A. G. Underbrink scite author profile

Dose-response curves for pink somatic mutations in Tradescantia stamen hairs were analyzed after neutron and x-ray irradiation with doses ranging from a fraction of a rad to the region of saturation. The dose-effect relation for neutrons indicates a linear dependence from 0.01 to 8 rads; between 0.25 and 5 rads a linear dependence is indicated for x-rays also. As a consequence the relative biological effectiveness reaches a constant value (about 50) at low doses. The observations are in good agreement with the predictions of the theory of dual radiation action and support its interpretation of the effects of radiation on higher organisms. The doubling dose of x-rays was found to be nearly I rad.

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Tradescantia Stamen Hairs: A Radiobiological Test System Applicable to Chemical Mutagenesis

Underbrink

Schairer

Sparrow

1973

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Chromosomes and Cellular Radiosensitivity: I. The Relationship of D 0 to Chromosome Volume and Complexity in Seventy-Nine Different Organisms

Sparrow¹,

Underbrink²,

Sparrow³

1967

Radiation Research

102

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Influence of Radiation Dose Rate on Somatic Mutation Induction in Tradescantia Stamen Hairs

Nauman¹,

Underbrink²,

Sparrow³

1975

Radiation Research

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Relative Biological Effectiveness of X-Rays and 0.43-MeV Monoenergetic Neutrons on Somatic Mutations and Loss of Reproductive Integrity in Tradescantia Stamen Hairs

Underbrink¹,

Sparrow²,

Sparrow³

et al. 1970

Radiation Research

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Comparison of X-ray and gamma-ray dose-response curves for pink somatic mutations in Tradescantia clone 02

Underbrink

Kellerer

Mills

et al. 1976

Radiat Environ Biophys

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Summary.Microdosimetric data indicate that the mean specific energy, ~, produced by individual charged particles from X rays and gamma rays is different for the two radiation qualities by nearly a factor of two. In order to test whether this influences the initial, linear component in the dose-effect relations, a comparison was made between dose-response curves for pink somatic mutations in Tradescantia clone 02 stamen hairs following X and gamma irradiations. Absorbed doses ranged from 2.66 to 300 rad. The results are in agreement with predictions made on the basis of microdosimetric data. At low doses gamma rays are substantially less effective than X rays. The RBE of gamma rays vs. X rays at low doses was approximately 0.6, a value lower than those usually reported in other experimental systems.

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Oxygen enhancement ratios (OERS) for somatic mutations in tradescantia stamen hairs

et al. 1975

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Relative Biological Effectiveness of 0·43-MeV and Lower Energy Neutrons on Somatic Aberrations and Hair-length inTradescantiaStamen Hairs

Underbrink

Sparrow

et al. 1971

International Journal of Radiation Biology and Related Studies

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A. G. Underbrink

Mutations Induced in Tradescantia by Small Doses of X-rays and Neutrons: Analysis of Dose-Response Curves

Tradescantia Stamen Hairs: A Radiobiological Test System Applicable to Chemical Mutagenesis

Chromosomes and Cellular Radiosensitivity: I. The Relationship of D 0 to Chromosome Volume and Complexity in Seventy-Nine Different Organisms

Influence of Radiation Dose Rate on Somatic Mutation Induction in Tradescantia Stamen Hairs

Relative Biological Effectiveness of X-Rays and 0.43-MeV Monoenergetic Neutrons on Somatic Mutations and Loss of Reproductive Integrity in Tradescantia Stamen Hairs

Comparison of X-ray and gamma-ray dose-response curves for pink somatic mutations in Tradescantia clone 02

Oxygen enhancement ratios (OERS) for somatic mutations in tradescantia stamen hairs

Relative Biological Effectiveness of 0·43-MeV and Lower Energy Neutrons on Somatic Aberrations and Hair-length inTradescantiaStamen Hairs

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