The purpose of this thesis is to examine the effect of hormone treatment in blastocyst development of in vitro cultured porcine oocyte. Oocytes used in the study was matured in vitro in the presence of 10% FBS or 10% pFF, and treated with FSH, LH or FSH+ LH, and the rate of blastocyst development was assessed based on the expression of autophagic genes. There was no significant differences in blastocyst development between oocytes maturaed in 10% FBS or 10% pFF. In vitro matured oocytes treated with FSH+LH showed blastocyst development rate as high as that of untreated oocytes, while groups treated with LH only showed a decrease in blastocyst development. About the expression of cell death assosiated factors, mRNA levels of autophagy and apoptosis genes were increased in oocytes matured in 10% FBS and treated with LH. Oocytes that did not receive hormone treatment showed low expression of most cell death genes except ATG5. When oocytes were matured in 10% pFF, ATG5 expression was the highest in FSH treated group, while LC3 showed strong expression in all hormone treated groups. On the other hand, the expression level of mTOR and caspase-3 did not show significant differences between groups. We also examined the protein level of apoptotic genes in the blastocyst. The amount of caspase-3 protein was similar between groups matured in 10% FBS and 10% pFF, but was the highest when treated with LH. Blastocysts treated with FSH and FSH+LH showed similar level of caspase-3 protein, while the level was the lowest when hormone treatment was not given. Within the blastocyst, caspase-3 was mostly expressed in trophoblast cells when matured in 10% FBS, while maturation in 10% pFF caused expression of this protein in the inner cell mass (ICM). Expression of MAP1LC3A was higher in groups matured in 10% pFF than groups matured in 10% FBS in all types of hormone treatment. Among the blastocysts matured in 10% pFF, MAP1LC3A level increased in the order of untreated < FSH < FSH+ LH. Expression of MAP1LC3A within the FBS-matured blastocyst was concentrated to the trophoblast, while pFF-matured blastocyst showed expression in both trophoblast and ICM. The expression of mTOR showed a pattern opposite to that of MAP1LC3A. That is, its expression was the lowest in 10% FBS group without hormone treatment. In both FBS and pFF group, and in all three combinations of hormone treatment, mTOR expression was ovserved mostly in ICM. Together, these results indicated that hormone treatments tend to induce expression of genes associated with programmed cell death. We suggest that proper induction of programmed cell death by FSH and LH treatment would increase the rate of blastocyst development. * This work was supported by BioGreen 21 Program (No. PJ008029). Rural Development Administation, Republic of Korea.

This study was conducted to detect the specific fragment genes by using RAPD-PCR and RFLP method in the Korean Tiger cattle and Korean Native cow. And then, the specific fragment gene was investigated by the analysis of the genes for detection significance according to the expressing pattern. We found the specific expression gene by the RAPD-PCR analysis in Korean Tiger cattle. It were a detected the differences of the species in the colour and external section. The Korean Tiger cattle were vary low compare to the Korean Native cattle by analysis result of polymorphism and distribution. And the polymorphism over 500bp into the size classification detected was highly pattern and it could be utilize by the resource of the specific gene. There was a found the specific gene by sequencing in the 1855bp gene fragment of Korean Tiger cattle. And the sequencing result of the R9B was different between Korean Native cow and Holstein cattle. Thus, this gene can be apply as the specific gene in the Korean Tiger cattle.