References
- Arundel C.M., Leith J.T. Effects of nutritional state on the expression of radiation injury in two tumor subpopulations obtained from a heterogeneous human colon carcinoma. International Journal of Radiation Oncology, Biology, and Physics 1986; 12: 59–67
- Bauer K.D., Keng P.C., Sutherland R.M. Isolation of quiescent cells from multicellular tumor spheroids using centrifugal elutriation. Cancer Research 1982; 42: 72–78
- Bradley M.O., Kohn K.W. X-ray induced DNA double strand break production and repair in mammalian cells as measured by neutral filter elution. Nucleic Acids Research 1979; 7: 793–804
- Cesarone C.F., Bolognesi C., Santi L. Improved microfluorometric DNA determination in biological material using 33258 Hoechst. Analytical Biochemistry 1979; 100: 188–197
- Cornforth M.N., Bedford J.S. A quantitative comparison of potentially lethal damage repair and the rejoining of interphase chromosome breaks in low passage normal human fibroblasts. Radiation Research 1987; 111: 385–405
- Darzynkiewicz Z., Traganos F., Sharpless T., Melamed M.R. Lymphocyte stimulation: A rapid multiparameter analysis. Proceedings of the National Academy of Sciences, U.S.A. 1976; 73: 2881–2884
- Dethlefsen L.A. In quest of the quaint quiescent cells. Radiation Biology in Cancer Research, R.E. Meyn, H. Rodney Withers. Raven Press, New York 1980; 415–435
- Evans R.G., Bagshaw M.A., Gordon L.F., Kurkjian S.D., Hahn G.M. Modification of recovery from potentially lethal X-ray damage in plateau phase Chinese hamster cells. Radiation Research 1974; 59: 597–605
- Fornace A.J., Nagasawa H., Little J.B. Relationship of DNA repair to chromosome aberrations, sister-chromatid exchanges and survival during liquid-holding recovery in X-irradiated mammalian cells. Mutation Research 1980; 70: 323–336
- Frankenberg-Schwager M., Frankenberg D., Harbich R. Potentially lethal damage repair is due to the difference of DNA double-strand break repair under immediate and delayed plating conditions. Radiation Research 1987; 111: 192–200
- Guichard M., Tubiana M., Malaise E.P. Changes in repair of potentially lethal damage with culture age in EMT6 cells. International Journal of Radiation Biology 1979; 35: 111–118
- Iliakis G. Repair of potentially lethal damage in unfed plateau phase cultures of Ehrlich ascites tumour cells. III. Monolayer cultures. International Journal of Radiation Biology 1980; 37: 591–600
- Iliakis G. Radiation-induced potentially lethal damage: DNA lesions susceptible to fixation. International Journal of Radiation Biology 1988; 53: 541–584
- Iliakis G., Okayasu R. The level of induced DNA double-strand breaks does not correlate with cell killing in X-irradiated mitotic and G1-phase CHO cells. International Journal of Radiation Biology 1988; 53: 395–404
- Kohn K.W., Erickson L.C., Ewig R.A.G., Friedman C.A. Fractionation of DNA from mammalian cells by alkaline elution. Biochemistry 1976; 15: 4629–4637
- Kohn K.W., Ewig R.A.G., Erickson L.C., Zwelling L.A. Measurement of strand breaks and cross-links by alkaline elution. DNA Repair: A Laboratory Manual of Research Procedures, E.C. Friedberg, P.C.Z. Hanawalt. Marcel Dekker, New York 1981; 379–401
- Little J.B. Factors influencing the repair of potentially lethal radiation damage in growth-inhibited human cells. Radiation Research 1973; 56: 320–333
- Luk C.K., Keng P.C., Sutherland R.M. Regrowth and radiation sensitivity of quiescent cells isolated from EMT6/Ro-fed plateau monolayers. Cancer Research 1985; 45: 1020–1025
- Murray D., VanAnkeren S.C., Meyn R.E. Applicability of the alkaline elution procedure as modified for the measurement of DNA damage and its repair in nonradioactively labelled cells. Analytical Biochemistry 1987; 160: 149–159
- Radford I.R. Evidence for a general relationship between the induced level of DNA double-strand breakage and cell-killing after X-irradiation of mammalian cells. International Journal of Radiation Biology 1986; 49: 611–620
- Radford I.R., Broadhurst S. Aphidicolin synchronization of mouse L cells perturbs the relationship between cell killing and DNA double-strand breakage after X-irradiation. International Journal of Radiation Biology 1988; 53: 205–215
- Schwartz J.L., Giovanazzi S., Weichselbaum R.R. Recovery from sublethal and potentially lethal damage in an X-ray sensitive CHO cell. Radiation Research 1987; 111: 58–67
- Sweigert S.E., Warters R.L., Dethlefsen L.A. Repair of DNA strand breaks in proliferating vs quiescent murine mammary tumor cells in vitro. Abstracts of Papers for the Thirty-sixth Annual meeting of the Radiation Research Society. 1988; 134–134
- Toolan H.W. Transplantable human neoplasms maintained in cortisone-treated laboratory animals: H.S.#1; H.Ep.#1; H.Ep.#2; H.Ep.#3; and H.Emb.Rh.#1. Cancer Research 1954; 14: 660–667
- VanAnkeren S.C., Wheeler K.T. Relationship between the repair of radiation-induced DNA damage and recovery from potentially lethal damage in 9L rat brain tumor cells. Cancer Research 1984; 44: 1091–1097
- Wallen C.A., Ridinger D.N., Dethlefsen L.A. Heterogeneity of X-ray cytotoxicity in proliferating and quiescent murine mammary carcinoma cells. Cancer Research 1985; 45: 3064–3069
- Warters R.L., Lyons B.W., Ridinger D.N., Dethlefsen L.A. DNA damage repair in quiescent murine mammary carcinoma cells in culture. Biochimica et Biophysica Acta 1985; 824: 357–364