This study was aimed to determine the effect of insulin supplementation in maturation and/or culture medium on nuclear maturation rate and the early bovine embryo development in vitro. Oocytes were collected and matured in maturation media without (IVM I-) or with (IVM I+) 10 ug/µL insulin at incubator 5% CO2 and the temperature of 39 °C, for early embryonic development evaluation, oocytes were divided into 4 groups, without the supplementation of insulin to the maturation medium and culture (IVM I-/IVC I-), insulin supplementation only the maturation medium (IVM I+/IVC I-), insulin supplementation only in the culture medium (IVM I-/IVC I+), and the combination of insulin supplementation to the maturation medium and culture (IVM I+/IVC I+). The result showed that supplementation of insulin to the maturation medium increased number nuclear maturation was higher 87.7% (P<0.05) compared to treatment without supplementation of insulin (70.1%). Cleavage rate in treatment IVM was higher IVM I-/IVC I- (55.8%), IVM I+/IVC I- (64.1%), IVM I-/IVC I+ (59.9%) (P<0.05). Result of the other were showed that early bovine embryo on day-4 cultured (IVC) reached 16 cell on treatment IVM I-/IVC I+(31,9%) and IVM I+/IVC I+ (27,1%) were higher compared to treatment IVM I-/IVC I-(2.9%) and IVM I+/IVC I- (2.5%) (P<0.05). In conclusion, supplementation of insulin to maturation medium and culture medium can increase nuclear maturation rate and improved early embryo cleavage rate.

Augustin, R., Pocar, P., Navarrete-Santos, A., Wrenzycki, C., Gandolfi, F., Niemann H. and Fischer B. (2001). Glucose transporter expression is developmentally regulated in in vitro derived bovine preimplantation embryos. Mol. Reprod. Dev. 60:370-376.

Barnett, D.K., and Bavister, B.D. (1996). What is relationship between the metabolism of preimplantation embryos and their developmental competence. Mol. Reprod. Dev. 43:105-133.

Cheatham, B. and Kahn, C.R. (1995). Insulin action and the insulin signaling network. Endocrinol. Rev. 16:117–42.

Darnell, J.E., Losish, H.F. and Baltimore, D. (1986). Molecular Cell Biology Scientific American Books Inc. 667-713.

Frishney, R.I. (1988). Culture of animal cells. A Manual of Basic Technique 2^ndedition. Alan R.Liss. Inc. New York. 57-84.

Gardner, D.K., Pool, T.B., Lane, M. (2000). Embryo nutrition and energy metabolism and its 410 relationship to embryo growth, differentiation, and viability. Seminars in Reprodoductive Medicine. 18:205–18.

Gordon, I. (2003). Laboratory of cattle production: 2^ndedition. London (GB): CABI Publishing.

Hara, H., Yamane, I., Noto, I., Kagawa, N., Kuwayama, M., Hirabayashi, Hochi, S. (2013). Microtubule assembly and in vitro development of bovine oocytes with increased intracellular glutathione level prior to vitrivication and in vitro fertilization. Zygote. 22:476-482.

Harvey, M.B. and Kaye, P.L. (1991). Mouse blastocyst respond metabolically to short term stumulation by insulin and IGF-1 through the insulin receptor. Mol. Reprod. Dev. 29:253-258.

Hashimoto, S., Minami, N., Takakura, R., Yamada, M., Imai, H. and Kashima, N. (2000). Low oxygen tension during in vitro maturation is beneficial for supporting the subsequent development of bovine cumulus-oocyte complexes. Mol. Reprod. Dev. 57:353-360.

Karja, N.W.K., Kikuchi, K., Fahrudin, M., Ozawa, M., Somfai, T., Ohnuma, K., Noguchi, J., Kaneko, H., and Nagai T. (2006). Development to the blastocyst stage, the oxidative state, and the quality of early developmental stage of porcine embryos cultured in alteration of glucose concentrations in vitro under different oxygen tensions. Reprod. Biol. Endocrinol. 4:54 1-12.

Lee, E.S., Fukui, Y., Lee B.C., Lim J.M. and Hwang, W.S. (2004). Promoting effect of amino acids added to a chemically defined medium on blastocyst formation and blastomere proliferation of bovine embryos cultured in vitro. Anim. Reprod. Sci. 84: 257-267.

