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Target Concepts:
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Query: EC:3.1.31.1 (
micrococcal nuclease
)
2,818
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The binding of mithramycin to DNA has been investigated using a variety of chemical and enzymic footprinting probes. Mithramycin failed to affect DNA modification by several chemical agents which react in the DNA major groove, suggesting that the drug binds via the minor groove. The pattern of reaction with diethylpyrocarbonate was modified by the antibiotic at the binding site and in surrounding regions, consistent with drug-induced structural changes.
Hydroxyl radical
and DNase I footprinting confirms that the drug binds best to GpG, especially when this is located within a GC-rich environment. Cleavage by DNase II and
micrococcal nuclease
is inhibited around drug binding sites and suggests a local stabilization of the DNA helix.
...
PMID:Footprinting studies of sequence recognition by mithramycin. 215 18
The stability of purified poliovirus RNA in cell-free translation systems prepared from HeLa cells or rabbit reticulocytes has been examined. Degradation of the RNA occurs with a t1/2 of approximately 35 min at 30 degrees C under conditions used for in vitro translation. Degradation is due in part to activity in the cell lysate, and in part to contaminants in the commercial preparations of creatine phosphokinase used in the energy-regenerating system. Addition of crude preparations of initiation factors significantly slows degradation, presumably as a result of protein-RNA interactions which confer resistance to nuclease action. Prior treatment of RNA with methylmercury
hydroxide
has no effect on degradation rates. On the other hand, endogenous mRNA, present as a messenger ribonucleoprotein particle in extracts from poliovirus-infected HeLa cells, remains completely intact during in vitro translation. These infected cell extracts synthesize the normal complement of viral proteins and utilize two different initiation sites for translation. Treatment of the infected cell extract with
micrococcal nuclease
destroys the endogenous mRNA. Subsequent addition of exogenous RNA to the same extract results in the formation of a protein-associated RNA particle with sedimentation properties slightly different from the endogenous messenger ribonucleoprotein, and the added RNA is unstable. We conclude that two initiation sites can be utilized on intact poliovirus mRNA, and fragmentation of the RNA is not prerequisite for generation of a second site in this RNA.
...
PMID:Stability of poliovirus RNA in cell-free translation systems utilizing two initiation sites. 625 40
The radiation chemistry of the DNA tetranucleoside triphosphate d(ApCpGpT) was investigated. Irradiations were carried out on aqueous solutions saturated with oxygen (with and without added Cu++), nitrogen or nitrous oxide. When oxygen was present, principal products were formed by hydroxylation at the 8-position of guanine and by degradation of thymine leaving a formamido remnant. Products were also formed containing both of the aforementioned lesions at adjacent deoxyguanosine and pyrimidine nucleosides. Other products resulted from rearrangement of the thymine ring generating two diastereoisomers of the 5-methyl-5-hydroxyhydantoin modification of d(ApCpGpT). Rearrangement of the cytosine ring occurred generating imidazolidine products and a hydantoin product. The product profiles are similar when either an N2O or N2 gaseous environment is maintained. However, in the latter case the dihydrothymine modifications of d(ApCpGpT) are markedly enhanced. Other products include an 8,5' cyclized product formed from the 2'-deoxyadenosine nucleoside and the 8-hydroxyguanine modification. 6-
Hydroxy
-5,6-dihydrothymine and 5,6-dihydroxy-5,6-dihydrothymine modifications of the thymidine nucleoside were also observed. A strand break product formed in oxygenated solution is also produced in nitrous oxide saturated solutions. Scission of the deoxyadenosine terminus was also observed. The effect of several of these lesions on d(ApCpGpT) as substrate for nuclease P1, bovine
spleen phosphodiesterase
and snake venom phosphodiesterase was studied.
...
PMID:Radiation chemistry of d(ApCpGpT). 749 May 1
A computational study was previously carried out to analyze DNA sequences that are known to position histone octamers at single translational sites. A conserved pattern of intrinsic DNA curvature was uncovered that was proposed to direct the formation of nucleosomes to unique positions. The pattern consists of two regions of curved DNA separated by preferred lengths of non-curved DNA. In the present study, 11 synthetic DNAs were constructed which contain two regions of curved DNA of the form [(A5.T5)(G/C)5]4 separated by non-curved regions of variable length. Translational mapping experiments of in vitro reconstituted mononucleosomes using exonuclease III,
micrococcal nuclease
and restriction enzymes demonstrated that two of the fragments positioned nucleosomes at a single site while the remaining fragments positioned octamers at multiple sites spaced at 10 base intervals. The synthetic molecules that positioned nucleosomes at a single site contain non-curved central regions of the same lengths that were seen in natural nucleosome positioning sequences.
Hydroxyl radical
and DNase I digests of the synthetic DNAs in reconstituted nucleosomes showed that the synthetic curved element on one side of the nucleosomal dyad assumed a rotational orientation where narrow minor grooves of the A-tracts faced the histone surface with all molecules. In contrast, the curved element on the other side of the nucleosome displayed variable rotational orientations between molecules which appeared to be related to the positioning effect. These results suggest that asymmetry between the two halves of nucleosomal DNA may facilitate translational positioning.
...
PMID:Unique translational positioning of nucleosomes on synthetic DNAs. 959 33
The (32)P-post-labelling assay has emerged as a major tool for detecting bulky DNA adducts in subjects exposed to carcinogens, especially aromatic compounds. However, the (32)P-post-labelling protocol still requires the use of high amounts of radioactivity, i.e. 25-50 muCi per sample, an obstacle that limits its use in large studies. The characterization of the DNA adducts measured is also limited. Methodological improvements and increased DNA adduct characterization are necessary to make this assay capable of achieving higher throughput. A new protocol was tested to ensure efficient hydrolysis to reduce the use of radioactive material and to obtain higher chromatography resolution. Different chromatography systems based on high-urea or ammonium
hydroxide
systems were also employed to characterize the adducts being measured. Improvements were tested by re-analysing DNA adducts in a group of police officers and urban residents in Genoa, Italy. The analysis of carcinogen-modified DNA standards was also included in the study for qualitative and quantitative comparison. An efficient DNA digestion was obtained using a method involving hydrolysis by
micrococcal nuclease
and a mixture of two spleen phosphodiesterases at fixed concentrations. A 72% reduction of the amount of radioactivity used for labelling was achieved in respect to the non-modified protocol without loss of DNA adduct sensitivity. An improved chromatography resolution was obtained by reducing the volume of sample to be spotted on the chromatogram. Lower volume of spotting sample can decrease sample diffusion and the formation of unresolved spots on the thin-layer chromatography plate. The amount of output produced using a single batch of carrier-free [gamma-(32)P]ATP was increased by about 3.5-fold. A complex pattern of DNA adducts was observed in leukocytes using both high-urea or isopropanol-ammonium
hydroxide
systems, two techniques effective in the detection of aromatic DNA adducts. The above observations indicate that DNA adducts being measured are likely to have been induced by aromatic compounds.
...
PMID:32P-Post-labelling method improvements for aromatic compound-related molecular epidemiology studies. 1771 83
