Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.21.3 (deoxyribonuclease)
 1,528 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The chromosomes of a tryptophan(-), thymine(-) double auxotroph of Bacillus subtilis were uniformly aligned at the chromosome terminus by an amino acid starvation treatment. By subsequent incubations, the starved culture was rendered competent, while its state of synchronous chromosome arrest was maintained by thymine starvation. The competent, chromosome-arrested cells were transformed for three unlinked markers, located in two different chromosome regions. Shortly after addition of deoxyribonucleic acid, the cell walls were removed with lysozyme in a medium containing deoxyribonuclease and no thymine, and the protoplasted culture was assayed for single and double transformants. It was found that markers both near and distant from the terminus entered freely into the cell interior. There was no important difference in the relative frequency of entry of different markers between synchronously arrested cells and nonsynchronized control cultures. It is concluded that entry of a given marker into the cell interior can occur even if the replication site of the chromosome is stationary at a location distant from the locus of the resident homolog of the entering marker. A mechanism of donor deoxyribonucleic acid entry involving homology at the replication fork is excluded.
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PMID:Transport of donor deoxyribonucleic acid into the cell interior of thymine-starved Bacillus subtilis with chromosomes arrested at the terminus. 497 88

The decline in colony-forming ability observed during tryptophan starvation of Bacillus subtilis auxotrophs is a concentration-dependent phenomenon. It does not manifest itself when the initial cell concentration is 10(6) cells/ml or lower. This property has been used to test the killing activity of different fractions of the dying cells. Most of the activity recovered is found in the supernatant fluid of the starved culture. Sensitive and resistant strains can be identified. Active supernatant fluids can only be isolated from tryptophan auxotrophs sensitive to tryptophanless death. Resistant cells neither produce nor respond to the factor, and sensitive cells respond only when deprived of tryptophan. The killing activity is continuously produced and released into the medium at least up to 4 hr after removal of tryptophan from the culture. The killing activity is deoxyribonuclease-, ribonuclease-, and heat-resistant.
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PMID:Partial characterization of the factor responsible for tryptophanless death in Bacillus subtilis. 498 70

Structural studies of the proteins of the BstVI restriction-modification system of Bacillus stearothermophilus V were carried out using intrinsic fluorescence techniques. The exposure and environments of their tryptophanyl residues were determined using collisional quenchers. Quenching of BstVI endonuclease by iodide suggested a heterogeneous class of tryptophan residues, while the results obtained with M.BstVI methylase were consistent with a rather exposed tryptophan population. A comparison of the quenching efficiencies at 20 degrees C and 55 or 60 degrees C showed that their structures are more flexible and open at the temperature at which they exhibit maximal activity. The endonuclease reached its active conformation only after 1 h of incubation at 60 degrees C. Fluorescence changes were observed upon Mn2+ and Mg2+ binding, with Kd values in the range 3-5 microM. The binding of S-adenosyl-L-methionine to the methylase produced conformational changes, which were consistent with binding to a single site of Kd 550 and 680 microM at 20 degrees C and 55 degrees C, respectively. Quenching experiments with iodide showed that the presence of S-adenosyl-L-methionine leads to different conformational states at 20 degrees C and 55 degrees C. These results were interpreted in terms of differences in the structural characteristics of these restriction-modification proteins as well as in terms of differences in the conformational states that these enzymes exhibit at 20 degrees C and at the temperature at which they are most active.
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PMID:Structural studies of the BstVI restriction-modification proteins by fluorescence spectroscopy. 1042 88

RSR:I [N:6-adenine] DNA methyltransferase (M.RSR:I), which recognizes GAATTC and is a member of a restriction-modification system in Rhodobacter sphaeroides, was purified to >95% homogeneity using a simplified procedure involving two ion exchange chromatographic steps. Electrophoretic gel retardation assays with purified M.RSR:I were performed on unmethylated, hemimethylated, dimethylated or non-specific target DNA duplexes (25 bp) in the presence of sinefungin, a potent inhibitory analog of AdoMet. M. RSR:I binding was affected by the methylation status of the DNA substrate and was enhanced by the presence of the cofactor analog. M. RSR:I bound DNA substrates in the presence of sinefungin with decreasing affinities: hemimethylated > unmethylated > dimethylated >> non-specific DNA. Gel retardation studies with DNA substrates containing an abasic site substituted for the target adenine DNA provided evidence consistent with M.RSR:I extruding the target base from the duplex. Consistent with such base flipping, an approximately 1.7-fold fluorescence intensity increase was observed upon stoichiometric addition of M.RSR:I to hemimethylated DNA containing the fluorescent analog 2-aminopurine in place of the target adenine. Pre-steady-state kinetic and isotope- partitioning experiments revealed that the enzyme displays burst kinetics, confirmed the catalytic competence of the M.RSR:I-AdoMet complex and eliminated the possibility of an ordered mechanism where DNA is required to bind first. The equilibrium dissociation constants for AdoMet, AdoHcy and sinefungin were determined using an intrinsic tryptophan fluorescence-quenching assay.
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PMID:Substrate binding in vitro and kinetics of RsrI [N6-adenine] DNA methyltransferase. 1102 76