메기 (Silurus asotus)를 대상으로 210일간 기아 시 계측 형질 및 체 절단면 형질을 측정하여 그 기아 효과를 조사하였다. 실험 종료시 섭이군의 생존율은 92.2±0.47% 였으며, 기아군에서는 74.4±2.59%의 생존율을 보였다. Ls, DALPO/Ls, DADOP/Ls, ED/Ls, CH/Ls, BDAA/Ls, BDMA/Ls 및 BWAA/Ls의 8개 항목에서 유의한 차이를 보 였으며 (p<0.05), 다른 16개 항목 DALAD/Ls, DPDPL/ Ls, HPLAA/Ls, HALAV/Ls, HALOP/Ls, DAUPO/Ls, DADAV/Ls, DADAA/Ls, Max BL/Ls, Man BL/Ls, LD/Ls, HWOP/Ls, DAUF/HL, DAUS/HL, IW/HL 및 DAUE/HL 에서는 초기군, 섭이군 및 기아군의 세 그룹 간 유의한 차이가 없었다 (p>0.05). 섭이군은 각 체 절단면에서 기아군 보다 더 높은 전체 높이 (THX), 더 넓은 너비 (WX) 및 더 넓은 면적 (AX)을 보였다. 본 연구는 메기의 기아 상태에 대한 외형 및 체 절단면 형질에 대한 정보를 제공한다. 이는 메기에 대한 먹이 조절에 대한 방법을 보조하고 영양상태를 나타내는 기본 기초자료로 활용될 수 있을 것이다. 또 한, 본 연구에서 사용한 조사 분석 방법을 타 어종에서 적용 시 그 영양 상태에 대한 정보를 파악하는 데 유용하게 활용될 수 있을 것으로 사료된다.

A 210-day experiment was conducted to examine the effects of starvation on survival, the gonadosomatic index (GSI), hepatosomatic index (HSI), and the intestinosomatic index (ISI), and histological changes in the renal tubule epithelium, midgut epithelium, and hepatocytes in Far Eastern catfish (Silurus asotus). The survival rate decreased to 92.2±0.47% in the fed group and 74.4±2.59% in the starved group during the 210-day experimental period. GSI, HSI, and ISI were lowest in the starved group (p<0.05). The hepatocyte nuclear area, hepatocyte cell area, the nuclear height of the midgut epithelium, and the nuclear height of the kidney were highest in the fed group (p<0.05). The hepatocyte nuclear area, nuclear height of the midgut epithelium, and nuclear height of the kidney were lowest in the starved group (p<0.05). The numbers of melano-macrophages (MMs) found in the kidney cells increased during starvation in this species. This suggests that thinner body cavity regions, the contraction of hepatocyte nuclear sites, and the spreading of kidney cell MMs in this species could be used as alternative indicators for identifying starvation conditions. Therefore, the results from our study provide accurate indications of the nutritional status of Far Eastern catfish.

본 연구는 국내 육성 딸기인 ‘매향’과 ‘설향’의 개화기 양액의 농도와 공급 중단 시기에 따른 개화 및 생육에 미치는 영향을 조사하기 위하여 수행되었다. 런너 삽수를 2017년 11월 23일에 삽목한 후 발근이 충분히 이루어질 때까지 검은색 멀칭 비닐로 덮어 관리하였다. 15일 후 발근이 모두 이루어진 것을 확인 하고 비닐을 제거한 뒤 촉성 작형에 준하여 관리하였다. 양액은 야마자키 처방에 따라 조제하였고 농도 는 각각 1배액 또는 2배액(EC 1.85 또는 3.71 dS·m-1, pH 5.55)으로 조성하여 공급하였다. 양액의 공급 중단은 정식 당일까지 양액을 공급하는 처리를 대조구로 두고 1주 전, 3주 전 및 5주 전에 공급을 중단하는 처리로 구분하였다. 두 품종의 초장은 양액의 공급 중단 시기가 빨라질수록 점차적으로 감소하였다. ‘매향’은 양액의 공급 중단이 조기에 진행될수록 지상부의 생체중이 감소하였다. ‘설향’의 지상부 생체중은 1배액 양액을 정식 1주 전 공급 중단한 처리에서 가장 높았다. ‘매향’의 화수는 2배액 양액 공급 처리에서 전반적으로 더 많았고 정식 1주 전 공급 중단 처리에서 가장 많았다. ‘설향’의 화수는 1배 양액 공급 처리가 2배 양액 공급 처리에 비해 더 많았으며, 특히 2배 양액을 정식 1주 전에 공급 중단한 처리에서 가장 낮은 경향이었으나 처리간 유의적인 차이는 없었다. 결과적으로 화아분화기에는 두 품종 모두 저농도의 양액을 단기간 공급하는 것이 개화 촉진에 있어 효과적인 것으로 판단된다.

