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S G Andreev

Showing results (1-10 of 23) with videos related to

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Acta Biologica Hungarica|January 1, 1990
Differentiation control in cell cycle and development based on the alterations of higher-order chromatin structure. Theory and applications to radiation and chemical actionS G Andreev
Radiation Protection Dosimetry|August 27, 2002
Intrachromosomal exchange aberrations predicted on the basis of the globular interphase chromosome modelS G Andreev, YuA Eidelman
Radiation Protection Dosimetry|August 27, 2002
Biophysical study of the globular organisation of interphase chromosomesYuA Eidelman, S G Andreev
Radiation Protection Dosimetry|November 27, 2010
Complex interchanges as a complex function of chromosome organisationY A Eidelman, S G Andreev
Radiatsionnaia Biologiia, Radioecologiia|May 29, 1999
[Globular model of interphase chromosome and intrachromosomal exchange aberrations]S G Andreev, Iu A Eĭdel'man
Radiation Protection Dosimetry|December 25, 2010
Dose-response prediction for radiation-induced chromosomal instabilityS G Andreev, Y A Eidelman
Doklady Akademii Nauk SSSR|January 1, 1983
[Biophysical models of the self-organization of the spatial structure of chromatin]S G Andreev, D M Spitkovskiĭ
Radiation Protection Dosimetry|April 22, 2015
Computational model of dose response for low-LET-induced complex chromosomal aberrationsY A Eidelman, S G Andreev
Radiatsionnaia Biologiia, Radioecologiia|November 28, 2001
[Rejoining pathways underlying intrachange formation depend on interphase chromosome structure]S G Andreev, Iu A Eĭdel'man
Radiation Protection Dosimetry|August 27, 2002
Biophysical analysis of radiation induced initial DNA fragmentationI K Khvostunov, S G Andreev, YuA Eidelman
Pageof 3

Showing results (1-10 of 23) with videos related to

Sort By:
Pageof 3
Acta Biologica Hungarica|January 1, 1990
Differentiation control in cell cycle and development based on the alterations of higher-order chromatin structure. Theory and applications to radiation and chemical actionS G Andreev
Radiation Protection Dosimetry|August 27, 2002
Intrachromosomal exchange aberrations predicted on the basis of the globular interphase chromosome modelS G Andreev, YuA Eidelman
Radiation Protection Dosimetry|August 27, 2002
Biophysical study of the globular organisation of interphase chromosomesYuA Eidelman, S G Andreev
Radiation Protection Dosimetry|November 27, 2010
Complex interchanges as a complex function of chromosome organisationY A Eidelman, S G Andreev
Radiatsionnaia Biologiia, Radioecologiia|May 29, 1999
[Globular model of interphase chromosome and intrachromosomal exchange aberrations]S G Andreev, Iu A Eĭdel'man
Radiation Protection Dosimetry|December 25, 2010
Dose-response prediction for radiation-induced chromosomal instabilityS G Andreev, Y A Eidelman
Doklady Akademii Nauk SSSR|January 1, 1983
[Biophysical models of the self-organization of the spatial structure of chromatin]S G Andreev, D M Spitkovskiĭ
Radiation Protection Dosimetry|April 22, 2015
Computational model of dose response for low-LET-induced complex chromosomal aberrationsY A Eidelman, S G Andreev
Radiatsionnaia Biologiia, Radioecologiia|November 28, 2001
[Rejoining pathways underlying intrachange formation depend on interphase chromosome structure]S G Andreev, Iu A Eĭdel'man
Radiation Protection Dosimetry|August 27, 2002
Biophysical analysis of radiation induced initial DNA fragmentationI K Khvostunov, S G Andreev, YuA Eidelman
Pageof 3