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Literature DB >> 4595300

Continued synthesis of bacterial DNA after infection by bacteriophage T4.

M S Scofield, W L Collinsworth, C K Mathews.

Abstract

Early in infection by bacteriophage T4, before replication has commenced, one can detect the presence of newly synthesized DNA which cosediments with parental phage DNA on sucrose gradients. As shown earlier (R. E. Murray and C. K. Mathews, 1969), some of this represents covalent attachment of new material to parental phage DNA molecules. However, as shown herein, most of it is bacterial DNA, which is synthesized after infection and presumably degraded to T4 DNA-sized pieces. The small amount of phage-specific DNA synthesis which occurs is apparently a repair process, for its extent is greatly increased if the phage are irradiated with ultraviolet light prior to infection. Analysis by means of pulse labeling with [(3)H]thymidine and DNA-DNA hybridization shows that host DNA synthesis continues at a significant rate (40 to 80% of the preinfection rate) as late as 10 min after infection at 37 C. Very early in infection this is primarily replicative synthesis, but later a repair process predominates. Presumably this represents attempted repair of damage being inflicted on host DNA by phage-coded nucleases.

Entities: Chemical Disease Species

Mesh：

Substances：

Year: 1974 PMID： 4595300 PMCID： PMC355383

Source DB: PubMed Journal: J Virol ISSN： 0022-538X Impact factor: 5.103

23 in total

Review 1. Enzymes of nucleic acid metabolism.

Authors: J F Koerner
Journal: Annu Rev Biochem Date: 1970 Impact factor: 23.643

2. Isolation of bacteriophage T4 mutants defective in the ability to degrade host deoxyribonucleic acid.

Authors: H R Warner; P Snustad; S E Jorgensen; J F Koerner
Journal: J Virol Date: 1970-06 Impact factor: 5.103

3. Changes of membrane proteins and their relation to deoxyribonucleic acid synthesis and cell division of Escherichia coli.

Authors: M Inouye; A B Pardee
Journal: J Biol Chem Date: 1970-11-10 Impact factor: 5.157

4. Intracellular inactivation of bacteriophage T4 early deoxyribonucleic acid.

Authors: C K Mathews
Journal: J Virol Date: 1970-05 Impact factor: 5.103

5. Bacteriophage-induced inhibition of host functions. I. Degradation of Escherichia coli deoxyribonucleic acid after T4 infection.

Authors: R J Warren; S K Bose
Journal: J Virol Date: 1968-04 Impact factor: 5.103

Review 6. Biological activity of bacteriophage ghosts and "take-over" of host functions by bacteriophage.

Authors: D H Duckworth
Journal: Bacteriol Rev Date: 1970-09

7. Biochemistry of deoxyribonucleic acid-defective amber mutant of bacteriophage T4. I. Ribonucleic acid metabolism.

Authors: C K Mathews
Journal: J Biol Chem Date: 1968-11-10 Impact factor: 5.157

8. Replication of phage lambda DNA.

Authors: J Tomizawa; T Ogawa
Journal: Cold Spring Harb Symp Quant Biol Date: 1968

9. Bacteriophage-induced inhibition of host functions. II. Evidence for multiple, sequential bacteriophage-induced deoxyribonucleases responsible for degradation of cellular deoxyribonucleic acid.

Authors: S K Bose; R J Warren
Journal: J Virol Date: 1969-06 Impact factor: 5.103

10. Early intracellular events in the replication of bacteriophage T4 deoxyribonucleic acid. V. Further studies on the T4 protein-deoxyribonucleic acid complex.

Authors: R C Miller; A W Kozinski
Journal: J Virol Date: 1970-04 Impact factor: 5.103

4 in total

4. Mutants of bacteriophage T4 deficient in the ability to induce nuclear disruption: shutoff of host DNA and protein synthesis gene dosage experiments, identification of a restrictive host, and possible biological significance.

Authors: D P Snustad; C J Bursch; K A Parson; S H Hefeneider
Journal: J Virol Date: 1976-04 Impact factor: 5.103