수은은 생물 축적과 먹이사슬을 통한 생물 농축되며, 미량에서도 유해한 영향을 나타내기 때문 에 해양 환경 내에서 중요한 문제가 되고 있다. 그러나 해양 소형 갑각류에 대한 수은의 생 물 영향은 다른 금속에 비해 연구가 미흡하다. 본 연구에서는 기수산 물벼룩 Diaphanosoma celebensis을 아치사 농도(0.2, 0.4, 0.8 μg/l)의 무기 수은(HgCl2)에 48시간 노출시킨 후, 대사 관련 유전자의 발현 양상을 조사하였다. 해독효소 유전자 5종(cytochrome P450; cyp360A1, cyp361A1, cyp4AP3, cyp4C122, cyp370C5)과 소화효소 6종(alpha amylase (AMY), alpha amylase related protein (AMY-like), trypsin (TRYP), chymotrypsin-like protein (CHY), lipase (LIP), pancreatic lipase-related protein (PLRP))의 유전자 발현을 quantitative real time reverse transcription polymerase chain reaction (qRT-PCR)을 이용하여 분석하였다. Cyp 유전자의 경우 clan2에 속 하는 cyp370C5와 clan4에 속하는 cyp4AP3 유전자의 발현이 농도 의존적으로 유의하게 증가 하였다. 한편 소화효소 유전자 중에서는 단백질 소화와 관련 있는 TRYP 유전자의 발현이 농도 의존적으로 증가하였다. 이러한 결과는 cyp370C5와 cyp4AP3가 수은 독성을 해독하는 과정 에서 중요한 역할을 담당할 것으로 보이며, 수은이 소화효소 유전자의 발현을 조절함으로써 에너지 대사에 영향을 미칠 수 있음을 제시한다. 본 연구는 해양 소형 갑각류에서 수은에 대한 분자 수준의 영향을 이해하는데 도움이 될 것이다.

The objective of this study was to determine effects of phosphorus on lignification and carbohydrate metabolism in Kentucky bluegrass under drought stress. Drought stress was induced by reducing of water to plants in pots. Two types of phosphorus were applied as potassium phosphate (PO4 3-; P) or potassium phosphonate (PO3 3-; PA) in drought-stressed plants. Drought had significant negative effects on plant growth, as revealed by reduced biomass of shoot. Drought-induced increase of lignin content was concomitant with the increase of phenylalanine ammonia-lyase (PAL). Soluble sugar content was highly increased but fructan content was largely decreased by drought stress. However, the application of phosphorus was efficient to ameliorate the adverse effects of drought. PA application improved reduced shoot growth and relative water content, and inhibited lignification synthesis with a reduction of PAL activity. P or PA application maintained soluble sugar and fructan content at similar levels to controls under drought stress. These results indicate that phosphorus application may mitigate the drought stress by inhibiting the lignification and promoting the fructan assimilation.

Diabetic mellitus (DM) is a carbohydrate metabolic disorder that involves high blood sugar because insulin works abnormally. Type 2 diabetes accounts for most of them. However, diabetes treatments such as GLP-1 and DPP-4 inhibitors commonly caused side effects including gastrointestinal disorders. Grifola frondosa (G. frondosa) revealed various pharmacological effects in recent studies. It has a variety of anti-cancer polysaccharides through host-mediated mechanisms. D-fraction in G. frondosa has apoptotic effects, promoting myeloid cell proliferation and differentiation into granulocytes-macrophages. It has also been shown to reduce the survival rate of breast cancer cells. Though, no further study has been conducted on the specific effects of G. frondosa in the db/db mouse. Therefore, we would like to research the blood glucose improving effect of G. frondosa, a natural material, in type 2 diabetes model mouse, in this study. G. frondosa was administered to the disease model mouse (BKS.Cg-+Leprdb/+Leprdb/OlaHsd) for 8 weeks to monitor weight and blood glucose changes every week. And we evaluated anti-diabetes effects by checking biomarker changes shown through blood. Experiment did not show statistically significant weight differences, but control groups showed significantly higher weight gain than G. frondosa administered groups. We collected blood from the tail veins of the db/db mouse each week. As a result, the lowest blood sugar level was shown in the 500 mg/ kg group of G. frondosa. Glucose in the blood was examined with HBA1c, and 7.8% was shown in the 500 mg/kg administration group, lower than in other groups. These results suggest the potential improvements of diabetes in G. frondosa.

