Functional and structural diversity of the microbial communities associated with the use of Fischer–Tropsch GTL Primary Column Bottoms as process cooling water / van Niekerk B.F.

Van Niekerk, Bertina Freda

January 2011

Despite emerging water shortages, most water is only used once, and often with low efficiency. However, with appropriate treatment, water can be re–used to reduce the demand on freshwater sources. The Department of Water Affairs, South Africa, promotes industries to reduce discharges into water resources in order to sustain an overall good water quality of all water systems. All of this ultimately leads to industries striving towards zero effluent discharge. Primary Column Bottoms (PCBs) is a wastewater stream derived from the Fischer–Tropsch Gas to Liquid process and consists mainly of organic acids, but no nitrogen or phosphorous, which by implication excludes possible biodegradation. In the operation of cooling towers in industrial processes, cooling water quality has a direct impact on the cooling performance of the system, where nutrient levels may affect fouling, scaling and corrosion observed in the cooling towers. Fouling, scaling and corrosion affect the operating efficiency of cooling water systems and may necessitate the addition of chemical agents to control these phenomena. This has a financial and labour time impact on the operation of these systems. In this study a mini cooling tower test rig was operated with a synthetic PCB effluent as cooling water and various cycles of concentration, pH and linear flow velocities (LFVs). A constant delta temperature of 10 °C was maintained. Cycles of concentration (COC) evaluated included 2, 4 and 6 cycles of concentration and linear flow velocities evaluated was 0.6 m/s, 0.9 m/s and 1.2 m/s. Fouling, scaling and corrosion rates were determined using corrosion coupons and heat exchanger tubes for mild steel and stainless steel. Besides the evaluation of the various operational parameters for fouling, scaling and corrosion, the possibility for chemical oxygen demand (COD) removal by operating the cooling tower as a bioreactor was also evaluated. To this end nutrient correction was applied to the reactor to allow for a CNP ratio of 100:10:1. With regard to fouling, scaling and corrosion, mild steel was more affected by fouling, scaling and corrosion compared to stainless steel where almost no fouling, scaling and corrosion was observed. Overall increased linear flow velocities resulted in higher fouling and scaling rates, whereas lower linear flow velocities resulted in decreased corrosion rates. In terms of cycles of concentration, increased COC resulted in higher fouling, scaling and corrosion rates. Despite the high nutrient removal levels, the accompanying fouling, scaling and corrosion was still below the particular industry’s guidelines. Besides physical–chemical evaluation of the towers under the various operational conditions, culture–dependent and culture–independent methods were also employed. Concerning culture–dependent approaches the study demonstrated that aerobic and anaerobic organisms are present in both the planktonic and sessile phase of the cooling tower reactors. Heterotrophic aerobes were found to be the most abundant under all the operating conditions. Sulphate reducing bacteria were more abundant in the sessile phase of the cooling towers, and the presence of high sulphate levels in the experiments could be indicative of the sulphate reducing bacteria actively participating in the microbial community. Lower than expected corrosion levels, however, suggest that a combination of the organisms in the biofilm rather than sulphate reducing bacteria alone, contributed to the corrosion rates observed. Culture–independent methods, specifically phospholipid fatty acid analysis supported the results from the culture–dependent methods. Furthermore results demonstrated that linear flow velocity had a greater effect on the community structure than cycles of concentration. Finally molecular methods, specifically denaturing gradient gel electrophoresis, found that increasing cycles of concentration resulted in increased microbial community diversity, while increasing linear flow velocity resulted in decreased microbial community diversity. Regarding COD removal, nutrient correction of the synthetic PCB effluent achieved 89.35 % COD removal at 2 COC and 1.2 m/s LFV, while 80.85 % COD removal was achieved at 4 COC at 1.2 m/s LFV. From these results it was recommended that the operation of the cooling tower should be at 4 COC and 1.2 m/s, which despite slightly lower % COD removal, were characterised by fouling, scaling and corrosion rates well within guidelines. / Thesis (M. Environmental Science)--North-West University, Potchefstroom Campus, 2012.

