D.R. Hull scite author profile

Nondividing human diploid fibroblasts maintained in medium containing 0.5% calf serum do not survive when exposed to low doses of UV (254 nm). The extent of killing is dose and strain dependent. DNA excision repair-proficient cells are more resistant than excision repair-deficient cells. Results of measurements of the effect of UV on RNA and protein synthesis in repair-proficient and -deficient (XP12BE) cells are reported. UV causes an immediate and equal depression of the RNA synthesis rate in both kinds of cells. A recovery to control rates was observed only at low (5 J/m2) doses in repair-deficient cells and at higher doses (20 J/m2) in repair-proficient cells. No recovery was observed at doses that cause substantial reductions in survival (greater than 5 J/m2 for XP12BE; greater than 40 J/m2 for repair-proficient populations). No initial effect on rate of protein synthesis was detected at doses less than 20 J/m2. However, in XP12BE populations, a decreased rate first evident at 15-30 h post-UV and before any cell degeneration and loss was observed for doses as low at 7 J/m2. This delayed effect was not observed in repair-proficient populations. The results are consistent with the hypothesis that the lethal action of UV in nondividing cells is one on DNA that leads to an inhibition of required protein synthesis by preventing RNA transcription.

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The rate of removal of pyrimidine dimers in quiescent cultures of normal human and xeroderma pigmentosum cells

Kantor

Hull

1984

Mutation Research/DNA Repair Reports

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The Effect of Ultraviolet Light on Arrested Human Diploid Cell Populations

Kantor¹,

Warner²,

Hull³

1977

Photochem & Photobiology

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The results of experiments to determine an effect of UV (254 nm) on human diploid fibroblasts (HDF) arrested with respect to division by using 0.5% fetal calf serum in the culture medium are reported. A fraction of cells from irradiated arrested populations, maintained in the arrested state post-irradiation, is lost from the populations. The extent of cell loss is hence-dependent and cell strain specific. A Xeroderma pigmentosum cell strain is more sensitive to UV than are normal HDF. No differences in sensitivity were observed when arrested populations established from normal HDF populations of various in oitro ages were used. The length of the pre-irradiation arrested period affects the sensitivity of normal HDF, which appear more resistant at longer arrested periods, but not the sensitivity of arrested Xeroderma populations. These results suggest that DNA repair processes play a role in maintaining irradiated cells in the arrested state. The suggestion is made that the lethal event caused by UV is an effect on transcription leading to an inhibition of required protein synthesis.

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A study of the effect of ultraviolet light on the division potential of human diploid fibroblasts

Kantor

Mulkie

Hull

1978

Experimental Cell Research

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D.R. Hull

The nucleotide sequence of the mRNA encoding the fusion protein of measles virus (Edmonston strain): A comparison of fusion proteins from several different paramyxoviruses

An effect of ultraviolet light on RNA and protein synthesis in nondividing human diploid fibroblasts

The rate of removal of pyrimidine dimers in quiescent cultures of normal human and xeroderma pigmentosum cells

The Effect of Ultraviolet Light on Arrested Human Diploid Cell Populations

A study of the effect of ultraviolet light on the division potential of human diploid fibroblasts

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