The physiological functions of the ovary and development of the corpus luteum occur through the activation of endocrine hormones. In this process, estrogen, a reproductive hormone, is secreted in the ovarian follicle and corpus luteum and affects corpus luteum formation and regression. Estrogen controls the synthesis of reproductive hormones by binding to estrogen receptor–α and –β. Estradiol–17β, synthesized in the ovary, regulates the physiological function of the corpus luteum and the angiogenesis signaling pathway. Estrogen controls progesterone synthesis, which is regulated by StAR-transported cholesterol, P450scc-converted pregnenolone in mitochondria, and 3β-HSD-synthesized progesterone in the smooth endoplasmic reticulum. Estrogen secretion is also stimulated by kisspeptin and regulated by gonadotropin-releasing hormone, follicle-stimulating hormone, and luteinizing hormone. Moreover, the formation of the corpus luteum is closely regulated by angiogenesis. VEGF is an important factor in angiogenesis and plays a role in the survival, proliferation, and migration of endothelial cells. Especially, VEGF–A is a key factor in the physiological functions of endothelial cells. VEGF binds VEGFR–2 and affects the signaling pathways of PI3K, Akt, MAPK, and ERK. Also, VEGF binds to HIF–1α, inducing VEGF secretion. Estrogen promotes the activation of HIF–1α, while the activation of mTOR and Akt stimulates VEGF secretion. Therefore, estrogen is a major reproductive hormone in physiological function and the synthesis and secretion of endocrine hormones in the ovary and corpus luteum.

인슐린(insulin)과 insulin-like growth factor-1 (IGF-1)은 척추동물에서 대사, 생장, 수명 등의 여러 생리대사를 조절하는 중요한 호르몬 이다. 곤충에서도 IGF-1과 구조적으로 유사한 insulin-like peptide (ILP)들이 존재하며 이들이 곤충 생리 조절에 중요하게 관여함이 밝혀졌다. 이번 총설에서 곤충 ILP 및 초파리(Drosophila melanogaster) 유전체 분석을 통해 척추동물에 존재하는 인슐린 및 IGF-1 수용체 신호전달계와 유 사하다고 확인된 ILP 수용체 신호전달계에 대해 설명하고자 한다. 추가적으로, 곤충 체내의 영양 상태에 따라 조절되는 뇌에서의 ILP의 합성과 분비, ILP에 의한 대사의 생리적 조절에 대해 논한다. 또한 ILP가 생장, 발달, 생식, 휴면에 기여하는 바도 논의하고, 마지막으로 ILP 수용체 신 호전달계 제어를 통한 해충 방제에의 이용 가능성에 대해 제안하고자 한다.

Male rats were fed a purified diet containing one of 3 experimental diets, gelatinized rice starch that was not modified physically (RC), gelatinized physically modified rice starch using ultrasonic homogenizer(RU), gelatinized physically modified rice starch using hydroshear homogenizer(RH) during 28 days. RC was used as the rice starch control. Feeding a physically modified rice starch (RU) caused an increase in liver weight and RH increased RNA and protein contents in kidney significantly although there were no differences in food intakes compared to feeding a RC diet. The wet weight of liver, kidney and heart were higher in RU. The wet weights of fecal output of the rats fed RH was greater than in rice control group. The gut transit time was longer in the rats fed RH than in the rice control group significantly. Serum GOT, GPT, total bilirubin concentration were tended to be lower and blood urea nitrogen was significantly lower in RH group. The maturation index of kidney was higher in RU than in RC. These results suggest that physically modified rice starch improved growth performance and physiological functions in organs of growing rats.

고추 유묘의 생장, 광합성, 호흡 및 양수분흡수에 미치는 온도 및 주야변온의 영향을 구명하기 위하여 환경조절이 가능한 생장상내에서 실험을 수행한바 얻어진 결과는 다음과 같다. 1. 고추육묘시 적온으로 생각되는 25℃에 비하여 온도가 12℃로 저하함에 따라 수분 및 N, P, K 양분흡수에 현저한 감소를 보였으며, 5℃에는 양수분의 흡수가 거의 이루어지지 않았다. 2. 엽의 광합성은 5℃에서 25℃까지는 점차적으로 증가되다가 25℃에서 최대광합성을 보였으며, 엽과 근의 호흡은 온도가 증가할수록 계속 증가하였다. 3. 지하부 건물중이 가장 높은 적정 주야온도조합은 주간 30℃와 야간 25℃로 나타났고, 주/야 온도 25/25℃, 30/15℃, 25/15℃, 15/25℃, 10/25℃ 간에는 큰 차이가 있었으며, 야간온도 5℃에서는 주간온도에 관계없이 지상부 건물중 증가가 거의 없었다.