Cooling towers

Bioreactor

Fouling

Scaling

Corrosion

Denaturing gradient gel electrophoresis

Phospholipid fatty acid analysis

Functional and structural diversity of the microbial communities associated with the use of Fischer–Tropsch GTL Primary Column Bottoms as process cooling water / van Niekerk B.F.

Van Niekerk, Bertina Freda

January 2011

Despite emerging water shortages, most water is only used once, and often with low efficiency. However, with appropriate treatment, water can be re–used to reduce the demand on freshwater sources. The Department of Water Affairs, South Africa, promotes industries to reduce discharges into water resources in order to sustain an overall good water quality of all water systems. All of this ultimately leads to industries striving towards zero effluent discharge. Primary Column Bottoms (PCBs) is a wastewater stream derived from the Fischer–Tropsch Gas to Liquid process and consists mainly of organic acids, but no nitrogen or phosphorous, which by implication excludes possible biodegradation. In the operation of cooling towers in industrial processes, cooling water quality has a direct impact on the cooling performance of the system, where nutrient levels may affect fouling, scaling and corrosion observed in the cooling towers. Fouling, scaling and corrosion affect the operating efficiency of cooling water systems and may necessitate the addition of chemical agents to control these phenomena. This has a financial and labour time impact on the operation of these systems. In this study a mini cooling tower test rig was operated with a synthetic PCB effluent as cooling water and various cycles of concentration, pH and linear flow velocities (LFVs). A constant delta temperature of 10 °C was maintained. Cycles of concentration (COC) evaluated included 2, 4 and 6 cycles of concentration and linear flow velocities evaluated was 0.6 m/s, 0.9 m/s and 1.2 m/s. Fouling, scaling and corrosion rates were determined using corrosion coupons and heat exchanger tubes for mild steel and stainless steel. Besides the evaluation of the various operational parameters for fouling, scaling and corrosion, the possibility for chemical oxygen demand (COD) removal by operating the cooling tower as a bioreactor was also evaluated. To this end nutrient correction was applied to the reactor to allow for a CNP ratio of 100:10:1. With regard to fouling, scaling and corrosion, mild steel was more affected by fouling, scaling and corrosion compared to stainless steel where almost no fouling, scaling and corrosion was observed. Overall increased linear flow velocities resulted in higher fouling and scaling rates, whereas lower linear flow velocities resulted in decreased corrosion rates. In terms of cycles of concentration, increased COC resulted in higher fouling, scaling and corrosion rates. Despite the high nutrient removal levels, the accompanying fouling, scaling and corrosion was still below the particular industry’s guidelines. Besides physical–chemical evaluation of the towers under the various operational conditions, culture–dependent and culture–independent methods were also employed. Concerning culture–dependent approaches the study demonstrated that aerobic and anaerobic organisms are present in both the planktonic and sessile phase of the cooling tower reactors. Heterotrophic aerobes were found to be the most abundant under all the operating conditions. Sulphate reducing bacteria were more abundant in the sessile phase of the cooling towers, and the presence of high sulphate levels in the experiments could be indicative of the sulphate reducing bacteria actively participating in the microbial community. Lower than expected corrosion levels, however, suggest that a combination of the organisms in the biofilm rather than sulphate reducing bacteria alone, contributed to the corrosion rates observed. Culture–independent methods, specifically phospholipid fatty acid analysis supported the results from the culture–dependent methods. Furthermore results demonstrated that linear flow velocity had a greater effect on the community structure than cycles of concentration. Finally molecular methods, specifically denaturing gradient gel electrophoresis, found that increasing cycles of concentration resulted in increased microbial community diversity, while increasing linear flow velocity resulted in decreased microbial community diversity. Regarding COD removal, nutrient correction of the synthetic PCB effluent achieved 89.35 % COD removal at 2 COC and 1.2 m/s LFV, while 80.85 % COD removal was achieved at 4 COC at 1.2 m/s LFV. From these results it was recommended that the operation of the cooling tower should be at 4 COC and 1.2 m/s, which despite slightly lower % COD removal, were characterised by fouling, scaling and corrosion rates well within guidelines. / Thesis (M. Environmental Science)--North-West University, Potchefstroom Campus, 2012.