Jak-STAT pathway is required for embryogenesis, female gametogenesis, cytokine-mediated neuroprotection, diabetes, obesity, cancer, stem cell, and various tissues. The noncanonical role of Jak-STAT in mitochondria function was supported by the detection of STAT protein in mitochondria, however, several studies show that STAT protein is detected in the endoplasmic reticulum (ER), and not in mitochondria. STAT protein may alter mitochondria function without entering mitochondria, this involves regulation of fission and fusion proteins to change mitochondria morphology. However, how changes in mitochondria morphology lead to changes in mitochondria metabolism needs further investigation.

Diets different in crude protein (CP) and undegraded intake protein (UIP) contents were offered to sheep in a metabolism study to describe their effects on nutrient digestibility and nitrogen (N) metabolism. Six Corriedale sheep (body weight=56.2±2.3 kg) were divided in random within a Latin square design (replicated) to 1 of 3 diets: 1) a low-CP diet (LP; 12.2% CP with 35.1% UIP), 2) high CP with low UIP diet (HPLU; 14.9% CP with 33.7% UIP), and 3) high CP with high UIP diet (HPHU; 15.5% CP with 45.8% UIP). High-protein dried distillers grain and soybean meal were the main CP sources for the adjustment of UIP:DIP in the diets. No significant differences were found in feed consumption and nutrient digestibility; however, a greater proportion of CP was digested in sheep fed the HPLU diet (69.4%; P=0.04). Although N intake was greater in sheep receiving HPLU and HPHU diets, loss of N through fecal or urinary route was not different among sheep, which resulted in the highest (12.7 g/d) and lowest N retention (7.40 g/d) in HPHU- and LP-fed sheep, respectively. In conclusion, although CP or UIP content had marginal effects on feed consumption and whole-tract digestibility of the majority of nutrients, with the increased CP and UIP levels in the diet, the efficiency of N utilization was improved with regard to increased N retention with minimal differences in N excretion, which is important from an economic and environmental standpoint.

본 연구는 복합운동이 여성노인의 폐기능, 혈중 비타민 D, 칼슘 및 골대사호르몬에 미치는 영향을 구명하기 위해 만 65세 이상 여성노인을 대상으로 운동군(n=13), 대조군(n=17)으로 구분하여 주 3회, 회당 60분의 복합운동을 실시하였다. 유산소 운동 강도는 1-4주는 40-50%HRR(RPE 12-13), 5-8주는 50-60%HRR(RPE 13-14), 9-12주는 60-70%HRR(RPE 14-15)의 강도로 설정하였고 저항 운동 강도는 1-4주는 OMNI-RES(3-4), 5-8주는 OMNI-RES(5-6), 9-12주는 OMNI-RES(7-8)강도로 설정하였다. 그 결과 폐기능 중 FEV1은 그룹×시기 간 상호작용 효과가 나타났고 운동군의 FVC/FEV1이 유의하게 증가하였다. 비타민 D는 그룹×시기 간 상호작용 효과가 나타났고, 운동군과 대조군 모두 유의하게 증가하였다. 칼슘은 그룹×시기 간 상호작용 효과가 나타났으며 대조군이 유의하게 감소하였다. 골대사호르몬 중 칼시토닌과 오스테오칼신은 그룹×시기 간 상호작용 효과가 나타났고, 오스테오칼신은 대조군이 유의하게 감소하였다. 따라서 본 연구의 결과를 통해 12주간의 복합운동이 여성노인의 신체활동을 활발하게 하여 폐 기능을 개선하고 혈중 비타민 D의 결핍을 완화할 수 있다고 생각되지만 칼슘 및 골대사호르몬에서는 유의미한 결과를 나타내지 못하였다.

