Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
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Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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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 major adenovirus
core protein
(P.VII) binds to various species of duplex and single-stranded DNA molecules as a linear function of P.VII concentration. P.VII progressively condenses 32S Ad2 DNA into rapidly sedimenting forms having an S value of around 2,280. P.VII does not coat DNA like cytochrome C, instead DNA-protein beads are visualized in the electron microscope at low protein concentration. These beads appear to interact forming larger structures and at high P.VII concentrations the DNA molecule becomes highly compacted. Analysis of DNA fragments formed after digestion of P.VII-DNA complexes and isolated cores with
micrococcal nuclease
suggest that the organization of the DNA in the two structures is essentially identical. The initial P.VII and DNA interaction is sensitive to both ionic and hydrophobic environments, whereas the in vitro DNA-P.VII complexes are extremely stable and are not disrupted in the presence of 3 M NaCl, 1% sarcosyl or 5% deoxycholate. Properties of these in vitro DNA-protein VII complexes share striking similarities to isolated viral core particles.
...
PMID:DNA-binding properties of the major core protein of adenovirus 2. 46 Nov 92
The transcription and replication of influenza RNA can be studied in vitro by the reconstitution of functional ribonucleoprotein (RNP) complex from viral core proteins including the RNA polymerase (complex of three P protein subunits) and nucleoprotein (NP), and model templates. Here, two different
core protein
preparations, one based on CsCl centrifugation (CS enzyme) and the other on
micrococcal nuclease
treatment of viral cores (MN enzyme), were compared side-by-side. Short model RNA templates and their 3'-half molecules of both viral RNA (vRNA) and complementary RNA (cRNA) senses were reconstituted with the
core protein
preparations in parallel, and RNA polymerase activity was tested either in the presence or absence of ApG or globin mRNA as primers. Both enzyme preparations were active in the syntheses of short vRNA and cRNA transcripts using ApG as a primer, although the synthesis of cRNA was 2-10-fold higher (depending on the template used) than the synthesis of vRNA. The MN enzyme, however, was more active per weight of total protein than the CS enzyme, probably because of its higher content of RNA polymerase. Both enzymes failed to show primer-independent synthesis of vRNA. The differences observed in the synthesis of short transcripts using globin mRNA as a primer are discussed.
...
PMID:Comparison of two reconstituted systems for in vitro transcription and replication of influenza virus. 161 40
The effects of the adenovirus type 2 (Ad2) structural proteins on Ad DNA synthesis in vitro have been examined. Both of the viral core proteins, polypeptides V and VII were shown to inhibit Ad2 DNA synthesis in vitro; however, only the major
core protein
, polypeptide VII, inhibited DNA synthesis at a ratio of protein to DNA proportional to the number of polypeptide VII molecules associated with the Ad2 DNA in the mature virion. In addition, fractions containing the precursor to polypeptide VII, pVII, were capable of inhibiting Ad2 DNA replication in vitro to the same extent as polypeptide VII. Purified polypeptide VII bound to double-stranded DNA with no apparent sequence specificity. In addition, polypeptide VII protected Ad2 DNA from digestion with
micrococcal nuclease
. The binding of polypeptide VII was probably responsible for the inhibition of Ad2 DNA synthesis in vitro by virtue of rendering the DNA inaccessible to viral replication proteins. These results suggest that the core proteins must be removed from the Ad2 genome before the template can function in genome replication and that assembly of pVII on Ad2 DNA can terminate the replication process.
...
PMID:Adenovirus DNA synthesis in vitro is inhibited by the virus-coded major core protein. 396 84
The structure of adenovirus chromatin in infected cells was studied by
micrococcal nuclease
digestion and hybridization with virus-specific probes. In the early phase of infection (5 h) a significant proportion of viral molecules was organized like actively transcribed cellular chromatin. As expected for a transcriptionally active population of molecules, even at high multiplicity of infection the nucleosomal repeating pattern was less distinct than in a transformed cell which contained the corresponding but less active genomic region. The observed repeating pattern in infected cells was unlikely to be due to integrated molecules since less than 0.07% of input genomes became associated with cellular DNA. After the onset of viral DNA replication, the pool of viral chromatin organized like cellular chromatin rapidly increased. In addition, newly replicated molecules also maintained the cellular chromatin-like organization as measured by [3H]thymidine incorporation after the cessation of cellular DNA synthesis. These data suggest that newly replicated viral molecules are organized by histones into cell-like chromatin throughout the infection cycle. Coincident with the peak of viral DNA and
core protein
synthesis, and the decline of histone synthesis, the late, core-like non-repeating viral chromatin became dominant, increasingly obscuring the underlying repeating pattern. Experiments suggest that this late chromatin is destined for encapsidation, that the early chromatin persists and that viral core proteins do not displace histones on viral DNA. A model is proposed suggesting that transcription and type I replication occur on histone-condensed templates, while type II replication products late in infection are condensed by core proteins and are destined for encapsidation.
