[1]
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Karnaukhov, V.N. (1978) Luminescent spectral analysis of cell. Nauka, Moscow.
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[2]
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Karnaukhov, V.N. (2001) Spectral analysis in cell-level monitoring of environmental state. Nauka, Moscow.
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[3]
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Karnaukhov, V.N. (1978) Luminescent analysis of cell. Nauka, Moscow. http://www.edu.ru/db/ portal/e-library/ 00000048/00000048.htm
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[4]
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Karnaukhov, V.N., Yashin, V.A., Karnaukhova, N.A., Kazantsev, A.P. and Karnaukhov, A.V. (1999) Double-wave microfluorimeter “Radical DMF-2”. Book of Abstracts II Congress of Biophysicists of Russia, 2, 594-595.
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[5]
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Karnaukhova, N.A., Sergievich, L.A., Kuzhevskij, B.M. Sigaeva, E.A., Nechaev, O.Y., Karnaukhov, V.A. and Karnaukhov, V.N. (2007) A study of the correlation be-tween the functional activity of blood lymphocytes in different animals and intensity of neutrons near the earth surface. Biophysics, 52(4), 699-704.
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[6]
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Karnaukhova, N.A. (1984) Luminescence parameters of blood nuclear cells in process of immune reaction in or-ganism. Biophysics, 29(2), 276-279.
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[7]
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Karnaukhova, N.A. (1991) Changes in fluorescent spectra of acridine orange stained blood cells from patient suffering from lymphosarcoma and leukemias in the course of chemotherapy. Experimental Oncology, 13(1), 50-53.
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[8]
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Gordon, R.Y., Bocharova, L.S., Kruman, I.I., Popov, V.I., Kazantsev, A.P., Khutzian, S.S. and Karnaukhov, V.N. (1997) Acridine orange as an indicator of ribosome state in cell. Cytometry, 29(3), 215-221.
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[9]
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Karnaukhova, N.A., Sergiyevich, L.A., Aksenova, G.E. and Karnaukhov, V.N. (1999) Synthetic activity of rat blood lymphocytes under acute and continuous gamma irradiation-fluorescent microspectral study. Radiation and Environmental Biophysics, 38(1), 49-56.
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[10]
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Karnaukhova, N.A., Lubet, P.Е., Katania, R., Karnaukhov, А.V., Sergievich, L.A. and Karnaukhov, V.N. (2003) Microspectral studies on neuroendocrine regulation of gametogenesis in mollusk. Biophysics, 48(5), 869-873.
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[11]
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Karnaukhova, N.A., Sergiyevich, L.A. and Karnaukhov, V.N. (2008) Dinamics of ribosomal activity and protein production in peripheral blood lymphocytes during an immune response. Biophysics, 53(4), 632-637.
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[12]
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Karnaukhova, N.A., Sergievich, L.A., Kvakina, E.B., Barsukova, L.P., Mar’yanovskaya, G.Y. and Kuz’-menko, T.S. (2000) Study into the changes in the functional state of the synthesis apparatus of blood lymphocytes under the action of weak low-frequency magnetic fields. Biophysics, 45(4), 697-703.
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[13]
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Karnaukhova, N.A., Sergievich, L.A., Karnaukhov, V.A. and Karnaukhov, V.N. (2004) Changes in the synthetic activity of lymphocytes under the action of physical fac-tors related to Solar activity variations. Biophysics, 49(suppl.1), 552-559.
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[14]
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Karnaukhov, V.N., Lebedev, O.E. and Pavlenko, V.K. (1976) About two mitochondrial pools in a stretch-receptor neuron. Tsitologia, 18(10), 1189-1193.
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[15]
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Rudenko, Y.N., Bigdai, E.V. and Samoilov, V.O. (2007) Kinetics of Са2+, NADH and oxidized flavoproteids in the frog olfactory living under the effect of odorants. Bi-ophysics, 52(1), 88-94.
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[16]
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Thorell, B. (1981) Flow cytometric analysis of cellular endogenous fluorescence. Cytometry, 2(1), 39-43.
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[17]
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Roshchina, V.V. (2003) Autofluorescence of plant se-creting cells as a biosensor and bioindicator reaction. Journal of Fluorescence, 13(5), 403-420.
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[18]
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Karnaukhov, V.N., Martsenuk P.P. and Yashin, V.A. (1980) Luminescence spectral characteristics of physio-logical state of cells of blue-green algae. Fisiologia Rast, 27(1), 11-17.
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[19]
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Karnaukhov, V.N. and Yashin, V.A. (2003) Spectral stu-dies on single cells of sea microplankton: History and prospects. Biophysics, 48(5), 940-949.
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