본 연구는 알츠하이머(Alzheimer’s disease: AD) 형질전환 생쥐를 대상으로 저항성 운동 (resistance exercise: RE)이 해마의 베타 아밀로이드(β-amyloid: Aβ) 단백질 대사, 신경세포사멸 및 인지기능에 미치는 영향을 확인하는데 목적이 있다. AD 비 형질전환 생쥐(non-transgenic: non-tg, n=14) 와 형질전환 생쥐(transgenic: Tg, n=14)를 무선 배정하여 비 형질전환 생쥐 대조군 (non-tg-control: NTC, n=7), 비 형질전환 생쥐 저항성 운동군(non-tg-RE: NTRE, n=7), 형질전환 대조군(tg-control: TC, n=7) 및 형질전환 저항성 운동군(tg-RE: TRE, n=7)으로 구분하였다. RE는 특수 제작한 사다리 저항성 운동 기구를 사용하여 점진적으로 set 수를 증가시켜 총 8주간 실시하였다. 운동 후 인지기능 능력을 평 가하기 위한 수중미로검사와 Aβ 단백질 대사, 신경세포사멸 지표 및 SIRT1/PGC-1α 단백질 발현 수준 을 확인하였다. 수중미로검사 결과 거리와 시간 모두 TC 집단에서 유의하게 증가 되었지만 RE를 실시한 TRE 집단에서 거리와 시간이 감소 되어 인지능력이 개선된 것으로 확인되었다. 또한, TC 집단에서 증가 된 Aβ 단백질 발현은 RE를 통해 감소하는 것으로 나타났다. 신경세포사멸 관련 단백질인 Bcl-2/Bax ratio는 TC 집단에서 유의하게 감소되어 신경세포사멸이 증가 된 것으로 나타났지만 RE는 Bcl-2/Bax ratio을 증가시켜 신경세포사멸을 감소시킨 것으로 확인되었다. TC 집단에서 증가된 BACE1 및 ROCK1 과 감소된 ADAM10과 RARβ 단백질 발현은 RE를 통해 감소되거나 증가 된 것으로 나타났고, SIRT1/ PGC-1α 단백질 발현은 TC 집단에서 감소 되었지만 RE를 통해 증가 된 것으로 나타났다. 따라서 8주간 의 RE는 AD의 병리학적 특징인 Aβ 단백질 발현을 감소시키고 관련 생성 기전들을 조절하여 (SIRT1/PGC-1α 기전 활성, 아밀로이드 생성기전 억제, 비-아밀로이드 생성기전 활성) 신경세포사멸 억제시키고 결과적으로 인지기능을 개선 시킬 수 있는 효과적인 운동 방법이라고 생각된다.

This study was conducted to evaluate the functionality of fermented black garlic extracts under various conditions. Black garlic powder was prepared by aging for 0~72 hours at 80℃ depending on relative humidity (RH). It showed the highest antioxidant effects among the samples; the total antioxidant activity of black garlic powders at RH 75%, 84%, and 90% for 72 hours was increased 31.9 times, 28.2 times, and 22.6 times compared with that of the fresh garlic powder, respectively. Also, the alliin content was gradually decreased. S-ally-L-cysteine and S-ethyl-cysteine levels were increased; the highest values were 495.9 μg/g and 1,769.7 μg/g after aging for 72 hours at RH 75%. Aspartate transaminase (AST) and alanine transaminase (ALT) levels were increased following high fat diet feeding, but the rise was obviously reduced by administration of black garlic extract. The total cholesterol, LDL/VLDL-cholesterol, and triglyceride contents in serum were significantly lower in methionine and choline deficient (MCD) diet treatment groups than in the positive control group. The concentration was increased following the intake of black garlic and fermented black garlic extracts. Therefore, black garlic extracts could be an ideal material as a dietary supplement in healthy functional foods to improve the effects on fatty liver.

본 연구는 만 65세 이상 85세 이하의 제2형 당뇨병 비만 여성 노인을 대상으로 12주간 복합운동 후 irisin, 신체조성 및 당 대사에 미치는 영향을 구명하기 위하여 복합운동군(n=20), 대조군(n=16)으로 구분하여 실시하였다. 복합운동 프로그램은 야외 걷기 운동과 탄성 밴드 운동을 12주간 주 3회, 1회 60분 간 실시하였으며, 야외 걷기 운동의 운동강도는 중강도(RPE 5~6)로 수행되었으며, 탄성 밴드 운동은 1~4주는 저강도(OMNI-RES 3~4), 5~8주는 중강도(OMNI-RES 5~6), 9~12주는 고강도(OMNI-RES 7~8)로 점진적으로 운동강도를 증가시켰다. 그 결과 복합운동군의 irisin이 유의하게 증가하였고(p<.001), 체지방률은 유의하게 감소하였으며(p<.001), 골격근량은 유의하게 증가하였다(p<.001). 당 대사 관련 인자 중 HbA1c(p=.020), 혈당(p<.001)은 유의하게 감소하였고, HOMA-β는 유의하게 증가하였다(p<.001). Irisin의 변화는 체지방률의 변화와 부적 상관이 있는 것으로 나타났고(r=-.423, p=.010), 유산소성 지구력 변화와 정적 상관이 있었다(r=.355, p=.034). 또한, HbA1c(r=-.351, p=.036)와 혈당(r=-.424, p=.010)의 변화는 부적 상관이 있었으며, HOMA-β는 정적 상관이 있는 것으로 나타났다(r=.411, p=.013). 결론적 으로 규칙적인 복합운동의 실천은 제2형 당뇨병 비만 여성노인의 혈중 irisin의 수준을 증가하고, 신체조성 변화에 긍정적인 영향을 주는 것으로 나타났다. 그리고 당화혈색소, 공복혈당 및 인슐린 분비능을 개선하여 당 대사 조절 능력에 도움을 주어 당뇨 예방 및 관리를 위해 효과적인 운동으로 권장될 것으로 사료된다.

