• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 334
  • 157
  • 51
  • 40
  • 17
  • 14
  • 14
  • 11
  • 5
  • 4
  • 3
  • 3
  • 2
  • 2
  • 2
  • Tagged with
  • 860
  • 860
  • 113
  • 107
  • 92
  • 85
  • 75
  • 73
  • 71
  • 70
  • 61
  • 59
  • 59
  • 52
  • 52
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
281

Role of Fatty Acid Transport Proteins in Oleic Acid-induced Secretion of Glucagon-like Peptide-1

Poreba, Monika 19 December 2011 (has links)
Glucagon-like peptide-1 (GLP-1) is an anti-diabetic intestinal L cell hormone. The monounsaturated fatty acid, oleic acid (OA), is an effective GLP-1 secretagogue that crosses the cell membrane by an unknown mechanism. Immunoblotting demonstrated the presence of fatty acid transport proteins (CD36 and FATP1, 3 and 4) in the murine GLUTag L cell model. The cells demonstrated specific 3H-OA uptake, which was dose-dependently inhibited by unlabeled-OA. Phloretin and SSO, inhibitors of carrier-mediated transport and CD36, respectively, also significantly decreased 3H-OA uptake, as did knocking down FATP4 by transfection of siRNA. OA dose-dependently increased GLP-1 secretion in GLUTag cells, while phloretin and FATP4 knockdown, but not SSO, decreased this response. OA injected directly into the ileum of wild-type mice increased plasma GLP-1 levels; in contrast, preliminary findings suggest decreased GLP-1 levels in FATP4 null mice at 60 min. Collectively, these findings indicate a role for FATP4 in OA-induced GLP-1 secretion.
282

Role of Fatty Acid Transport Proteins in Oleic Acid-induced Secretion of Glucagon-like Peptide-1

Poreba, Monika 19 December 2011 (has links)
Glucagon-like peptide-1 (GLP-1) is an anti-diabetic intestinal L cell hormone. The monounsaturated fatty acid, oleic acid (OA), is an effective GLP-1 secretagogue that crosses the cell membrane by an unknown mechanism. Immunoblotting demonstrated the presence of fatty acid transport proteins (CD36 and FATP1, 3 and 4) in the murine GLUTag L cell model. The cells demonstrated specific 3H-OA uptake, which was dose-dependently inhibited by unlabeled-OA. Phloretin and SSO, inhibitors of carrier-mediated transport and CD36, respectively, also significantly decreased 3H-OA uptake, as did knocking down FATP4 by transfection of siRNA. OA dose-dependently increased GLP-1 secretion in GLUTag cells, while phloretin and FATP4 knockdown, but not SSO, decreased this response. OA injected directly into the ileum of wild-type mice increased plasma GLP-1 levels; in contrast, preliminary findings suggest decreased GLP-1 levels in FATP4 null mice at 60 min. Collectively, these findings indicate a role for FATP4 in OA-induced GLP-1 secretion.
283

Examining Different Levels of Prevention of Birth Defects and Fetal Alcohol Spectrum Disorder

