Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Rat-liver chromatin was digested with micrococcal nuclease at low ionic strength in the presence of a low concentration of CaCl2. The nuclease digest was successfully separated into three fractions, P1, P2, and P3, by gel filtration on a column of Sepharose 2B. P1 fraction was shown to be a mixture of long fragments of partially digested chromatin by the sedimentation profile or by electrophoresis of DNA. P2 fraction contained four histones H2A, H2B, H3, and H4 in almost equal amounts, together with nonhistone protein of low molecular weight. The DNA was composed of three or four fragments less than 300 base pairs long. From the Kav value of the P2 fraction, the average size was estimated to be about 240 base pairs. On analytical ultracentrifugation, this fraction exhibited a monophasic boundary and a sedimentation value of 13.7S. P3 fraction contained nonhistone proteins which showed a molecular weight larger than that of H1 histone. The size of DNA was estimated to be less than 50 base pairs from the Kav value. Based on these results, the P2 fraction was concluded to consist of nucleosome monomer enriched in nonhistone proteins. The P3 fraction is presumably the nuclease-sensitive or internucleosome portion, which contains small amounts of nonhistone proteins.
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PMID:Isolation and characterization of chromatin subfractions from rat liver. 52 32

A simple method is described for converting a standard rabbit reticulocyte cell-free extract (lysate) into an mRNA-dependent protein synthesis system. The lysate is preincubated with CaCl2 and micrococcal nuclease, and then excess ethyleneglycol-bis(2-aminoethylether)-N,N'-tetraacetic acid is added to chelate the Ca2+ and inactivate the nuclease. Lysates treated in this way have neglibible endogenous amino acid incorporation activity, but 75% of the activity of the original lysate can be recovered by the addition of globin mRNA. The efficiency of utilisation of added mRNA and the sensitivity of the system are both very high. No residual nuclease activity could be detected, and the tRNA is functionally unimpaired. Several different species of mRNA have been shown to be translated efficiently into full-sized products of the expected molecular weight up to about 200000, and there is no detectable accumulation of incomplete protein products. The efficient translation of RNA from two plant viruses (tobacco mosaic virus and cowpea mosaic virus) required heterologous tRNA.
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PMID:An efficient mRNA-dependent translation system from reticulocyte lysates. 82 12

We developed a polyethylene glycol (PEG)-mediated direct DNA transfer method from intact Saccharomyces cerevisiae spheroplasts into Arabidopsis thaliana protoplasts. To monitor the DNA transfer from yeast to plant cells, beta-glucuronidase (GUS) reporter gene in which a plant intron was inserted was used as a reporter. This intron-GUS reporter gene on a 2 microns-based plasmid vector was not expressed in yeast transformants, while it expressed GUS activity when the plasmid DNA was introduced into plant cells. When a mixture of 1 x 10(8) of S. cerevisiae spheroplasts harboring the plasmid and 2 x 10(6) of A. thaliana protoplasts was treated with PEG and high pH-high Ca2+ solution (0.4 M mannitol, 50 mM CaCl2, 50 mM glycine-NaOH pH 10.5), GUS activity was detected in the extract of the plant cells after a three-day culture. The GUS activity was higher than that of a reconstitution experiment in which the mixture of 1 x 10(8) of S. cerevisiae spheroplasts which did not carry the reporter gene, 2 x 10(6) of A. thaliana protoplasts and the same amount of the reporter plasmid DNA as that contained in 1 x 10(8) of S. cerevisiae spheroplasts, was treated with PEG and high pH-high Ca2+ solution. Moreover, the GUS gene expression was resistant to micrococcal nuclease treatment before and during PEG treatment. From these results, we concluded that plasmid DNA can be directly transferred from intact yeast spheroplasts to plant protoplasts by a nuclease-resistant process, possibly by the cell fusion.
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PMID:Direct transfer of plasmid DNA from intact yeast spheroplasts into plant protoplasts. 806 37