the T results in a marked increase in 4'-chemistry, as measured by the formation of breaks with 3'-phosphoglycolate ends and abasic sites due to 4'-hydroxylation. Strikingly, 4'-chemistry is induced at the T on the complementary strand, a site ordinarily restricted to 5'-chemistry. Substitution of dioxygen by the radiation sensitizer misonidazole exerts a pronounced effect on the partitioning of the 4'-chemistry in favor of the 3'-phosphoglycolate product. Both stable T.G and unstable T.C mismatches at the attack site itself are associated with marked inhibition of damage at this site. Whereas placement of the relatively stable G.A mismatch on the 5'-side of the T residue (AGT) results in substantial inhibition of damage at the T without shifting of chemistry, the same mismatch at the 3'-side of the attack site decreases damage only slightly but is associated with the appearance of significant 1'-chemistry. By contrast, no shift in chemistry is found with bleomycin, which attacks at C-4'.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mismatch-induced switch of neocarzinostatin attack sites in the DNA minor groove. 139 Jun 95

The protein O6-alkylguanine-DNA alkyltransferase (O6-AGT) has been implicated as a major determinant of resistance of diverse tumors to chloroethylnitrosoureas. To evaluate the contribution of O6-AGT to resistance of medulloblastomas to chloroethylnitrosoureas, we assessed the role of O6-AGT in determining (BCNU). Sensitivity to BCNU cytotoxicity, measured as dose dependent survival of soft agar colony forming ability, varied among the lines. Two lines (UW443 and UW228-3) displayed linear survival curves and comparable BCNU sensitivity (D37 ca. 140 microM). The other lines (UW228-2 and UW228-1) had biphasic survival curves indicating that each line was composed of two sub-populations that differed in BCNU sensitivity. The D37 for these sub-populations ranged from 51 microM to 253 microM. The O6-AGT activities of the cell lines, however, did not reflect their varied susceptibilities to BCNU as evidenced by a 9-fold difference in O6-AGT activity between UW443 and UW228-3. Moreover, elimination of O6-AGT activity by the inhibitor O6-benzylguanine did not appreciably increase sensitivity to BCNU compared with the response of other human tumor cells [Dolan et al. Cancer Res. 51:3367-3372, 1991]. Our results demonstrate that O6-AGT is not a major determinant of BCNU sensitivity in the four medulloblastoma lines.
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PMID:O6-alkylguanine DNA-alkyltransferase is not a major determinant of sensitivity to 1,3-bis(2-chloroethyl)-1-nitrosourea in four medulloblastoma cell lines. 142 17

The effects on thermal stability and conformation of DNA produced by the monofunctional adducts of chlorodiethylenetriamineplatinum(II) chloride ([Pt(dien)Cl]Cl) have been investigated. Oligodeoxyribonucleotide duplexes of varying lengths (9-20 base pairs) and of varying central trinucleotide sequences were prepared and characterized that contained site-specific and unique N(7)-guanine adducts. Included are adducts at the sequences of d(AGC), d(AGT), d(CGA), d(TGA), d(TGC), and d(TGT). All these monofunctional adducts decrease the melting temperature (Tm) of the duplexes. This destabilization effect exhibits a sequence-dependent variability. The highest lowering of Tm is observed for the modified duplexes containing the central sequence of pyrimidine-guanine-pyrimidine. The destabilization effect is reduced with decreasing concentrations of Na+. Polarography, circular dichroism, phenanthroline-copper, and chemical probes reveal conformational distortions spreading over several base pairs around the adduct. The effects of monofunctional platinum(II) adducts on conformational distortions in DNA exhibit a sequence-dependent variability similar to those on thermal stability of DNA. The influence of the monofunctional adduct formed by cis-diamminemonoaquamonochloroplatinum(II) on the stability of the oligonucleotide duplex has been also studied. This lesion decreases thermal stability of DNA in the same way as does the adduct of [Pt(dien)Cl]Cl.
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PMID:Sequence-dependent distortions induced in DNA by monofunctional platinum(II) binding. 146 26

Double-strand (DS) DNA damage caused by neocarzinostatin (NCS) has been studied in the trinucleotide AGT-ACT sequence in an AP-1 transcription factor binding site. There are strong similarities between bistranded lesions produced at AGT.ACT and AGC-GCT, including the fact that DS lesions outnumber SS lesions on the AGT and AGC strands, while SS exceed DS on the ACT and GCT strands. Structure-function studies revealed that a variety of different thiols produced bistranded lesions in this model by predominantly C4'-hydrogen atom abstraction (84-93%) at the T of AGT and C5'-hydrogen atom abstraction (87-91%) at the T of ACT. Single-strand (SS) lesions were found to represent a variable mixture of C4' and C5' chemistry. The C4'-hydroxylated abasic site occurred in both SS and DS lesions at both sites and accounted for most of the DS damage at AGT (60-83%); the remaining damage consisted of 3'-phosphoglycolate- and 3'-phosphate-ended fragments. The nature of the thiol was found to affect the partitioning of the breakdown products arising from C4' and, to a lesser extent, C5' hydrogen atom abstraction. Production of 3'-phosphoglycolate residues, restricted mainly to the T of AGT in bistranded lesions, correlated with the incidence of direct DS breaks in the AGT.ACT model and in plasmid DNA and appeared to be influenced by the reducing power of the thiol activator. Furthermore, hydrazine and sodium borohydride both inhibited the formation of glycolate, an effect that was exploited to determine the rate constant for 3'-phosphoglycolate formation: 0.06 min-1 at 0 degree C, pH 7.4. Under anaerobic conditions, the nitroaromatic radiation sensitizer misonidazole caused a large increase in glycolate production in both SS and DS lesions formed by NCS, which suggests that the formation of 3'-phosphoglycolate, like 3'-formylphosphate generated by C5' chemistry, involves an oxyradical intermediate. The pathways for DNA damage involving C4' and C5' hydrogen atom abstraction thus share many common features, several of which are consistent with a mechanism for the production of NCS-mediated bistranded lesions at AGT.ACT that involves a tetraoxide bridge joining the lesions on opposite strands of DNA.
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PMID:Neocarzinostatin-mediated DNA damage in a model AGT.ACT site: mechanistic studies of thiol-sensitive partitioning of C4' DNA damage products. 153 16

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