Goh, Y. Ingrid 16 July 2009 (has links)
While all women hope to deliver a healthy baby, approximately 3-5% babies are affected by birth defects. Birth defects can occur naturally or be induced by teratogens. Alcohol is a known teratogen that causes fetal alcohol spectrum disorder (FASD), the most commonly known cause of neurobehavioural and neurodevelopmental deficits. Individuals affected with FASD are likely to be involved with or require additional assistance from healthcare, education, social services, and justice sectors. Due to this immense burden, effective prevention of FASD can have a major public impact. Prevention of FASD can occur at different levels: primary prevention (preventing alcohol-induced birth defects from occurring in the first place); secondary prevention (preventing alcohol-induced birth defects from developing or progressing); tertiary prevention (improving the outcome of individuals affected with FASD); and quaternary prevention (preventing another child from being affected with FASD). The objective of this thesis was to explore a multilevel birth defect and FASD prevention strategy. Primary prevention by was investigated by maternal multivitamin supplementation to optimize fetal growing conditions, as alcoholics are commonly deficient in nutrients. A meta-analysis of maternal multivitamin supplementation demonstrated a decreased risk for certain congenital anomalies and pediatric cancers. Secondary prevention was investigated by a randomized double-blinded placebo-controlled evaluating the ability of high doses of antioxidants (vitamin C and vitamin E) to mitigate the effects of prenatal alcohol exposure. The study was ceased due to safety concerns regarding high doses of vitamin C and vitamin E in preeclamptic studies. Tertiary prevention was investigated by anonymous meconium screening of babies of Grey-Bruce, Ontario residents delivering at or transferred to St. Joseph’s Health Care in London, Ontario. A 30% prevalence of fatty acid ethyl esters (FAEE) positive meconium was observed at this high-risk unit. Meconium screening is also a means of quaternary prevention since positive screens also identify mothers who were unable to stop consuming alcohol after 13 weeks of pregnancy, and therefore are at risk of delivering another child who is prenatally exposed to alcohol. The identification and engagement of these mothers into treatment programs constitutes primary prevention of FASD in subsequent pregnancies.
284

Qualitative and Quantitative Analysis of Biodiesel Deposits Formed on a Hot Metal Surface

Westberg, Emilie January 2013 (has links)
This thesis aims to investigate the formation of deposits from thermally degraded biodiesel on a hot metal surface under the influence of sodium or copper contaminations. Biodiesel or Fatty Acid Methyl Esters (FAMEs) is a widely utilized biofuel with the potential to replace fossil fuels, however, issues regarding the thermal and oxidative stability prevent the progress of biodiesel for utilization as vehicle fuel. The thermal degradation of biodiesel causes formation of deposits often occurring in the fuel injectors, which could result in reduced engine efficiency, increased emissions and engine wear. However, still have no standard method for evaluation of a fuels’ tendency to form deposits been developed. In this study biodiesel deposits have been formed on aluminum test tubes utilizing a Hot Liquid Process Simulator (HLPS), an instrument based on the principle of the Jet Fuel Thermal Oxidation Tester (JFTOT). Quantitative and qualitative analyses have been made utilizing an array of techniques including Scanning Electron Microscopy (SEM), Gas Chromatography Mass Spectrometry (GCMS) and Attenuated Total Reflectance Fourier Transform Infrared Spectrometry (ATR-FTIR). A multi-factorial trial investigating the effects of sodium hydroxide and copper contaminations at trace levels and the impact of a paraffin inhibitor copolymer additive on three different FAME products, two derived from rapeseed oil and one from waste cooking oil as well as a biodiesel blend with mineral diesel, was conducted.The results exhibited that FAMEs are the major precursor to deposit formation in diesel fuel. The SEM analyses exploited the nature of FAME deposits forming porous structures on hot metal surfaces. Sodium hydroxide proved to participate in the deposit formation by forming carboxylic salts. However, the copper contamination exhibited no enhancing effect on the deposits, possibly due to interference of the blank oil in which copper was received. The paraffin inhibitor functioning as a crystal modifier had significant reducing effect on the deposit formation for all biodiesel samples except for the FAME product derived from waste cooking oil. Further studies are needed in order to investigate the influence of glycerin and water residues to the biodiesel deposit formation. Mechanisms involving oxidative or thermal peroxide formation, polymerization and disintegration have been suggested as degradation pathways for biodiesel. The involvement of oxidation intermediates, peroxides, was confirmed by the experiments performed in this thesis. However, the mechanisms of biodiesel deposit formation are complex and hard to study as the deposits are seemingly insoluble. Nevertheless, ATR-FTIR in combination with JFTOT-processing has potential as standard method for evaluation of deposit forming tendencies of biodiesel.
285

Distribution of FABP7 in Neural Tissue of Socially Defeated Adult Anolis Carolinensis

