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Synthesis of DNA Minor Groove Binders with Diazine, Quinoline and Sugars moieties.Tung, Hung-Wei 28 August 2012 (has links)
Certain natural products, Ditamycin and Netropsin are considered as models of designing new DNA binding agents. A variety of DNA binding ligands were synthesized and accordingly characterized by different bioassays. In the series of azo-polyamide, it showed slight DNA binding affinity but has the properties of DNA photo-cleavage and recognition of mixed sequence. The carbohydrate-azo-polyamide series show the properties of DNA photo-cleavage and more effective in vitro experiment. In the quinoline series proves the attenuation effect for G-quadruplex stabilization which provides a novel strategy for development of G-quadruplex binding ligands.
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Influence of exogenous effectors of invertase activity on rice physiology and growthRounds, Elliott Wilson 15 May 2009 (has links)
Carbon flow into developing ovaries has been reported to be important in seed retention and seed size. Invertase, which cleaves sucrose into glucose and fructose has been shown to be important in rapidly expanding tissue, such as early root growth or during tiller expansion. The manipulation of invertase activity with over-the-top applications of agrochemicals may prevent the detrimental effects of abiotic stress by altering the source/sink relationship. These experiments examined economically important tissues in rice production during critical developmental stages under abiotic stress. Field and greenhouse studies were conducted under normal growing conditions using local management practices. Plants were treated with exogenous chemicals that affect the activity of invertase during the early-grain fill stage on field grown plants. Other plants were exposed to elevated nighttime temperature of 30°C for 4 d using a free-air, infrared heating device in the greenhouse. Rice was also treated at mid- to late-grain fill stage of the main crop to identify the impact of the exogenous chemicals on developing ratoon tiller buds. The activity of soluble acid invertase (SAI), concentrations of glucose, fructose, sucrose, and starch were determined in penultimate leaves, panicles, and main-crop stem segments during ratoon tiller bud expansion, using the enzyme-coupled stoichiometric production of NADH measured spectrophotometrically at 340nm. The results suggest SAI, carbohydrates, and agronomic characters are influenced by exogenous chemicals at the applied rates. The thidiazuron treatment caused an unidentified stress event. The stress was confirmed by increased hexose concentration and the proportion of hexose concentration to sucrose concentration. This stress reduced the main-crop grain yield, but not the ratoon yield or total grain yield. An interaction between the ammonium molybdate treatment and high nighttime temperature was seen in the panicle. The ranked difference was reduced by the high nighttime temperature from the ambient nighttime temperature for the SAI activity, TSC content, starch content, and TNC content. The tested chemicals and rates are not appropriate for commercial rice production because the effect of the exogenous chemicals do not appear to consistently aid rice plants to counteract the detrimental effects of abiotic stress.
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Synthesis Of Carbasugars And Other Related Structural MotifsTalukdar, Pinaki 05 1900 (has links)
Recent years have witnessed a great deal of interest in the design and synthesis of small molecules, which can mimic complex carbohydrates of vital importance in various life processes. Carbasugars constitute one such class of molecules among several others, in which ring oxygen of sugar is replaced by a methylene unit. Several approaches have been reported in the literature for the synthesis of carbasugars emanating both from carbohydrate and non-carbohydrate sources. While the carbohydrate-based approaches require extensive prote'ction-deprotection maneuver, the non-carbohydrate-based approaches generally have problems of diastereoselection and introduction of chirality.
In the context of synthesis of carbasugars, we envisaged that a suitable derivative of i bicyclo[2.2.1]heptane (norbornyl system), could serve as a carbasugar equivalent provided the
inherent cyclohexane ring could be disengaged through a tactical cleavage of C1-C7 or C4-C7 bonds. In the present thesis entitled "Synthesis of carbasugars and other structurally related
motifs", we have established the carbasugar-norbornyl system equivalence by using 7-* oxobicyclo[2.2.1]hept~5-en-2~yl acetate as precursor . While the tactical cleavage of C1-C7 bond was employed in the synthesis of carbasugars, the C4-G7 bond cleavage provided access to a new class of carbasugars i.e. "confused" carbasugars* The quest for stronger and specific inhibitors of glycosidases led us to synthesize a diverse array of polyoxygenated compounds in this new family of carbasugars.