본 연구는 PME 처리가 미생물의 생리변화에 미치는 영향을 중심으로 PME의 항균작용을 규명하기 위해서 소수성 분획과 친수성 분획으로 분리하고, 공시균주를 사용하여 미생물의 성장 및 에너지대사 관련효소의 활성에 미치는 영향을 조사하였다. 매실추출물 분획별 항균활성은 변패미 생물인 C. fragariae를 대상으로 paper disk법으로 관찰하였다. 총 추출물(PME)의 소수성 분획은 C. fragariae의 성장을 저해하기는 하나 그 효과가 총

BAAG의 첨가배지상에서 미생물세포의 생육이 크게 억제된다는 실험결과를 토대로, 미생물에 대한 항균작용의 방식을 알아 보고자, Botrytis cinerea를 배양하여 분리한 여러 가지 효소 활성에 미치는 영향을 조사하였다. 특히 에너지 대사와 관련된 효소들에 대한 영향을 살펴보기 위하여 여러가지 대사경로에서 주요한 역할을 하는 효소인, hexokinase,glucose 6-phosphate dehydrogenase, malate dehydrog

Soyfoods have potential roles in the prevention and treatment of chronic diseases, most notably cancer, osteoporosis, and heart disease. There is evidence that carcinogenesis are supressed by isolated soybean derived products in vivo such as a protease inhibitor, phytic acid, saponins and isoflavones. It is believed that supplementation of human diets with soybean products markedly reduces human cancer mortality rates. Especially, recent papers recognize the potential benefit of soybean isoflavone components for reducing the risk of various cancers. Isoflavones exhibit a multitude of medicinal effects that influence cell growth and regulation, which may have potential value in the prevention and treatment of cancer. In addition to potential biological effects, soybean isoflavones have the important physiological functions such as the induction of Bradyrizobium japonicum nod genes and the responses of soybean tissues to infection by Phytophthora megasperma as well as biochemical activities such as antifungal and antibacterial actions. Genistin, daidzin, glycitin and their aglycone (genistein, daidzein, glycitein) are the principal isoflavones found in soybean. Malonyl and acetyl forms have also been detected but they are thermally unstable and are usually transformed during the processing in glucoside form. Most soy products, with the exception of soy sauce, alcohol-extracted soy protein concentrate, and soy protein isolate, have total isoflavone concentrations similar to those in the whole soybean. Soybean-containing diets inhibit mammary tumorigenesis in animal models of breast cancer, therefore, it is possible that dietary isoflavones are an important factor accounting for the lower incidence and mortality from breast cancer. Of the total soybean seed isoflavones, 80~~90~% were located in cotyledons, with the remainder in the hypocotyls. The hypocotyls had a higher concentrations of isoflavones on a weight basis compared with cotyledons. Isoflavone contents were influenced by genetics, crop years, and growth locations. The effect of crop year had a greater impact on the isoflavone contents than that of location. The climate condition might be the attribution factor to variation in isoflavone contents. Also, while the isoflavone content of cotyledons exhibited large variations in response to high temperature during seed development, hypocotyls showed high concentration in isoflavone content. So, it is concluded that one of the factors affecting isoflavone content in soybean seeds is temperature during seed development. High temperature, especially in maturity stage, causes lower isoflavone content in soybean seed. It is also suggested that there may exist a different mechanism to maintain isoflavone contents between cotyledon and seed hypocotyls. In a conclusion, soy foods may be able to have a significant beneficial impact on public health.

To investigate the antimicrobial activities and effect of grapefruit seed extract(GFSE) on the physiological function of microorganism, antimicrobial activity, fatty acids of bacterial cell lipid and amino acids of bacterial cell protein were measured. The change of cell morphotype was observed by transmission electron microscope. GFSE was very stable on the wide range temperture and pH. The growth rate of E. coli and B. suvtilis were decreased above 40ppm GFSE There fore, minimum inhibitory concentration (MIC) of the E. coli and B. subtilis to GFSE were determined around 40ppm. In the change of fatty acids quantities, hexadecanoate was significantly decreased on the treatment compared with control in case of E. coli, whereas tridecanoate was not detected in case of B. subtilis. In the change of amino acids quantities, alanine, glutamic acid, glycine, lysine were decreased on the treatment compared with control in case of E. coli and B. subtilis Transmission electron microsgraphs(TEM) showed the microbial cells were destroyed by GFSE.