Cañete, Carmenada L. 06 May 2012 (has links)
Due to its significance in many cellular functions, fatty acid binding protein 7 (FABP7) has become a rising topic of interest for many scientists. Immunocytochemistry was used to map the distribution of FABP7 and test whether the amount of FABP7 immunoreactivity (FABP7-IR) differed in animals that were defeated in a fight, as compared to control animals that did not engage in any social interaction. The male green anole was used as the subject because its natural tendency to establish social classes within its species provides an ideal model to observe for variation in FABP7-IR. The results showed FABP7-IR in cells and fibers of the cortex, hypothalamus, thalamus, medial preoptic area, dorsoventricular ridge, amygdala, suprachiasmatic nucleus, nucleus accumbens, nucleus rotundus, habenular area, tectum, dorsal noradrenergic and lateral forebrain bundles, and lining the third and lateral ventricles. Qualitative observation suggested higher FABP7 levels in socially defeated males than controls in all areas.
286

Novel approaches for the production of fuels and chemicals in Escherichia coli

January 2012 (has links)
Volatility of oil prices along with major concerns about climate change, oil supply security and depleting reserves have sparked renewed interest in the production of biofuels and biochemicals. While the carbohydrate portion of edible crops is currently used as the primary feedstock in the biological production of fuels and chemicals, the availability of fatty acid (FA)-rich feedstocks and recent progress in the development of oil-accumulating organisms have drawn the attention to FAs as an attractive alternative. However, microbial platforms to enable this were nearly absent. To this end, we engineered native and heterologous fermentative pathways in E. coli to enable the efficient synthesis of fuels and chemicals from FAs. The current de facto strategy for the synthesis of non-native products in model organisms is He terologous M etabolic E ngineering (HeME), which consists of recruiting foreign genes from native producers. However, the relative incompatibility of the heterologous pathways with the host metabolism may be considered a drawback. As an alternative approach, the HoME ( Ho mologous M etabolic E ngineering) strategy that we propose overcomes this limitation by harnessing the metabolic potential of the host strain. HoME aims at reconstructing heterologous pathways to enable biosynthesis of non-natural products by identifying and assembling native functional surrogates. Implementation of both HeME and HoME strategies in the context of fuels and chemicals biosynthesis has usually been directed to the conversion of feedstocks constituents into a specific product. However, we demonstrated a novel metabolic platform based on a functional reversal of the fatty acid catabolic pathway (β-oxidation) as a means of synthesizing a wide array of products with various chain lengths and functionalities.
287