Cooling towers

Bioreactor

Fouling

Scaling

Corrosion

Denaturing gradient gel electrophoresis

Phospholipid fatty acid analysis

Effect of the omega-3 polyunsaturated fatty acid eicosapentaenoic acid on E-type prostaglandin synthesis and EP4 receptor signalling in human colorectal cancer cells.

Hawcroft, Gillian, Loadman, Paul M., Belluzzi, Andrea, Hull, Mark A.

January 2010

The omega-3 polyunsaturated fatty acid eicosapentaenoic acid (EPA), in the free fatty acid (FFA) form, has been demonstrated to reduce adenoma number and size in patients with familial adenomatous polyposis. However, the mechanistic basis of the antineoplastic activity of EPA in the colorectum remains unclear. We tested the hypothesis that EPA-FFA negatively modulates synthesis of and signaling by prostaglandin (PG) E(2) in human colorectal cancer (CRC) cells. EPA-FFA induced apoptosis of cyclooxygenase (COX)-2-positive human HCA-7 CRC cells in vitro. EPA-FFA in cell culture medium was incorporated rapidly into phospholipid membranes of HCA-7 human CRC cells and acted as a substrate for COX-2, leading to reduced synthesis of PGE(2) and generation of PGE(3). Alone, PGE(3) bound and activated the PGE(2) EP4 receptor but with reduced affinity and efficacy compared with its "natural" ligand PGE(2). However, in the presence of PGE(2), PGE(3) acted as an antagonist of EP4 receptor-dependent 3',5' cyclic adenosine monophosphate induction in naturally EP4 receptor-positive LoVo human CRC cells and of resistance to apoptosis in HT-29-EP4 human CRC cells overexpressing the EP4 receptor. We conclude that EPA-FFA drives a COX-2-dependent "PGE(2)-to-PGE(3) switch" in human CRC cells and that PGE(3) acts as a partial agonist at the PGE(2) EP4 receptor.

Eicosapentaenoic acid

EP4

Receptor signalling

Colorectal cancer cells

Antineoplastic activity

Omega-3 polyunsaturated fatty acid

Grūdų produktų riebalų rūgščių sudėties įvertinimas / The evaluation of fatty acid’s compositions in grain products

Griniova, Livija

18 June 2014

Darbo tikslas: išanalizuoti ir įvertinti riebalų rūgščių sudėtį dažniausiai vartojamuose grūdų gaminiuose, įvertinti terminio apdorojimo įtaką riebalų rūgščių sudėčiai kepiniuose su spelta miltais. Darbo uždaviniai: 1. Atlikti vartotojų apklausą apie grūdų produktų vartojimą, pasirinkimo kriterijus bei žinias apie palankias sveikatai riebalų rūgštis. 2. Atlikti riebalų rūgščių sudėties tyrimus grūdų gaminiuose: kruopose, miltuose, džiūvėsėliuose , palyginti riebalų rūgščių kompozicijas. 3. Įvertinti gautus rezultatus ir nustatyti palankiausia sveikatai sudėtimi pasižyminčius grūdų gaminius. 4. Atlikti terminio apdorojimo įtakos riebalų rūgščių sudėčiai kepiniuose su speltos miltais tyrimus. 5. Pateikti rekomendacijas vartotojams apie saugiausius ir palankiausius sveikatai grūdų produktus. Atlikus „Riebalų rūgštys žmogaus mityboje“ žmonių apklausą, nustatyta, kad vartotojai vartoja maisto produktus, kuriuose gausu riebalų rūgščių, žino, kad grūdai vieni iš pagrindinių riebalų rūgščių šaltinių, dažnai juos vartoja savo mityboje, žino teigiamą jų poveikį žmogaus organizmui. Atlikti riebalų rūgščių sudėties tyrimai grūdų gaminiuose: kruopose, miltuose, džiūvėsėliuose parodė, iš visų tirtų mėginių duomenų daugiausia sočiųjų riebalų rūgščių nustatyta ryžių dribsniuose su džiovintais vaisiais 89,8 proc. (%), mažiausias kiekis - miltiniame mišinyje speltos miltų blynams su gemalais 13,8 proc. (%), polinesočių riebalų rūgščių didžiausias kiekis nustatytas iškeptų spelta miltų... [toliau žr. visą tekstą] / The aim of work: analyze and evaluate the fatty acid’s compositions in commonly consumed grain products, assess the impact of thermal processing fatty acid’s compositions in bakery with spelta flour. Work objectives: 1. Make the survey of users’ about consumption of grain products, criteria of selection and knowledge about positive fatty acid’s influence to the health. 2. Conduct fatty acid’s compositions’ researches in grain products: in grits, flour, breadcrumbs, compare the fatty acid’s compositions. 3. Evaluate the results and determine the most favorable to the health composition, which having the characteristics of grain products. 4. Make the researches of thermal processing impact to fatty acid‘s compositions in bakery with spelta flour. 5. Leave recommendations to the users about the safest and to the most favorable health grain products. Completed "Fatty acids in human dietary" users survey was found that users are eating food rich of fatty acids, they know, that grains are one of the main essential of fatty acids, which often used in our dietary and know their positive effect on human‘s organism. Completed compositions of fatty acid‘s in grain products analysis: in grains, flour, breadcrumbs showed that in all analyzed samples data mainly saturated fatty acids found in rice flakes with dried fruits 89.8 percent (%), and the lowest amount found in flour mixture spelta for pancakes with germs 13.8 percent (%), the maximum amount of polyunsaturated fatty acids were... [to full text]

