Cancer Genetics and Epigenetics 2015, Vol.3, No.13, 1-6
6
vitro produced bovine embryos, Endocrinology, 142: 1309-1316
Reik W., 2007, Stability and flexibility of epigenetic gene regulation in
mammalian development, Nature, 447: 425-432
Reik W., Dean W., and Walter J., 2001, Epigenetic reprogramming
in mammalian development, Science, 293: 1089-1093
Robertson K.D., 2001, DNA methylation, methyltransferases, and
cancer, Oncogene, 20: 3139-3155
Rountree M.R., Bachman K.E., Herman J.G., and Baylin S.B., 2001, DNA
methylation, chromatin inheritance, and cancer, Oncogene, 20: 3156-3165
Sallinen S.L., Sallinen P.K., Haapasalo H.K., Helin H.J., Helen P.T.,
Schraml P., Kallioniemi O.P., and Kononen J., 2000, Identification of
differentially expressed genes in human gliomas by DNA microarray
and tissue chip techniques, Cancer Res, 60: 6617-6622
Santos F., Hendrich B., Reik W., and Dean W., 2002, Dynamic reprogramming of
DNA methylation in the early mouse embryo, Dev Biol, 241: 172-182
Schuller A.G., Zwarthoff E.C., and Drop S.L., 1993, Gene expression of the
six insulin-like growth factor binding proteins in the mouse conceptus
during mid- and late gestation, Endocrinology, 132: 2544-2550
Suva M.L., Riggi N., and Bernstein B.E., 2013, Epigenetic reprogramming
in cancer, Science, 339: 1567-1570
Van Kleffens M., Groffen C., Lindenbergh-Kortleve D.J., Van Neck J.W.,
Gonzalez-Parra S., Dits N., Zwarthoff E.C., and Drop S.L., 1998, The
IGF system during fetal-placental development of the mouse, Mol Cell
Endocrinol, 140: 129-135
Yazawa T., Sato H., Shimoyamada H., Okudela K., Woo T., Tajiri M., Ogura
T., Ogawa N., Suzuki T., Mitsui H., Ishii J., Miyata C., Sakaeda M.,
Goto K., Kashiwagi K., Masuda M., Takahashi T., and Kitamura H.,
2009, Neuroendocrine cancer-specific up-regulating mechanism of
insulin-like growth factor binding protein-2 in small cell lung
cancer, Am J Pathol, 175: 976-987