고지방식이에 의해 유도한 비만모델동물에서 지장김치의 혈액 중 유해 지질 감소, 항비만 효능 및 그 작용 메카니즘을 조사하였다. 4개의 처리구는 CD(일반식이를 섭취한 정상 대조구, chow diet as normal control), HFD(고지방식이를 섭취한 비만 대조구, high fat diet as obesity), HFDCK(고지방식이+일반김치 추출물 투여구), HFDJK(고지방식이+지장김치 추출물 투여구)로 구분하여 김치추출물을 28일 동안 경구투여 하였다. 체중, 간 및 지방조직 무게는 비만모델동물에서 HFDJK가 HFDCK에 비해서 낮았다(p<0.05). 혈액 중성지방, 총콜레스테롤, LDL-C, 혈당은 HFD와 비교할 때 CD, HFDJK, HFDCK의 순서대로 낮았으며 HFDJK는 HFDCK에 비해 낮았다(p<0.05). 간 및 지방세포의 크기는 HFD, HFDCK, HFDJK의 순서대로 증가하였으며 HFDJK는 HFDCK에 비해서 크게 낮았다(p<0.05). 결과는 비만모델동물에서 지장김치의 섭취가 일반김치에 비해서 혈액 지질과 혈당을 낮추고 지방세포의 크기를 줄여줌으로써 항비만 효능을 갖는다는 점을 나타낸다.

본 연구는 저지방식이를 섭취한 난소절제 암컷 쥐에서 피노피브레이트(fenofibrate) 단독처리 및 피노피브레이트와 17베타-에스트라다이올(17β-estradiol)과의 동시처리가 혈청 속 지질대사를 조절하는지를 조사하였고, 피노피브레이트와 17베타-에스트라다이올의 동시처리에 의해 혈청 속 지질대사에 대한 피노피브레이트 단독처리의 효과가 어떻게 조절되는지를 연구하였다. 저지방식이만을 섭취한 대조군에 비해 피노피브레이트가 단독처리된 쥐와 피노피브레이트와 17베타-에스트라다이올이 동시처리된 쥐의 8주째 몸무게는 감소되지 않았다. 피노피브레이트 단독처리와 피노피브레이트와 17베타-에스트라다이올 동시처리는 혈청 속 총 콜레스테롤과 HDL-콜레스테롤을 감소시키지 않았다. 피노피브레이트는 대조군에 비해 혈청 속 LDL-콜레스테롤과 중성지방을 감소시켰다. 피노피브레이트 단독처리에 비해 피노피브레이트와 17베타-에 스트라다이올 동시처리는 혈청 속 중성지방에 대해 유익한 변화를 나타내었다. 따라서 본 연구는 저지방식이를 섭취한 난소절제 암컷 쥐에서 fenofibtae 단독처리에 의해 감소된 혈청 속 중성지방은 피노피브레이트와 17베타-에스트라다이올의 동시처리에 의해 개선될 수 있음을 발견하였다.

Oilseed rape is known to crop having low nitrogen use efficiency (NUE) but requires high levels of N fertilizer. NUE is associated with N remobilization from source to sink organ, consequently affects seed yield. Remobilization of leaf N is also related to transport of C/N metabolites in phloem. However, interaction between seed yield and phloem transport was not fully documented. In response to seed yield, N and C metabolites and their transport into seed from bolting to pod filling stage investigated in two contrasting genotypes (Capitol and Pollen) cultivated under ample (HN) or limiting nitrate (LN) supply. Seed yield was significantly reduced in N limitation and its reduction rate was much lower in Capitol than in Pollen compared to HN treated plants. Amino acid and protein content was higher in Capitol than in Pollen at bolting stage. They gradually decreased during plant development but not significant between two cultivars and/or two treatments. Glucose, fructose and sucrose content were 1.8-,1.6- or 1.25-fold higher in LN condition than in HN condition, respectively. Amino acid and sucrose content in phloem were largely higher in Capitol than in Pollen under LN condition. These results indicate that the higher seed yield might be related to greater transport ability of amino acid and sucrose in phloem under LN condition.