The thesis has been organized under five main sections: I. Introduction, II. Results & Discussion, III. Experimental, IV. Spectra, and V. References where we have narrated our I synthetic efforts with suitable literature citations.
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3DPOPS : From carbohydrate sequence to 3D structureNordström, Rickard January 2002 (has links)
<p>In this project a web-based system called 3DPOPS have been designed, developed and implemented. The system creates initial 3D structures of oligosaccharides according to user input data and is intended to be integrated with an automatized 3D prediction system for saccharides. The web interface uses a novel approach with a dynamically updated graphical representation of the input carbohydrate. The interface is embedded in a web page as a Java applet. Both expert and novice users needs are met by informative messages, a familiar concept and a dynamically updated graphical user interface in which only valid input can be created.</p><p>A set of test sequences was collected from the CarbBank database. An initial structure to each sequence could be created. All contained the information necessary to serve as starting points in a conformation search carried out by a 3D prediction system for carbohydrates.</p>
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Studies on acid-base balance, carbohydrate and lipid metabolism in human fetal and maternal blood, in clinical and experimental conditions during labourGårdmark, Stig. January 1974 (has links)
Thesis (doctoral)--University of Lund.
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The effects of carbohydrate and HMB supplementation on glycogen synthesis post-exerciseChoi, Ran Hee 29 October 2013 (has links)
Carbohydrate plus additional protein supplementation provided immediately after exercise has been found to increase the rate of muscle glycogen restoration compared to carbohydrate alone. To examine whether leucine, and/or β-hydroxy-β-methylbutyrate (HMB) to carbohydrate plus protein supplementation affects short-term recovery (45 min) of muscle glycogen, we compared plasma glucose and insulin, the muscle glycogen concentration, and the cellular signaling proteins controlling muscle glycogen synthesis 45 min after supplementation.
Rats (n=35) underwent high-intensity resistance exercise followed by supplementation with carbohydrate (CHO: 1.2g/kg body weight), carbohydrate with whey protein (CP: 1.2g CHO + 375mg whey protein/kg body weight), carbohydrate with whey protein plus HMB (CPH: 1.2g CHO + 375mg whey protein + 400mg HMB/kg body weight), carbohydrate with whey protein, HMB plus leucine (CPHL: 1.2g CHO + 375mg whey protein + 400mg HMB + 444mg leucine/kg body weight) or exercise only (CON). Blood samples were collected immediately after exercise and 45 min after supplementations. Muscle samples of plantaris were excised immediately and 45 min post-exercise. Plasma glucose was increased by CHO and CPH supplementation and reduced by CPHL at 45 min post-exercise. Plasma insulin was elevated by CP and CPHL treatments compare to CHO. Muscle glycogen concentration was unaffected by all treatments and did not differ from CON. Phosphorylation of Akt/PKB, GSK3α/β, and GS at 45 min of recovery for all supplements was not significant difference from CON. Phosphorylation of mTOR was significantly increased by CPHL and CP supplementation compared to CON, CHO, and CPH. Phosphorylation of AS160 was markedly reduced by CPH supplementation compared to CON. These results suggest that supplementing with carbohydrate plus protein with or without leucine and its metabolite, HMB, to enhance muscle glycogen replenishment following exercise may not provide an advantage during the early phase of recovery (45 min). Furthermore, there is some indication that HMB may elicit insulin resistance, and this needs further evaluation. / text
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Short-term effect of high or low complex carbohydrate breakfast on mood statesChan, Wai-lun, Leon., 陳煒倫. January 2005 (has links)
published_or_final_version / Medical Sciences / Master / Master of Medical Sciences
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The effects of graded levels of dietary carbohydrate on fetal and neonatal glucose metabolismLanoue, Louise January 1993 (has links)
