A. Han scite author profile

The neoplastic transformation of C3H 10T1/2 cells induced by fission-spectrum neutrons delivered at a high dose rate is linear up to 40 cGy. Reducing the dose rate increases the frequency of transformation in the low dose region. At a dose rate of 0.086 cGy min-1, the initial part of the induction curve remains linear but it has a slope 9-fold greater than the initial part of the curve at a high dose rate.

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Action spectra for killing and mutation of Chinese hamster cells exposed to mid- and near-ultraviolet monochromatic light

Wells

Han

1984

Mutation Research/Fundamental and Molecular Mechanisms of Mutag

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Sensitivity of Synchronized Chinese Hamster Cells to Ultraviolet Light

Han¹,

Sinclair²

1969

Biophysical Journal

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The age response for lethality of Chinese hamster cells to ultraviolet light shows that they are resistant in G(1), sensitive as they move into and through the S phase and resistant again in G(2) and mitosis. Survival curves determined at different times in the cycle reveal that mitotic cells are the most resistant fraction, much more resistant than S cells, and more resistant than either G(1) or G(2) cells. The extent to which the age response is ilfluenced by nucleic acid and protein synthesis was investigated by using inhibitors of these processes. In the presence of inhibitors of DNA or protein synthesis added to G(1) cells before exposure, cell survival neither declines to the minimum survival of S cells nor rises subsequently to the resistance of G(2) cells. If, before exposure, DNA synthesis is arrested in the middle of S, when survival is at a minimum, the subsequent rise in survival during G(2) is not prevented. However when cycloheximide is added before exposure, during the middle of S, this rise is prevented. When actinomycin D, an inhibitor of RNA synthesis is added prior to exposure the age response is affected only slightly. Postirradiation treatment of G(1) and mid-S cells with inhibitors of DNA or protein synthesis maintains survival at a level characteristic of the age of the cells.

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Neoplastic Transformation Is Enhanced by Multiple Low Doses of Fission-Spectrum Neutrons

Hill¹,

Carnes²,

Han³

et al. 1985

Radiation Research

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The neoplastic transformation of C3H mouse 10T1/2 cells was measured induced by fission-spectrum neutrons delivered at a high dose rate in five fractions over 4 days. The transformation frequency was significantly enhanced over that due to single equivalent total doses. These new data, in the low dose region, demonstrate an increased transformation frequency by fractionated versus single exposures of high-dose-rate fission-spectrum neutrons; an increase equal to that observed with low-dose-rate fission-spectrum neutrons (i.e., 0.086 rad/min). Estimates of the dose modifying factor (DMF), based upon the ratio of the initial linear portions of the induction curves for high and for low dose rates, suggest the same DMF (approximately 7.8) for both five daily fractions of high-dose-rate neutrons and for low-dose-rate neutrons. However, when these results are compared to those following high-dose-rate 60Co gamma rays (100 rad/min), the relative biological effectiveness (RBE) for low-dose-rate fission-spectrum neutrons based upon slope ratios is 19.6; similarly, the RBE relative to five daily fractions of 60Co gamma rays is 78.8.

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A. Han

Fission-spectrum neutrons at reduced dose rates enhance neoplastic transformation

Fission-spectrum Neutrons at a Low Dose Rate Enhance Neoplastic Transformation in the Linear, Low Dose Region (0–10 cGy)

Action spectra for killing and mutation of Chinese hamster cells exposed to mid- and near-ultraviolet monochromatic light

Sensitivity of Synchronized Chinese Hamster Cells to Ultraviolet Light

Neoplastic Transformation Is Enhanced by Multiple Low Doses of Fission-Spectrum Neutrons

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