Public Health

Grūdai

Riebalų rūgštys

Grūdų produktai

Kruopos

Grains

Fatty acid

Grain products

Whole grains

The Role of Fatty Acid Synthase Over-expression in Human Breast Cancer

Hopperton, Kathryn

20 November 2012

Fatty acid synthase (FAS) is over-expressed in many human cancers and its activity is required for cancer cell survival. To understand why FAS is over-expressed, we compared in breast cancer cells the utilization of fatty acids synthesized endogenously by FAS to those supplied exogenously in the culture medium. We found that endogenously synthesized fatty acids are esterified to the same lipid and phospholipid classes in the same proportions as those derived exogenously and that some endogenous fatty acids are excreted. Thus, FAS over-expression in cancer does not fulfill a specific requirement for endogenously synthesized fatty acids. We next investigated whether lipogenic activity mediated by FAS was, instead, involved in the maintenance of high glycolytic activity in cancer cells. By culturing breast cancer and non-cancer cells in anoxic conditions, we increased glycolysis 2-3 fold but observed no concomitant increase in lipogenesis. More research is needed to understand why FAS is over-expressed in cancer.

fatty acid synthase

breast cancer

cancer metabolism

aerobic glycolysis

0570

0992

Isolation and characterization of Aurantiochytrium species useful for ω-3 fatty acids production / オメガ3脂肪酸生産に有用なAurantiochytrium属微生物の単離と解析

Wu, Chang-Yu

23 March 2022

京都大学 / 新制・課程博士 / 博士(農学) / 甲第23957号 / 農博第2506号 / 新制||農||1092(附属図書館) / 学位論文||R4||N5392(農学部図書室) / 京都大学大学院農学研究科応用生命科学専攻 / (主査)教授 小川 順, 教授 阪井 康能, 教授 栗原 達夫 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM

ω3-Polyunsaturated fatty acid

Aurantiochytrium

ω3-Docosapentaenoic acid

ω3-Docosahexaenoic acid

Defatted soybean

fish feed

610

The role of endoplasmic reticulum stress in beta-cell lipoapoptosis

Preston, Amanda Miriam, Clinical School - St Vincent's Hospital, Faculty of Medicine, UNSW

