Chemical and biological consequences of ?-decay

1 September 1977

journal article
research article
Published by Springer Nature in Radiation and Environmental Biophysics

Vol. 14 (3), 167-183
https://doi.org/10.1007/bf01323937

Abstract

Radioactive decay in a labelled molecule leads to specific chemical and biological consequences which are due to local transmutation effects such as recoil, electronic excitation, build-up of charge states and change of chemical identity, as well as to internal radiolytic effects. In the present paper these effects are reviewed emphasizing the relation of the chemical alterations on a molecular level to the biological manifestation. Potential importance of this type of research for biomedical applications is pointed out. In part 1 we review the underlying physical and chemical principles and consequences of β-decay of³H,¹⁴C,³²P,³³P,³⁵S and¹²⁵I for gaseous and simple condensed organic systems. Part 2 which will appear in the next issue will include the discussion of biological effects associated with β-decay.

This publication has 34 references indexed in Scilit:

Specific inactivation of solid carbonic anhydrase upon x-ray resonance absorption in the constituent zinc atom
Journal of the American Chemical Society, 1976
Intramolecular effects of radioiodine decay in o-iodophenol, a model for radioiodinated proteins
Journal of the American Chemical Society, 1975
Biological damage from the Auger effect, possible benefits
Radiation and Environmental Biophysics, 1975
Chemical effects of nuclear transformations in Moessbauer spectroscopy
Accounts of Chemical Research, 1971
Free Radicals Formed in Cytosine-5-3H by Decay of the Constituent Tritium Atom
The Journal of Chemical Physics, 1968
Reactions of Bromine Activated by Bromine−82m Isomeric Transition and Radiative Neutron Capture in Liquid and Solid Carbon Tetrachloride and n-Hexane
The Journal of Chemical Physics, 1966
Formation of Fragment Ions from CH3Te125 and C2H5Te125 Following the Nuclear Decays of CH3I125 and C2H5I125
The Journal of Chemical Physics, 1963
496. Beta energy recoil effects of carbon-14 in toluene and ethylbenzene
Journal of the Chemical Society, 1962
Hot atom chemistry of halogens activated in β-decay—I: The chemical state of 131I from 131Te-labelled dibenzyl telluride
Journal of Inorganic and Nuclear Chemistry, 1961
Dissociation of TH and T2 by β-decay
Journal of Inorganic and Nuclear Chemistry, 1959

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