To investigate effects of starvation on physiological changes, stress response, and survival of cobitid loach (Misgurnus anguillicaudatus) exposed to sodium nitrite (NaNO2), a 4- week experiment was conducted. Fewer fish survived in the starved group than those in the fed group during the experiment. Starvation resulted in growth retardation, leading to differences in body length and body depth between fed and starved groups. The fed gorup continued to grow and remained in good condition. Blood chemical analysis (plasma cortisol and glucose) showed significant differences in stress response to nitrite exposure between fed and starved groups (p < 0.05). These results suggest that all parameters employed in this study to assess effects of starvation with NaNO2 stress are useful information for researching nutritional status in cobitid loach.

Temperature can modulate how insects respond to environmental stressors, such as starvation. In this study, we examine whether and how the effects of temperature on starvation resistance depend on nutritional condition and developmental stages in Drosophila melanogaster. Starvation resistance decreased as the temperature exposed during starvation rose from 18 to 28 ̊C, which was mainly caused by warming-induced increase in energy expenditure. When exposed to warm temperatures during feeding, D. melanogaster accumulated more energy reserves and thus become more starvation resistant. The temperature experienced during the larval stage also had a significant effect on starvation resistance at adult stages, with those larvae raised at cold temperatures developing into adult phenotypes with reduced resistance to starvation. This study suggests that the effects of temperature on starvation resistance are highly complex and context dependent in D. melanogaster.

Temperature can affect the ability of insects to tolerate prolonged period of food deprivation through altering the amountof energy storage, the speed of energy expenditure, or the threshold energy storage for survival. In this study, we examinedthe mechanistic basis of the temperature-dependence of starvation resistance in Drosophila melanogaster. Starvation resistancedecreased as the temperature experienced during starvation rose from 18 to 28 ̊C. This warming-mediated decrease instarvation resistance was due to accelerated energy expenditure. However, the threshold energy storage for survival wasnot affected by starvation temperature. Exposure to warm temperatures during feeding led D. melanogaster to accumulatemore energy reserves and thus to become more starvation resistant. This study highlights the important role played bytemperature in shaping the phenotypic responses of insects to starvation.

복섬, Takifugu niphobles 부화 자어를 대상으로 기아에 따른 성장, 생존 및 간세포 핵 크기에 미치는 영향을 조사하였다. 자어의 전장은 부화 후 3일 까지 증가하였으나 부화 후 3일에서 부 화 후 6일까지 절식구는 공급구에 비해 유의한 낮은 성장을 보였다. 공급구 복섬의 체중은 실 험 기간 중 지속적인 증가를 보였다. 절식구의 체중은 부화 후 3일 까지 증가하였으나, 부화 후 3일 이후는 서서히 감소하였다. 절식구의 생존율은 공급구의 생존율에 비해 유의하게 낮았 으며(p < 0.05) 부화 후 6일째 절식구 자어는 폐사하였다. 절식구의 간세포 핵 크기는 부화 후 3일 까지는 공급구의 간세포 핵 크기와 유의한 차이가 없었으나, 부화 후 4일에서 부화 후 6일 까지는 절식구은 공급구에 비해 간세포 핵 크기 감소를 보이며 조직상 차이를 보였다. 본 연구 결과 도출된 자료들은 복섬의 영양상태 지표로 사용될 수 있을 것으로 사료된다.

