Successive 3 H and 14 C Labeling of DNA in a Stimulus-Response System

Quiescent cells of the central zone region of the rat lens epithelium were stimulated to enter the proliferation cycle by wounding. RNA synthesis and a corresponding increase in poly(A)+/total RNA reached a peak by Hour 4. Cells progressed into the G1B compartment by Hour 10. A rise in protein synthesis began at Hour 8, and onset of DNA synthesis occurred by Hour 14. The timing of cell cycle progression that allowed escape from a dose of X irradiation that completely inhibited DNA synthesis was investigated. A growth-arrest point was identified at Hour 9 where 10 GY of X irradiation given before, but not after, completely inhibited earliest responding cells from entering DNA synthesis on schedule. Increased quantities of cells entered DNA synthesis on schedule as timing of the X irradiation was moved closer to the end of G1. Based on time relationships, the rise in protein synthesis is correlated with the "sufficient" event for the escape.

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Comparison of Recovery from Potential Mitotic Abnormality in Mitotically Quiescent Lens Cells after X, Neutron, and 56 Fe Irradiations

Riley

Lindgren²,

Miller³

et al. 1989

Radiation Research

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After exposure to various doses of 250 kVp X radiation, 0.85 Me V fission spectrum neutrons, or 600 MeV/A iron (Fe) particles, mitotically quiescent rat lens cells showed no visible evidence of radiation injury. However, following the mitogenic stimulus of wounding, mitotic abnormalities became evident when responding cells entered mitosis. Latent damage and recovery therefrom were monitored at 3, 7, 14, and 28 days after irradiation. Following doses of 1 to 10 Gy of X radiation, the recovery rate, indicated by a decrease in abnormalities with time, was proportional to dose, and the dose-effect slope decreased exponentially with time. Virtually no recovery occurred during the 28 days after 1.25 to 2.25 Gy of fission neutron radiation. After doses of 0.5 to 3.0 Gy of Fe particles, an increased expression of mitotic damage or recovery than recovery occurred. As a consequence of the differing patterns in time for expression of damage or recovery following X rays and the high-LET radiations, the relative biological effectiveness (RBE) increased from 3.6 to 16 for neutrons and from 2 to 10 for Fe particles over the 28-day observation period.

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Successive 3 H and 14 C Labeling of DNA in a Stimulus-Response System

Cited by 3 publications

References 10 publications

Tracking of nascent deoxynucleic acids enable by incorporation of uridine variant with 2 prime azidomethyl tag and click chemistry

Tracking of nascent deoxynucleic acids enable by incorporation of uridine variant with 2 prime azidomethyl tag and click chemistry

Escape from X-Ray-Induced Arrest for Lens Cells Stimulated from Quiescence: Time Relationship to RNA, Protein, and DNA Synthesis

Comparison of Recovery from Potential Mitotic Abnormality in Mitotically Quiescent Lens Cells after X, Neutron, and 56 Fe Irradiations

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