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Y E Nikiforov

Showing results (1-10 of 19) with videos related to

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Thescientificworldjournal|June 14, 2003
Spatial positioning of RET and H4 following radiation exposure leads to tumor developmentY E Nikiforov
Advances in Anatomic Pathology|May 20, 1999
Pathomorphology of thyroid gland lesions associated with radiation exposure: the Chernobyl experience and review of the literatureY E Nikiforov, D R Gnepp
Trends in Endocrinology and Metabolism: TEM|January 1, 1997
Risk factors for thyroid cancerY E Nikiforov, J A Fagin
Oncogene|October 27, 1998
Prevalence of minisatellite and microsatellite instability in radiation-induced post-Chernobyl pediatric thyroid carcinomasY E Nikiforov, M Nikiforova, J A Fagin
Oncogene|December 7, 2005
Interphase chromosome folding determines spatial proximity of genes participating in carcinogenic RET/PTC rearrangementsM Gandhi, M Medvedovic, J R Stringer, et al.
Oncogene|December 22, 1999
Chromosomal breakpoint positions suggest a direct role for radiation in inducing illegitimate recombination between the ELE1 and RET genes in radiation-induced thyroid carcinomasY E Nikiforov, A Koshoffer, M Nikiforova, et al.
Oncogene|August 15, 1996
Prevalence of mutations of ras and p53 in benign and malignant thyroid tumors from children exposed to radiation after the Chernobyl nuclear accidentY E Nikiforov, M N Nikiforova, D R Gnepp, et al.
Applied Immunohistochemistry & Molecular Morphology : AIMM|September 12, 2000
Thyroid transcription factor-1, thyroglobulin, cytokeratin 7, and cytokeratin 20 in thyroid neoplasmsP A Bejarano, Y E Nikiforov, E S Swenson, et al.
Oncogene|January 27, 2010
DNA breaks at fragile sites generate oncogenic RET/PTC rearrangements in human thyroid cellsM Gandhi, L W Dillon, S Pramanik, et al.
Radiation and Environmental Biophysics|January 11, 2002
On target cell numbers in radiation-induced H4-RET mediated papillary thyroid cancerT Radivoyevitch, R K Sachs, Y E Nikiforov, et al.
Pageof 2

Showing results (1-10 of 19) with videos related to

Sort By:
Pageof 2
Thescientificworldjournal|June 14, 2003
Spatial positioning of RET and H4 following radiation exposure leads to tumor developmentY E Nikiforov
Advances in Anatomic Pathology|May 20, 1999
Pathomorphology of thyroid gland lesions associated with radiation exposure: the Chernobyl experience and review of the literatureY E Nikiforov, D R Gnepp
Trends in Endocrinology and Metabolism: TEM|January 1, 1997
Risk factors for thyroid cancerY E Nikiforov, J A Fagin
Oncogene|October 27, 1998
Prevalence of minisatellite and microsatellite instability in radiation-induced post-Chernobyl pediatric thyroid carcinomasY E Nikiforov, M Nikiforova, J A Fagin
Oncogene|December 7, 2005
Interphase chromosome folding determines spatial proximity of genes participating in carcinogenic RET/PTC rearrangementsM Gandhi, M Medvedovic, J R Stringer, et al.
Oncogene|December 22, 1999
Chromosomal breakpoint positions suggest a direct role for radiation in inducing illegitimate recombination between the ELE1 and RET genes in radiation-induced thyroid carcinomasY E Nikiforov, A Koshoffer, M Nikiforova, et al.
Oncogene|August 15, 1996
Prevalence of mutations of ras and p53 in benign and malignant thyroid tumors from children exposed to radiation after the Chernobyl nuclear accidentY E Nikiforov, M N Nikiforova, D R Gnepp, et al.
Applied Immunohistochemistry & Molecular Morphology : AIMM|September 12, 2000
Thyroid transcription factor-1, thyroglobulin, cytokeratin 7, and cytokeratin 20 in thyroid neoplasmsP A Bejarano, Y E Nikiforov, E S Swenson, et al.
Oncogene|January 27, 2010
DNA breaks at fragile sites generate oncogenic RET/PTC rearrangements in human thyroid cellsM Gandhi, L W Dillon, S Pramanik, et al.
Radiation and Environmental Biophysics|January 11, 2002
On target cell numbers in radiation-induced H4-RET mediated papillary thyroid cancerT Radivoyevitch, R K Sachs, Y E Nikiforov, et al.
Pageof 2