The nutritional value of flaxseed meal for swine

Eastwood, Laura 08 July 2008 (has links)
The nutritional value of flaxseed meal (FSM), a by-product of the flax crushing industry, has not been evaluated properly for use within swine rations. A series of experiments were conducted to determine the nutritional profile of this novel feed ingredient for pigs.<p>The analysis of FSM revealed that it contains, on a dry matter (DM) basis, 133 g/kg ether extract (EE), 345 g/kg crude protein (CP), 60 g/kg ash, 164 g/kg ADF, 250 g/kg NDF, 102 g/kg crude fibre, 14 g/kg starch and 9 g/kg phosphorus. The gross energy (GE) content of the meal was 5.2 Mcal/kg DM. The ether extract fraction was characterized by, as a percent of total fat, 46.6% á-linolenic acid, an omega-3 fatty acid. Palmitic, stearic, oleic and linoleic acids accounted for 9.5, 4.8, 20.7 and 18.4% of the total fat content respectively. The crude protein content was well balanced for all amino acids with the exception of lysine (4.1% of CP), the level of which falls below that of the requirements for growing pigs (5.3% of CP for pigs 20-50 kg). The apparent digestibility of DM, nitrogen, ash, EE and GE as well as determination of the DE and NE content of FSM was determined for both growing pigs (32 pigs, initial weight 70 ± 3 kg) and gestating sows (26 pigs, parities 2 4). Animals were fed wheat/barley based diets containing 0, 10, 20 or 30% FSM. Faecal grab samples were collected for 3 days after a dietary adaptation period. The apparent digestibility of nutrients in FSM was determined both by regression and by difference calculations. As calculated by difference, the apparent digestibility coefficients for DM, nitrogen, ash, and GE were 63.0, 60.8, 22.3 and 60.5% respectively for growing pigs. The values obtained for sows were 64.1, 58.8, 20.8, 94.9 and 65.4% for DM, nitrogen, ash, EE and GE respectively. The DE content was 3.37 Mcal/kg for growing pigs and 3.52 Mcal/kg for sows. Net energy was then estimated by use of a prediction equation to be 2.34 and 2.44 Mcal/kg for growing pigs and sows. <p>An experiment was conducted to evaluate the growth performances and carcass fatty acid profiles of pigs fed with graded levels of FSM. A total of 200 pigs (100 barrows, 100 gilts; initial weight 32 ± 4 kg) were blocked by gender and housed in groups of 5 pigs per pen. The experiment was divided into three phases for pigs 32-60 kg, 60-85 kg and 85-115 kg. Each group was assigned to one of four dietary treatments containing 0, 5, 10 or 15% FSM at the expense of wheat and soybean meal. At the time of market, 6 pigs per treatment group were randomly selected for carcass fatty acid analysis, and backfat and rib-end loin samples were collected. The average daily gains, average daily feed intakes and gain to feed ratios were not affected by dietary treatment (P > 0.05). Inclusion of 15% dietary FSM increased the ALA content from 11 to 47 (± 0.8) mg/g of backfat (P < 0.001) and from 5 to 10 (± 0.4) mg/g of loin tissue (P < 0.001). Increasing dietary FSM decreased the saturated fatty acid content of backfat (P < 0.01). <p> The final experiment was designed to determine the availability of phosphorus in semi-synthetic diets containing FSM, and to determine the effects of microbial phytase inclusion of this availability. Five treatment groups, 8 barrows (45 ± 4 kg initial weight) each, were fed a diet containing 30% FSM with increasing levels of phytase (0, 575, 1185, 2400 and 2570 FTU/kg). Apparent P digestibility increased from 20.6 to 61.3% with the inclusion of up to 2570 FTU/kg microbial phytase (P < 0.001), and followed a quadratic response pattern with an R2 value of 0.96. A broken-line analysis estimated the optimal phytase inclusion level to be 1415 FTU/kg of diet. Inclusion of just 575 FTU/kg accounted for half of the response, improving the apparent P digestibility by 20% and reducing P excretion by 850 mg/kg dry matter intake.
288

Microbial community dynamics in long-term no-till and conventionally tilled soils of the Canadian prairies

Helgason, Roberta Lynn 15 January 2010 (has links)
Adoption of no-till (NT) and reduced tillage management is widespread on the Canadian prairies and together form the basic platform of soil management upon which most crop production is based. Elimination of tillage in cropping systems changes the physical and chemical characteristics of the soil profile and can affect crop growth and ultimately yield. As such, understanding how soil biota, as drivers of nutrient turnover, adapt to NT is important for maximizing crop productivity and mitigating environmental damage in agroecosystems. This work aims to achieve a greater understanding of microbial community structure and function in long-term NT versus conventionally tilled (CT) soils. Community phospholipid and DNA fingerprinting did not reveal any consistent tillage-induced shifts in microbial community structure, but demonstrated a clear influence of depth within the soil profile. While tillage did not result in broad changes in the community structure, total, bacterial and fungal biomass was consistently greater near the surface of NT soils. Further examination at one site near Swift Current, SK revealed differences in microbial biomass and community structure in NT and CT in field-formed aggregate size fractions. Measurement of mineralization and nitrification at the same site indicated that differences in the early-season turnover of N may be related to physical rather than microbial differences in NT and CT soils. Potential nitrification was higher prior to seeding than mid-season, was not affected by tillage and was correlated with ammonia oxidizer population size of archaea, but not bacteria. This work indicates that edaphic soil properties and spatial distribution of resources in the soil profile, rather than tillage management, are the primary factors driving microbial community structure in these soils.
289

Fatty acid composition and mercury concentrations in the white meat of common wild and farmed fish in Taiwan