This study was to confirm the effect of supplementation of superjami bran extract on lipid and antioxidant metabolism. Twenty-five subjects were recruited, and divided into Superjami group (n=12), and Placebo group (n=13) random assignment. Among the groups, the Superjami group took a Superjami bran extract (2 g/2 capsule/day), and the Placebo group took dextrin (2 g/2 capsule/day), for 12 weeks. As a result of the experiment, concentrations of TG, TC, and HDL-C in the blood, were significantly lower than those in the control group, and HDL-C was significantly higher. AI and HTR also showed positive values. Leptin did not differ significantly, but as a result of adipectin, the Superjami group displayed a higher value, compared to the Placebo group, and LAR also had significantly lower value. Antioxidant results showed that GPx, CAT, and RGLU, were significantly higher before as well as after intakes of the Superjami group, and significantly higher levels of the Superjami group, compared to the Placebo group. AOPP showed significantly lower values for the Superjami group, compared to the Placebo group. So, based on this study, ingestion of Superjami bran extract is effective in improving blood lipid concentrations as well as inflammatory substances, and has positive effects relative to increasing antioxidant activity.

Ginseng, the root of the Panax ginseng, has been widely used as a traditional herbal medicine in Korea, China, and Japan for thousands of years. Now ginseng has become popular as functional health food and natural medicine and it is one of the bestselling natural products in the world. Gut microbiota has been found to play an important role in the metabolism and pharmacological action of orally administered ginseng. Recent animal and clinical studies have shown that compound K (20-O -beta-D-glucopyranosyl-20(S)-protopanaxadiol, CK) is the major ginsenoside metabolite deriving from gut microbiota-induced biotransformation and is more efficiently absorbed into the systemic circulation than its parent ginsenosides. Since ginsenoside metabolism varies between individuals depending on the population of gut microbiota, much attention paid to the transformation of major ginsenosides into more pharmacologically active ginsenosides using diverse methods including heating, acid hydrolysis, microbial conversion, and enzymatic treatment. Recently, in food and drug industry and academia, the development of fermented ginseng products using probiotic bacteria is being intensively studied due to the potential health benefits of ginsenoside metabolites and probiotics. This review summarizes recent studies on the metabolism of ginsenoside by gut microbiota and biotransformation of ginsenoside using lactic acid bacteria and their enzymes.

Insect cuticle or exoskeleton is a complex extracellular matrix formed primarily from structural polysaccharide chitin and protein, and it plays a critical role in protecting them from various environmental stresses and pathogenic infection. Despite of limited composition, insect cuticle has remarkably diverse mechanical properties, ranging from soft and flexible to hard and rigid. My research has been focusing on functional importance of the genes involved in chitin metabolism and cuticle tanning (sclerotization and pigmentation) to comprehensively understand the genetic, enzymatic as well as molecular mechanism underlying differentiation, development and formation of insect cuticular extracellular matrices.

Plants of the Salicacea genus have in common that they utilize phenolic glycosides, so called salicinoids, as protection against leaf chewing herbivores. The caterpillar Cerura vinula only feeds on poplar and willow trees that belong to the family of Salicacea. For this reason, Cerura vinula is viewed as a specialist herbivore that is adapted to the salicinoid defense. Taking advantage of chemical and biochemical techniques we want to trace the salicinoid metabolism pathway, the location of transformation and the involved enzymes. To gain insights into the salicinoid metabolism the caterpillars were put on a specially designed diet. It consisted either of one salicinoid in large excess or one 13C labelled compound, applied together with fresh poplar leaves. As a next step, we are going to identify the new compounds formed in the caterpillar by MS and NMR techniques. To determine the location and mechanism of the transformation we started with a dissection of the caterpillar and a check of the tissue pH value. Afterwards, we incubated the midgut, hindgut and salivary gland tissues with salicin as model substrate and analyzed the transformation products by LC-MS. The transformation products resulted from deglycosilation of the substrate and consecutive oxidation and conjugation of the aglycon. With the gained knowledge we then aimed to identify the enzymes, which are involved in the metabolism. We successfully proofed the existence of glucosidases in the midgut by isoelectric focusing and incubation of the gel with the model substrate 4-methylumbelliferyl β-D-glucopyranosid. Additionally, we performed RNA sequencing on the caterpillar tissue. The transcripts and enzymes involved in the salicinoid metabolism are currently analyzed. During our studies we could determine the mid gut as the place for the deglycosilaton, oxidation and conjugation of salicinoids. Further we identified a new for Cerura vinula undescribed metabolite and proofed the presence of β-glucosidases in the midgut.