The effects of maternal dietary glucose restriction on reproductive performance were investigated by feeding pregnant rats isocaloric diets containing graded levels of dietary glucose (0, 12, 24 and 60%) during pregnancy and during pregnancy and lactation, and by measuring the effects of glucose restriction on (1) maternal, fetal and neonatal metabolism, on (2) growth and composition of the mammary glands and placentas, and (3) on milk composition. Carbohydrate restriction induced maternal metabolic adaptations that were proportional to the severity of the glucose restriction. Placental growth and composition as well as mammary gland composition were not affected by dietary glucose restriction, whereas fetal growth and development and milk composition were significantly impaired when glucose was limited in the maternal diet. This suggests that the effects of dietary glucose on the fetus and on milk composition were not mediated by changes in placenta and mammary gland DNA, protein or glycogen concentrations. Complete dietary glucose restriction significantly depressed fetal liver, lung and heart glycogen concentrations; repletion of the maternal diets with 12 and 24% glucose restored cardiac glycogen to normal but not fetal lung glycogen and liver glycogen. Pups born to dams fed a glucose-free diet failed to survive longer than 24 h postpartum and that was associated with the low levels of tissue glycogen at birth in these pups. At birth, lung and liver glycogen concentration of pups of the 12 and 24% glucose diets was similar to pups of the control diet despite the fact that these reserves were depressed in utero; and these pups efficiently corrected the transient hypoglycemia observed following parturition. The effects of glucose restriction on fetal liver glycogen were not reflected by similar changes in fetal plasma insulin, glucagon and glucose levels or in glycogen synthase and phosphorylase activities. Maternal dietary glucose was an important determinant
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THE EFFECT OF SHORT-TERM INTERMITTENT AEROBIC EXERCISE TRAINING ON THE CARBOHYDRATE METABOLISM OF GOLDFISH (CARASSIUS AURATUS) SUBJECT TO ENVIRONMENTAL HYPOXIAWyness, Sarah 30 September 2011 (has links)
Goldfish subjected to an intermittent short-term aerobic exercise training regime prior to acute hypoxic exposure demonstrated a shift in hypoxia response. Intermittent aerobic training enhanced the aerobic potential of goldfish in the red muscle by increasing maximal activity of citrate synthase by 72% and reduced pyruvate kinase activity by 21% in white muscle. Across red and white muscle tissue, aerobic training caused a decrease in glycogen storage by 19% and 32%, respectively. Liver glycogen stores remained unchanged by training during normoxia. Subsequent hypoxic exposure demonstrated a significant training effect with a77% glycogen depletion in the liver of trained fish compared to a 53% depletion in untrained fish. Hypoxia caused glycogen depletion, glucose mobilization, and ATP depletion in trained and untrained fish muscle tissue. Meanwhile, the liver of trained recovered ATP slower than untrained fish and both liver and plasma had greater lactate accumulation by 1 h hypoxic recovery in trained fish. Alcohol dehydrogenase maximal activity of trained fish responded to hypoxia with a 50% reduction and trained white muscle significantly reduced alcohol dehydrogenase activity during hypoxic recovery. Ethanol was produced with and without training preconditioning in response to hypoxia in red muscle; however, trained fish white muscle showed an ethanol accumulation trend following training and 12 h hypoxia that was significantly cleared during recovery. Ethanol accumulation in white muscle of trained fish may reveal greater perturbation caused by training and hypoxia and/or some developed mechanism for ethanol retention. In effect, this training regime created a very different metabolic profile in goldfish such that during environmental oxygen limitation, trained fish may experience an enhanced metabolic perturbation and greater glycogen depletion which may compromise hypoxic tolerance. / Thesis (Master, Biology) -- Queen's University, 2011-09-30 13:25:36.148
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Synthetic methods towards the core tricyclic ring system of pradimicin AZilke, Laura Carolyn Unknown Date
No description available.
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