Tu, Wan-chen 11 September 2012 (has links)
Fish provides important nutrients, including the omega-3 fatty acids (£s-3 PUFAs) but it also contains toxic contaminants, such as mercury (Hg) that may decrease the advantage of fish consumption. Therefore, balancing the nutritional requirements for £s-3 PUFAs and risks associated with mercury is an important issue for fish consumption. The aim of this study is to analyze the fatty acid compositions and mercury concentrations of several common wild and farmed fishes in Taiwan in order to evaluate the potential health benefits and risks of fish consumption. Wild and farmed fish sample were collected between 2010 and 2012 from trawlings, local fish markets, and aquaculture farms in western Taiwan. A total of 32 species of fish were collected. Dorsal muscle was dissected, dried, and homogenized. The proximate composition including crude lipid, crude protein, moisture, ash, and fatty acid composition, as well as mercury concentration in the muscle were analyzed. The fishes that were investigated were lean to medium in fat content. Content of £s-3 PUFAs were higher in the carnivorous fishes (0.96¡Ó0.62 g/100 g flesh weight) than in the herbivorous or omnivorous species (0.86¡Ó0.35 g/100 g flesh weight). The crude lipid contents in the wild fishes (6.7¡Ó3.7%) were lower in crude lipid contents than their farmed counterparts (12.1¡Ó7.5%). Fish £s-3 PUFAs concentrations were significantly increased with crude lipid content (p< 0.05). Mean mercury concentrations of all samples (0.048¡Ó0.038 mg/kg flesh weight) were lower than the common food safety standard (0.5 mg/kg flesh weight). Similar to the £s-3 PUFAs, the mean mercury concentrations were higher in the carnivorous fishes (0.06¡Ó0.04 mg/kg flesh weight) than in the herbivorous and omnivorous fishes (0.02¡Ó0.01 mg/kg flesh weight) and higher in the wild fishes (0.052 mg/kg flesh weight) than farmed fishes (0.031 mg/kg flesh weight). From the results of the present study, we can conclude that: to obtain the health benefits of the omega-3 fatty acids with a safe amount of mercury intake, the consumption of high EPA+DHA species (EPA+DHA concentrations are higher than 2 g/100 g flesh weight), such as croaker twice a week (3 oz/serving), or medium EPA+DHA species (EPA+DHA concentrations are between 1.02 to 1.34 g/100 g flesh weight),like fourfinger threadfin, Belanger¡¦s croaker, blue mackerel, and flathead grey mullet 3-4 times a week are desirable. In the case of consume tilapia or milkfish (EPA+DHA concentrations are between 0.60 to 0.72 g/100 g flesh weight) for cardiovascular disease preventative purposes, daily consumption of the fishes are beneficial. Furthermore, those people who have potential cardiovascular disease should double the amount of fish consumption suggested above. Accordingly, for those in the tropical Asian region, consumption of the amount of fish intake stated in this thesis would not exceed the safe Hg intake limit.
290

Investigation Of The Potential Correlation Between The Cognitive Performance And Levels Of Brain Fatty Acids In Young And Aged Mice

Yetimler, Berrak 01 March 2011 (has links) (PDF)
The aim of the present study was to elucidate the possible relationship between the levels of various brain fatty acids and learning indices in aged and young mice classified as &ldquo / good&rdquo / or &ldquo / poor&rdquo / learners basing on their performance in a spatial learning task, the Morris Water Maze. The levels of several fatty acids including palmitic, stearic, oleic, linoleic, arachidonic acid (AA) and docosahexaenoic acid (DHA) were measured using gas chromatography separately in samples from four different brain areas: hippocampus, cortex, striatum and hypothalamus. The level of oleic acid in the cerebral cortex was significantly higher in young-good learners as compared to young-poor learners and higher in young-poor learners than in old-poor learners, with no significant difference in the concentration of this acid between old-good and old-poor learners. The most consistent correlation between animals&rsquo / learning capacity and brain fatty acid&rsquo / level was found for the arachidonic acid in the hippocampal region: AA level was significantly lower in young-good learners as compared to both young-poor learners&rdquo / and old-good learners&rdquo / with young-good learners showing significantly better performance than the two other groups. Interestingly, except hypothalamus, no significant between-group differences were recorded for the remaining fatty acids including DHA, in none of the four brain regions examined.

Page generated in 0.0407 seconds