Recent studies have shown that mating can alter starvation resistance in female D. melanogaster, but little is known about the behavioral and physiological mechanisms underlying such mating-mediated changes in starvation resistance. In the present study, we first investigated whether the effect of mating on starvation resistance is sex-specific in D. melanogaster. As indicated by a significant sex × mating status interaction, mating increased starvation resistance in females but not in males. In female D. melanogaster, post-mating increase in starvation resistance was mainly attributed to increases in food intake and in the level of lipid storage relative to lean body weight. We then performed quantitative genetic analysis to estimate the proportion of the total phenotypic variance attributable to genetic differences (i.e., heritability) for starvation resistance in mated male and female D. melanogaster. The narrow-sense heritability (h2) of starvation resistance was 0.235 and 0.155 for males and females, respectively. Mated females were generally more resistant to starvation than males, but the degree of such sexual dimorphism varied substantially among genotypes, as indicated by a significant sex × genotype interaction for starvation resistance. Cross-sex genetic correlation was greater than 0 but less than l for starvation resistance, implying that the genetic architecture of this trait was partially shared between the two sexes. For both sexes, starvation resistance was positively correlated with longevity and lipid storage at genetic level. The present study suggests that sex differences in starvation resistance depend on mating status and have a genetic basis in D. melanogaster.

Mating elicits a dramatic changes in physiology, behavior, and life-history traits in insects, but little is known about the relationship between mating and the capacity of insects to resist environmental stressors. Starvation is one of the most ubiquitous forms of environmental stress faced by all insects under natural conditions. Previous studies using Drosophila melanogaster flies has shown that mated females lived longer under starvation than did virgin females, but the mechanistic basis for such post-mating increase in starvation resistance remains largely unexplored. The objective of this study was to investigate the behavioral and physiological mechanisms of mating-induced alteration in starvation resistance and its heritable genetic variations in D. melanogaster. In the first experiment (Experiment 1), we compared starvation resistance (measured as starving time before death), body compositions, and food intake between mated and unmated flies of both sexes using a large outbred population. In the second experiment (Experiment 2), starvation resistance and body composition were quantified for mated male and female flies derived from each of 19 highly inbred genetic lines. Results from Experiment 1 showed that mated females were better able to resist starvation than virgin females and males because they ate more and thus laid down more fats in their body. Results from Experiment 2 revealed a significant heritable genetic variation in starvation resistance and its correlated body composition parameters for both sexes. Overall, females had a higher starvation resistance than males, but the magnitude of such intersexual difference varied among genetic lines, as suggested by a significant sex-by-line interaction. Cross-sex genetic correlations were highly significant and positive for starvation resistance, indicating that the genetic factors controlling the starvation resistance in D. melanogaster are shared between the two sexes.

Starvation resistance is an important fitness trait that is controlled by both environmental and heritable factors. The main objective of this study is to explore the genotype-by-nutrient interactions for starvation resistance and its correlating physiological traits in Drosophila melanogaster. In this study, we conducted a split-family quantitative genetic experiment, in which female adults of Drosophila from 19 isofemale genetic lines were allowed to ingest one of two synthetic diets that differed in protein-to-carbohydrate ratio (P:C = 4:1 or 1:16 with the P+C concentration of 120 g L-1) before they were assayed for starvation time and lipid storage. In all genetic lines, Drosophila flies that had fed carbohydrate-rich diet (P:C=1:16) resisted starvation better and stored more lipids than did those that had fed protein-rich diet (4:1). Importantly, the extent to which both starvation resistance and lipid reserves were affected by dietary P:C ratio varied greatly among different genetic lines of Drosophila, as indicated by significant genotypeby-nutrient interactions for these two traits. When the patterns of the bivariate reaction norm for body lipid and starvation resistance were compared across the genotypes, we found strong evidence for genetic variations in the pattern of energy storage and usage associated with maintaining survival under starvation in Drosophila.

