Ellen Daniell scite author profile

We investigated the structure of adenovirus deoxyribonucleic acid (DNA)-protein complexes in nuclei of infected cells by using micrococcal nuclease. Parental (infecting) DNA was digested into multimers which had a unit fragment size that was indistinguishable from the size of the nucleosomal repeat of cellular chromatin. This pattern was maintained in parental DNA throughout infection. Similar repeating units were detected in hamster cells that were nonpermissive for human adenovirus and in cells pretreated with n-butyrate. Late in infection, the patternm of digestion of viral DNA was determined by two different experimental approaches. Nuclear DNA was electrophoresed, blotted, and hybridized with labeled viral sequences; in this procedure all virus-specific DNA was detected. This technique revealed a diffuse protected band of viral DNA that was smaller than 160 base pairs, but no discrete multimers. All regions of the genome were represented in the protected DNA. To examine the nuclease protection of newly replicated viral DNA, infected cells were labeled with [3H]thymidine after blocking of cellular DNA synthesis but not viral DNA synthesis. With this procedure we identified a repeating unit which was distinctly different from the cellular nucleosomal repeat. We found broad bands with midpoints at 200, 400, and 600 base pairs, as well as the limit digest material revealed by blotting. High-resolution acrylamide gel electrophoresis revealed that the viral species comprised a series of closely spaced bands ranging in size from less than 30 to 250 base pairs.Histones, the ubiquitous structural proteins of eucaryotic chromatin, are complexed with deoxyribonucleic acid (DNA) in repeating units called nucleosomes. The repeating element of chromatin structure has been characterized by electron microscopy and by digestion with micrococcal nuclease, which cuts between nucleosomes, yielding a multimeric array of DNA fragments (19,29

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Genome structure of incomplete particles of adenovirus

Daniell¹

1976

J Virol

141

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Incomplete particles arising during productive growth of adenovirus were separated from infectious particles by density gradient centrifugation. The DNA contained in particles of low density was characterized by restriction enzyme analysis and by electron microscopy and heteroduplexing techniques. The DNA is heterogeneous in length, ranging in size from 15% of the normal genome to full length. Many individual molecules contain long, inverted terminal repetitions, which consist of the sequences extending from the normal left-hand end of the viral genome inward; the normal right end sequences appear to be missing from these molecules. The region of the genome reiterated in these molecules is that which has been implicated in transformation of rat cells by adenovirus (Gallimore, Sharp, and Sambrook, 1974; Graham, van der Eb, and Heijneker, 1974). A model for adenovirus replication is presented that accounts for the aberrant structures observed.

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Mutations in the lactose operon caused by bacteriophage Mu

Daniell

Roberts

Abelson

1972

Journal of Molecular Biology

103

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Heteroduplex structures of bacteriophage Mu DNA

et al. 1973

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Potassium Enrichments in Interstitial Waters of Recent Marine Sediments

Mangelsdorf

Wilson

Daniell

1969

Science

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Ellen Daniell

Adenovirus chromatin structure at different stages of infection.

Genome structure of incomplete particles of adenovirus

Mutations in the lactose operon caused by bacteriophage Mu

Heteroduplex structures of bacteriophage Mu DNA

Potassium Enrichments in Interstitial Waters of Recent Marine Sediments

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