Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.21.1 (DNase)
 7,655 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A cell-free coupled system of transcription and translation using cell extracts from Bacillus subtilis and DNA from phage SP82 has been developed. Under optimum conditions, it incorporated approx. 300 pmol methionine during a 1 h incubation. The activity of the system increased linearly as the concentration of S-150 supernatant fraction protein increased from 125 to 325 microgram per assay. The optimum Mg2+ concentration was 12.5-15 mM. Ribosomes required treatment with DNAase in order to reduce endogenous activity, but the S-150 fraction was kept DNAase-free to prevent degradation of exogenously added DNA. The coupled system was sensitive to inhibitors of RNA and protein synthesis. Kinetic studies showed that the number of pmol of nucleotides present in newly synthesized RNA increased linearly for the first 20-min reaction and that the rate of amino acid incorporation increased linearly for the first 30 min. Polyacrylamide gel electrophoresis of the in vitro synthesized products yielded a band pattern that closely resembled the pattern of early phage SP82 proteins produced in vivo.
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PMID:DNA-directed cell-free protein-synthesizing system of Bacillus subtilis. 9 69

We have examined the effect of the delta subunit on the interaction of the Bacillus subtilis RNA polymerase with an early gene promotor of phase SP82. Methylation by dimethyl sulfate, used to probe close approaches of polymerase to purines, revealed that noninitiated complexes formed by holo-enzyme (core-sigma-delta) had significantly fewer contacts than complexes formed by core-sigma. The presence or absence of delta had little or no effect on close approaches to purines in initiated complexes. DNAase I footprinting indicated that core-sigma was bound to the same region regardless of whether delta, initiating nucleotides, or both, were present. These data support the conclusion that delta acts prior to initiation to enhance promoter selectivity by limiting the number of possible interactions that the polymerase can make with DNA.
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PMID:The effect of the delta subunit on the interaction of Bacillus subtilis RNA polymerase with bases in a SP82 early gene promoter. 628 15

After digestion by TaqI or nicking by DNAase I, five highly modified bacteriophage DNAs were tested as substrates for T4 DNA ligase. The DNAs used were from phages T4, XP12, PBS1, SP82, and SP15, which contain as a major base either glucosylated 5-hydroxymethylcytosine, 5-methylcytosine, uracil, 5-hydroxymethyluracil, or phosphoglucuronated, glucosylated 5-(4',5'-dihydroxypentyl)uracil, respectively. The relative ability of cohesive-ended TaqI fragments of these DNAs and of normal, lambda DNA to be ligated was as follows: lambda DNA = XP12 DNA greater than SP82 DNA approximately equal to nonglucosylated T4 DNA greater than T4 DNA = PBSI1 DNA much greater than SP15 DNA. Taq I-T4 DNA fragments were also inefficiently ligated by Escherichia coli DNA ligase. However, annealing-independent ligation of DNAase I-nicked T4, PBS1, and lambda DNAs was equally efficient. We conclude that the poor ligation of Taq I fragments of T4 and PBS1 DNAs was due to the hydroxymethylation (and glucosylation) of cytosine residues at T4's cohesive ends and the substitution of uracil residues for thymine residues adjacent to PBS1's cohesive ends destabilizing the annealing of the restriction fragments. Only SP15 DNA with its negatively charged, modified base was unable to serve as a substrate for T4 DNA ligase in an annealing-independent reaction; therefore, its modification directly interfered with enzyme binding or catalysis.
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PMID:Ligation of highly modified bacteriophage DNA. 665 91

We have recently described three group I introns inserted into a single gene, orf142, of the staphylococcal bacteriophage Twort and suggested the presence of at least two additional self-splicing introns in this phage genome. Here we report that two previously uncharacterized introns, 429 and 1087 nt in length, interrupt the Twort gene coding for the large subunit of ribonucleotide reductase (nrdE). Reverse transcription-polymerase chain reaction (RT-PCR) of RNA isolated from Staphylococcus aureus after phage infection indicates that the introns are removed from the primary transcript in vivo. Both nrdE introns show sequence similarity to the Twort orf142 introns I2 and I3, suggesting either a common origin of these introns or shuffling of intron structural elements. Intron 2 encodes a DNA endonuclease, I-TwoI, with similarity to homing endonucleases of the HNH family. Like I-HmuI and I-HmuII, intron-encoded HNH endonucleases in Bacillus subtilis phages SPO1 and SP82, I-TwoI nicks only one strand of its DNA recognition sequence. However, whereas I-HmuI and I-HmuII cleave the template strand in exon 2, I-TwoI cleaves the coding strand in exon 1. In each case, the 3' OH created on the cut strand is positioned to prime DNA synthesis towards the intron, suggesting that this reaction contributes to the mechanism of intron homing. Both nrdE introns are inserted in highly conserved regions of the ribonucleotide reductase gene, next to codons for functionally important residues.
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PMID:Two self-splicing group I introns in the ribonucleotide reductase large subunit gene of Staphylococcus aureus phage Twort. 1197 30

Here we describe the discovery of a group I intron in the DNA polymerase gene of Bacillus thuringiensis phage Bastille. Although the intron insertion site is identical to that of the Bacillus subtilis phages SPO1 and SP82 introns, the Bastille intron differs from them substantially in primary and secondary structure. Like the SPO1 and SP82 introns, the Bastille intron encodes a nicking DNA endonuclease of the H-N-H family, I-BasI, with a cleavage site identical to that of the SPO1-encoded enzyme I-HmuI. Unlike I-HmuI, which nicks both intron-minus and intron-plus DNA, I-BasI cleaves only intron-minus alleles, which is a characteristic of typical homing endonucleases. Interestingly, the C-terminal portions of these H-N-H phage endonucleases contain a conserved sequence motif, the intron-encoded endonuclease repeat motif (IENR1) that also has been found in endonucleases of the GIY-YIG family, and which likely comprises a small DNA-binding module with a globular betabetaalphaalphabeta fold, suggestive of module shuffling between different homing endonuclease families.
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PMID:The nicking homing endonuclease I-BasI is encoded by a group I intron in the DNA polymerase gene of the Bacillus thuringiensis phage Bastille. 1279 34