국내에서 육성된 딸기 품종인 ‘설향’을 대상으로 비가 림 포트 육묘 시 양분 공급 중단 시기에 따른 자묘의 생육과 정식 후 수량을 검토하였다. 자묘 받기를 완료한 후 양분을 EC 0.8dS · m−1 수준으로 공급하다가 7월 25 일부터 9월 5일에 걸쳐 약 10일 간격으로 양분 공급을 각각 중단하고 이후 수분만 공급하였다. 그 결과 육묘기 양분 공급 중단 시기가 7월 25일로 빠른 경우에 엽면적 등 지상부 생육은 억제되었으나 근중은 증가하여 T/R율이 크게 감소하였고 엽록소 함량이 낮아지는 경향을 보였다. 또한 화아 분화가 촉진되어 정식 후의 출뢰, 개화 및 수확기가 앞당겨졌으나 8월 중순 이후까지 양분 공급이 지속될 경우에 수확 시기가 2주 이상 지연되었다. 이에 따라 7월 25일에 양분 공급을 중단한 처리구에서 1월 하순 및 2월 하순까지의 1주당 누적 상품과 수량은 각각 169 및 266g으로 나타났으며 9월 5일 처리구와 비교하여 각각 71 및 12% 수준의 유의한 수량 증가를 보였다. 따라서 육묘 후기 자묘의 적절한 양분 공급 중단으로 체내 질소 수준을 효과적으로 감소시킴으로써 딸기의 화아 분화를 촉진하고 수확 시기를 앞당겨 딸기 가격이 높게 형성되는 동절기 수량 및 소득을 증대시킬 수 있을 것으로 기대된다.

Food limitation is the most common environmental challenge faced by animals and the capacity of animals to survive prolonged periods of starvation is linked to their diet and nutritional status. The objective of this study is to investigate the effects of nutrition on starvation resistance in Drosophila melanogaster. Experimental flies were given ad libitum access to artificial diets differing in concentrations and ratios of protein and carbohydrate for 5 days before they were assayed for starvation time, body composition and life-history parameters. Starvation resistance in Drosophila was greatly influenced by the dietary protein:carbohydrate (P:C) ratio, but neither by the caloric content of the diet nor by dietary carbohydrate alone. Starvation resistance was strongest at the lowest P:C ratio and declined with rising P:C ratio. While starving, Drosophila underwent a dramatic transition in the utilization of physiological fuels, switching from the early phase characterized by preferential consumption of non-lipid substrates to the next phase in which they began to mobilize lipids as fuels for enduring starvation. Our results highlight the importance of nutrition as a key factor determining starvation responses of Drosophila.

Autophagy is conserved response to starvation by which cells catabolize their components to create an internal supply of essential nutrients. Ceramide is known to induce autophagy in many cells through down-regulation of amino acid and glucose transporters. The mechanism of starvation induced-autophagy in mouse embryo remains unclear. In order to understand the mechanism by which starvation regulates autophagy, in this study, we investigated nutrient transporters expression and the effect of c2-ceramide on the in vitro development, apoptosis and autophagy via starvation in mouse embryo. Glucose transporters (Glut1 and Glut 3), high levels of transcript were expressed from 1 to 2 cells and gradually decreased through the morula and blastocyst (BL) stages. Amino acid transporters (LAT-1 and 4F2hc) gradually decreased from the zygote to the BL stage. Furthermore, the expression of nutrient transporters (Glut1, 3, LAT-1 and 4F2hc) were significantly reduced at the BL stage after ceramide treatment. Especially, mTOR expression after ceramide treatment of embryos was significantly higher than controls. Ceramide treated embryos exhibited significantly reduced developmental rates and total cell numbers, and increased apoptotic cell death at the BL stage. Consequently, we next evaluated the effect of ceramide treatment on mitochondrial number and morphology. There was a significant decrease in the average mtDNA copy number and the mitochondrial area in ceramide treated BL stage embryos. Both the expression of autophagy-related genes, Lc3, Gabarap, Atg4A and Atg4B, and the synthesis of LC3 were significantly induced at the BL stage. These results suggest that autophagy under starvation condition influences the in vitro development and apoptosis and autophagy, and may play a role in early mouse embryogenesis.

기아시와 포식시 버들치, Rhynchocypris oxycephalus(Sauvage and Dabry)에 미치는 영향을 파악하기 위하여 조직학적 및 생화학적 변화, 체절단면 계측형질 변화 그리고 계측형질 변화에 대하여 조사하였다. 기아에 따른 버들치의 생화학적, 조직학적 변화를 파악하기 위해, 간의 간중량지수, 단백질함량, RNA량 및 DNA량 조사와 더불어 간세포 및 중장 상피세포의 조직학적 조사를 실시한 결과, 기아군은 포식군에 비해 간의 단백질함