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)

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

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

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

Direct double-strand breaks in DNA have been implicated in cellular lethality of the antitumor antibiotic neocarzinostatin, but the mechanism of their formation has not been elucidated. Evidence is presented that neocarzinostatin causes sequence-specific direct double-strand breaks whose formation is strongly influenced by the activating thiol. Seven-fold more double-strand breaks result when glutathione rather than 2-mercaptoethanol is used to activate the drug to its putative diradical form, while the sequence specificity of cleavage remains the same. These data explain earlier inconsistencies in the ratios of double-strand to single-strand breaks obtained from in vitro and in vivo studies. Double-strand cleavage sites, occurring predominantly at GT steps, especially AGT.ACT, consist of trinucleotide sequences with a two-nucleotide 3'-stagger of the cleaved residues. The chemical structures of the cleavage sites suggest a model in which a neocarzinostatin-induced double-strand break results from abstraction of a C5' hydrogen atom from the T of ACT and the C4' hydrogen atom of the T of AGT by a single molecule of the diradical form of the drug. Single-strand breaks at these sites occur as separate events with attack at the C5' hydrogens. These findings permit the generalization that single-strand breaks produced by neocarzinostatin show a base preference but no clear sequence specificity, while bistranded lesions are sequence-specific in nature.
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PMID:Sequence-specific double-strand breakage of DNA by neocarzinostatin involves different chemical mechanisms within a staggered cleavage site. 214 79

A mutant cell line that shows high resistance to the photosynthesis-inhibiting herbicide atrazine was selected from cultured photomixotrophic Nicotiana tabacum cv. Samsun NN cells by repeated exposure to toxic levels of the herbicide. This resistance was confirmed by measurements of Hill reaction activity in isolated thylakoid membranes. Nucleotide sequencing revealed that the resistant cell line had a point mutation in its chloroplast psbA gene. The 264th codon, AGT (serine) was changed to ACT (threonine) in this mutant. This new type of mutation also conferred moderate cross-resistance to diuron and subsequently was stable in the absence of continued selection pressure.
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PMID:Selection of an atrazine-resistant tobacco cell line having a mutant psbA gene. 323 12

It is shown by fluorescence spectroscopy that the post-activated form of neocarzinostatin chromophore (NCSi-glu) can form stable complexes with single-site oligonucleotides (SSOs) featuring sequences known to be involved in double stranded (AGC.GCT, AGT.ACT, AGA.TCT, ACA.TGT) or single stranded (AGG.CCT) cleavage (attacked residues in bold). Furthermore, the same SSOs form cleavage productive complexes with native neocarzinostatin chromophore (NCS chrom) over a similar concentration range. The productive complexes yield damage similar to that observed if the same sequence is part of a longer DNA piece. Previously identified double stranded site sequences ATT.AAT and TAT.ATA are shown to contain overlapping attack sites. Binding order preference derived from fluorescence quenching experiments for NCSi-glu is consistent with constants derived by quantitative cleavage affinity binding experiments with NCS chrom. This confirms the similarity in interactions between the NCSi-glu and NCS chrom and justifies the use of NCSi-glu as a stable analog of NCS chrom.
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PMID:Binding and cleavage characteristics of the complexes formed between the neocarzinostatin chromophore and single site containing oligonucleotides. 758 49

Complement component C7 plays an important role in the formation of the membrane attack complex of the complement system. Here we describe a novel polymorphism of human C7, namely a nucleotide sequence polymorphism changing codon 367 from AGT (encoding Ser) to ACT (encoding Thr). Using the polymerase chain reaction, the polymorphism is easily detectable either as a MaeIII restriction fragment length polymorphism or by single-strand conformation analysis. The two alleles are both very common, probably in all major races.
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PMID:A common Ser/Thr polymorphism in the perforin-homologous region of human complement component C7. 786 81

Variable regions with sequence length variation in the human immunodeficiency virus type 1 envelope exhibit an unusual pattern of codon usage with AAT, ACT, and AGT together composing > 70% of all codons used. We postulate that this distribution is caused by insertion of AAT triplets followed by point mutations and selection. Accumulation of the encoded amino acids (asparagine, serine, and threonine) leads to the creation of new N-linked glycosylation sites, which helps the virus to escape from the immune pressure exerted by virus-neutralizing antibodies.
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PMID:Insertion of N-linked glycosylation sites in the variable regions of the human immunodeficiency virus type 1 surface glycoprotein through AAT triplet reiteration. 793 44

A mutation of the psbA gene was identified in photoautotrophic potato (Solanum tuberosum L. cv Superior x U.S. Department of Agriculture line 66-142) cells selected for resistance to 6-chloro-N-ethyl-N'-(1-methylethyl)-1,3,5-triazine-2,4-diamine (atrazine). Photoaffinity labeling with 6-azido-N-ethyl-N'-(1-methylethyl)-1,3,5-triazine-2,4-diamine detected a thylakoid membrane protein with a M(r) of 32,000 in susceptible, but not in resistant, cells. This protein was identified as the secondary quinone acceptor of photosystem II (QB) protein. Atrazine resistance in selected cells was attributable to a mutation from AGT (serine) to ACT (threonine) in codon 264 of the psbA gene that encodes the QB protein. Although the mutant cells exhibited extreme levels of resistance to atrazine, no concomitant reductions in photosynthetic electron transport or cell growth rates compared to the unselected cells were detected. This is in contrast with the losses in productivity observed in atrazine-resistant mutants that contain a glycine-264 alteration.
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PMID:A serine-to-threonine substitution in the triazine herbicide-binding protein in potato cells results in atrazine resistance without impairing productivity. 802 41

Major non-coding region of human mitochondrial DNA (mtDNA) (1122 bp) was assessed using the method of complexity analysis of genomes. The ACT, TCA, AGT and TGA motifs (AST-repeats) were shown to form short repeats as well as more complex block structures. These motifs are intrinsic for regulatory sequences of DNA of procaryotic and eucaryotic genes. ACT-repeats based blocks happen to be the most variable parts of the region studied too. Each inherited type of mtDNA is proposed to be a pattern of short repeats arranged with the regard to their symmetry, complementarity and alternativeness thus forming block DNA structures. The existence of similar structures may be possible due to the variability of nucleotide sequences more pronounced in the blocks of repeats of major non-coding region of human mtDNA.
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PMID:[Short repeats and variability in the smooth noncoding area of human mitochondrial DNA]. 824 30

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