Lehninger, A.L. (1991). Dasar dasar biokimia. Jilid 1 dan 3. Alih Bahasa Thenawidjaja M. IPB. Penerbit Erlangga Jakarta.

Lequare, S.A., Marchandase, J., Moreau, B., Massip, A. and Donnay, I. (2003). Cell cycle at the time of maternal zygotic. Biol. of Reprod. 69:1707-1713.

Lonergan, P., Gutierrez-Adan, A., Pintado, B., Fair, T., Ward, F., Fuente, J.D., and Boland, M. (2000). Relationship between time first cleavage and the expression of IGF-I growth factor, its receptor, and two housekeeping genes in bovine two-cell embryos and blastocyst produced in vitro. Reprod. Biol. and Endocrinol. 7:146-152.

Meirelles, V.F., Caetano, R.A., Watanabe, F.Y., Ripamonte, P., Carambula, F.S., Merighe, K.G. and Garcia, M.S. (2004). Genome activation and developmental block in bovine embryos. Anim. Reprod. Sci. 82-83:13-20.

Muttaqin, Z., Karja, N.W.K. and Setiadi, M.A. (2015). Kemampuan maturasi dan fertilisasi oosit sapi yang diseleksi menggunakan teknik pewarnaan brilliant cresyl blue. Jurnal Veteteriner. 16(2):242-248.

Nedambale, L.T. Du, F., Yang, X. and Tian, C.X. (2006). Higher survival rate of vitrified and thawed in vitro produced blastocysts following culture in defined medium supplemented with β-mercaptoethanol. Anim. Reprod. Sci. 93: 61-75.

Park, S.H., Cho, H.S. and Yu, I.J. (2014). Effect of bovine follicular fluid on reactive oxygen species and glutathione on oocytes, apoptosis and apoptosis-related gene expression of in vitro-produced blastocysts. Reprod. Dom. Anim. 1:1-8.

Rao, L.V., Wikarczuk, M. and Heyner, S. (1990). Functional roles of insulin and insulinlike growth factors in preimplantation mouse embryo development. In Vitro Cell. Dev. Biol. 26: 1043-1048.

Rieger, D. (1996).The metabolic activity of cattle oocytes and early embryos. J. Reprod. Dev. 42 (Suppl):85-89.

Sakkas, D. and Trounson, A.D. (1991). Formulation of a complex serum-free medium (CSM) for use in the co culture of mouse embryos with cells of the female reproductive tract. Reprod. Fert. Dev. 3:1 99-108.

Schultz, G.A., Hogan, A., Watso, A.J., Smith, R.M. and Heyner, S. (1992). Insulin, insulin –like growth factors and glucose transporters : temporal patterns of gene expression in early murine and bovine embryos. Reprod. Fert. Dev. 4: 361-371.

Setiadi, M.A. and Karja, N.W.K. (2013). Tingkat perkembangan awal embrio sapi in vitro menggunakan media tunggal berbahan dasar tissue culture medium (TCM) 199. J. Kedokteran Hewan. 7:150-154.

Sjaastad, O.V., Hove, K. and Sand, O. (2003). The physiology of domestic animals. 1. ed. Oslo: Scandinavian Veterinary Press.

Steel, R.G.D. and Torrie, J.H. (1993). Prinsip dan prosedur statistika: suatu pendekatan biometric. Sumantri B, penerjemah. Jakarta (ID): Gramedia Pustaka Utama.

Steeves, T.E. and Gardner, D.K. (1999). Temporal and differential effects of amino acids on bovine embryo development in culture. Biol. Reprod. 61:731-740.

Sutton, M.L., Gilchrist, R.B. and Thompson, J.G. (2010). The pivotal role of glucose metabolism in determining oocyte development competence. Reproduction. 139:685-695.

Wongsrikeao, P., Otoi, T., Taniguchi, M., Karja, N.W.K., Agung, B., Nii, M. and Nagai T. (2006). Effects of hexoses on in vitro oocyte maturation and embryo development in pigs. Theriogenology. 65:332-343.