Search results for: Adenovirus Type 31 Sucrose Purified
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Transcription and accurate polyadenylation in vitro of RNA from the major late adenovirus 2 transcription unit.
Nucleoprotein complexes with in vitro transcription activity were isolated from HeLa cells late in lytic infection with Adenovirus type 2 (Ad2). Both polymerase II and polymerase III were active in these extracts, and greater than 85% of the labeled RNA was Ad2-specific. Electrophoretic analyses and Southern blot analyses demonstrated that RNA complementary to the entire 30 kb late transcription unit including RNA near the presumed termination site was synthesized. The addition of DRB (5,6,dichloro-1-beta-D-ribofuranosyl-benzimidazole) in vivo prior to the isolation of the complexes resulted in accumulation of polymerase II at the promoter proximal sites, but nascent chains started in vivo in DRB were successfully elongated in vitro. Approximately 10% of the RNA labeled in vitro contained poly(A), and the length of poly(A) was very similar to that of nuclear RNA isolated from Ad2-infected cells. The in vitro sites of poly(A) addition were specific--labeled poly(A)-terminated RNA molecules ended at a point on the genome coincident with previously mapped poly(A) sites of mRNAs produced in vivo. In addition, the polyadenylation enzyme (or enzymes) cosediment with the nucleoprotein complexes during sucrose gradient centrifugation since gradient purified complexes synthesize poly(A) containing RNA in vitro in the absence of any added nuclear extract.S Chen-Kiang, D J Wolgemuth, M T Hsu, J E Darnell
2379 related Products with: Transcription and accurate polyadenylation in vitro of RNA from the major late adenovirus 2 transcription unit.
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Intracellular forms of adenovirus deoxyribonucleic acid. I. Evidence for a deoxyribonucleic acid-protein complex in baby hamster kidney cells infected with adenovirus type 12.
The total intracellular deoxyribonucleic acid (DNA) from baby hamster kidney cells abortively infected with (3)H-adenovirus type 12 was analyzed in dye-buoyant density gradients. Between 10 and 20% of the cell-associated radioactivity derived from viral DNA bands in a density position which is 0.043 to 0.085 g/cm(3) higher than that of viral DNA extracted from purified virions. The DNA in the high-density region (HP-fraction) is almost completely absent when DNA, ribonucleic acid (RNA) or protein synthesis is chemically inhibited in separate experiments. The HP-fraction is not found when the virus does not adsorb to and enter the cell. The DNA in the HP-fraction appears as early as 2 hr after inoculation. At 2 hr after infection, the HP-fraction is present both in the nucleus and the cytoplasm. This DNA hybridizes exclusively with viral DNA and sediments at approximately the same rate in both neutral and alkaline sucrose density gradients. Electron microscopy has revealed no circular DNA molecules in this fraction. Evidence indicates that the viral DNA in the HP-fraction exists in a complex with protein and possibly RNA. The protein component of the complex is resistant to enzymatic digestion, whereas the complex is susceptible to ribonuclease treatment. Digestion with deoxyribonuclease reduces the amount of DNA found in the HP-fraction. The structure and biological function of this complex are currently being investigated.W Doerfler, U Lundholm, M Hirsch-Kauffmann
2137 related Products with: Intracellular forms of adenovirus deoxyribonucleic acid. I. Evidence for a deoxyribonucleic acid-protein complex in baby hamster kidney cells infected with adenovirus type 12.
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Intracellular uncoating of type 5 adenovirus deoxyribonucleic acid.
Highly purified, (32)P-labeled type 5 adenovirus was employed to study "uncoating" of viral deoxyribonucleic acid (DNA)-defined as the development of sensitivity to deoxyribonuclease. Viral infectivity and radioactivity adsorbed to KB cells at the same rate, and significant amounts of (32)P did not elute from cells throughout the eclipse period. Kinetic studies of viral penetration, eclipse of infectivity, and uncoating of viral DNA indicated that the three events were closely related temporally, that the rates of each were similar, and that they were completed within 60 to 90 min after infection. Viral penetration, eclipse, and uncoating proceeded normally under conditions which blocked protein synthesis, but they did not occur at 0 to 4 C. Neither viral DNA nor viral protein was degraded to acid-soluble material during the eclipse period. The nature of adenovirus DNA was studied after it was converted intracellularly from deoxyribonuclease-resistant to deoxyribonuclease-susceptible. Intact virions centrifuged in sucrose gradients had a sedimentation coefficient of approximately 800, and viral DNA sedimented as a particle of about 30S. Infection of KB cells with purified (32)P-labeled virus yielded deoxyribonuclease-susceptible viral nucleic acid which was in particles with sedimentation coefficients of 350 to 450S, i.e., greater than 10 times faster than DNA obtained from purified virions which had been disrupted by exposure to pH 10.5. When the DNA from disrupted virions was mixed with cell lysates, its sedimentation characteristics were essentially unchanged by the presence of cellular material.W C Lawrence, H S Ginsberg
1398 related Products with: Intracellular uncoating of type 5 adenovirus deoxyribonucleic acid.
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