...
PMID:The structure of adenovirus chromatin in infected cells. 406 82
Hepatitis B virus (HBV) nucleoprotein complexes were isolated from nuclei of the human hepatoblastoma cell line HepG2.2.15. Under conditions of physiological ionic strength, the complexes sedimented at a rate corresponding to about 82 S. They contained viral DNA, histone, and nonhistone proteins. For DNA a circular, covalently closed structure was shown both by CsCl gradient centrifugation and electron microscopy. Spread preparations revealed the typical "beads-on-a-string" appearance of nucleosomally organized DNA. The average number of nucleosomes was 18, resulting in a biochemical repeat unit of HBV chromatin of approximately 180 base pairs of DNA. This value was confirmed by experiments analyzing the structure of the HBV chromatin by the use of
micrococcal nuclease
. Electron microscopy demonstrated that exposure to high ionic strength conditions resulted in removal of nucleosomes from the complexes, but also revealed proteinaceous structures remaining bound to viral DNA molecules. The nature of these residual proteins is discussed. Since native nucleoprotein complexes could be precipitated with HBV-core antibodies,
core protein
appeared to be one of the nonhistone proteins.
...
PMID:Hepatitis B virus genome is organized into nucleosomes in the nucleus of the infected cell. 797 68
The icosahedral nucleocapsid of hepatitis B virus (HBV) consists of multiple subunits of a single 183 amino acids (aa)
core protein
encasing the viral genome. However, recombinant
core protein
alone also forms capsid-like particles. We have recently shown that a 238 aa protein centrally inserted into the
core protein
can be displayed on the particle surface. Here we demonstrate that replacement of the C-terminal basic domain by the 17 kDa
Staphylococcus aureus nuclease
also yields particles but that in these the foreign domains are located in the interior. The packaged nuclease is enzymatically active, and the chimeric protein forms mosaic particles with the wild-type
core protein
. Hence the HBV capsid is useful as a molecular platform which, dependent on the fusion site, allows foreign protein domains to either be packaged into or be exposed on the exterior of the particle. These results are of relevance for the use of the HBV capsid as a vaccine carrier, and as a target for antiviral therapy.
...
PMID:Packaging of up to 240 subunits of a 17 kDa nuclease into the interior of recombinant hepatitis B virus capsids. 1099 18
To test a previously coined "charge balance hypothesis" of human hepatitis B virus (HBV) capsid stability, we established an in vitro disassembly and reassembly system using bacterially expressed HBV capsids. Capsid disassembly can be induced by
micrococcal nuclease
digestion of encapsidated RNA. HBV
core protein
(HBc) mutants containing various amounts of arginine were constructed by serial truncations at the C terminus. Capsids containing smaller amounts of arginine (HBc 149, 154, and 157) remained intact after
micrococcal nuclease
digestion by native gel electrophoresis. Capsids containing larger amounts of arginine (HBc 159, 164, 169, and 171) exhibited reduced and more diffuse banding intensity and slightly upshifted mobility (HBc 159 and 164). Capsids containing the largest amounts of arginine (HBc 173, 175, and 183), as well as HBc 167, exhibited no detectable banding signal, indicating loss of capsid integrity or stability. Interestingly, capsid reassembly can be induced by polyanions, including oligonucleotides, poly-glutamic acid, and nonbiological polymer (polyacrylic acid). In contrast, polycations (polylysine and polyethylenimine) and low-molecular-weight anions (inositol triphosphate) induced no capsid reassembly. Results obtained by gel assay were confirmed by electron microscopy. Reassembled capsids comigrated with undigested parental capsids on agarose gels and cosedimented with undigested capsids by sucrose gradient ultracentrifugation. Taken together, the results indicate that HBV capsid assembly and integrity depend on polyanions, which probably can help minimize intersubunit charge repulsion caused mainly by arginine-rich domain III or IV in close contact. The exact structure of polyanions is not important for in vitro capsid reassembly. A large amount of independent experimental evidence for this newly coined "electrostatic interaction hypothesis" is discussed.
...
PMID:Testing an electrostatic interaction hypothesis of hepatitis B virus capsid stability by using an in vitro capsid disassembly/reassembly system. 1965 97