January 2008

Beta-cell failure is a key step in the progression from metabolic disorder to overt type 2 diabetes (T2D). This failure is characterised by both secretory defects and loss of beta-cell mass, the latter most likely through increases in the rate of apoptosis. Although the mechanisms underlying these beta-cell defects are unclear, evidence suggests that chronic exposure of beta-cells to elevated fatty acid (FA) plays a role in disease development in genetically susceptible individuals. Furthermore, it has been postulated that endoplasmic reticulum (ER) stress signalling pathways (the unfolded protein response; UPR) play a role in FA-induced beta-cell dysfunction. The broad aim of this thesis was to explore the nature of these relationships. Experiments detailed in this thesis demonstrate that MIN6 beta-cells mount a comprehensive ER stress response with exposure to elevated saturated fatty acid palmitate, but not the unsaturated fatty acid, oleate, within the low elevated physiological range. This response was time-dependent and involved both transcriptional and translational changes in UPR transducers and targets. The differential activation of ER stress in MIN6 beta-cells by saturated, but not unsaturated FA species may represent a mechanism of differential beta-cell death described in many studies with these FA. Furthermore, these experiments describe defects in ER to Golgi trafficking with chronic palmitate treatment, but not oleate or thapsigagin treatment, identifying this as a potential mechanism by which palmitate treatment induces ER stress. Moreover, these studies have shown the relevance to ER stress to a whole body model of T2D by demonstrating UPR activation in the islets of the db/db mouse. In conclusion, studies detailed in this thesis have demonstrated that ER stress occurs in in vitro and in vivo models of beta-cell lipotoxicity and apoptosis. In addition, these studies have identified defects in ER to Golgi trafficking as a mechanism by which palmitate treatment induces ER stress. These studies highlight the importance of ER stress in the development of T2D.

Fatty acid

Endoplasmic reticulum stress

Type 2 diabetes

Pancreatic beta-cell

Apoptosis

Quantitative Fibroblast Acylcarnitine Profiling In The Diagnostic and Prognostic Assessment of Mitochondrial Fatty Acid �-Oxidation Disorders

Sim, Keow Giak

January 2002

Mitochondrial fatty acid �-oxidation disorders are a group of clinically and biochemically heterogeneous defects mainly associated with intolerance to catabolic stress. The diseases are potentially fatal, but treatable and the prognosis for most diagnosed disorders is generally favourable. Early diagnosis is thus important to prevent morbidity and mortality. This project describes an improved and validated quantitative fibroblast acylcarnitine profile assay for the investigation of suspected fatty acid �-oxidation disorders. Intact cells were incubated with deuterium-labelled hexadecanoate and L-carnitine, and the accumulated acylcarnitines in the medium analysed using electrospray tandem mass spectrometry. This modified procedure is less demanding technically, requires fewer cells and better reflects the in vivo acylcarnitine status than previously published methods. Mitochondrial fatty acid �-oxidation is coupled to the respiratory chain. Functional defects of one pathway may lead to secondary alterations in flux through the other. The diagnostic specificity and the prognostic potential of the in vitro acylcarnitine profile assay were investigated in fibroblasts from 14 normal controls, 38 patients with eight enzyme deficiencies of fatty acid �-oxidation presenting with various phenotypes, and 16 patients with primary respiratory chain defects including both isolated and multiple enzyme complex defects. All fatty acid �-oxidation deficient cell lines revealed disease-specific acylcarnitine profiles related to the sites of defects irrespective of the severity of symptoms or of different mutation. Preliminary studies suggested a correlation between severity of symptoms and higher concentrations of long-chain acylcarnitine species. However, the fibroblast acylcarnitine profiles from some patients with respiratory chain defects were similar to those of controls, whereas others had abnormal profiles resembling those found in fatty acid �-oxidation disorders. In vitro acylcarnitine profiling is useful for the detection of fatty acid �-oxidation deficiencies, and perhaps the prediction of disease severity and prognostic evaluation facilitating decisions of therapeutic intervention and genetic counselling. However, abnormal profiles do not exclusively indicate these disorders, and primary defects of the respiratory chain remain a possibility. Awareness of this diagnostic pitfall will aid in the selection of subsequent confirmatory tests and therapeutic options.

The Influence of Controlling Redox Potential on Plasma Membrane Fatty Acid Composition during Very High Gravity Fermentation

2015 December 1900

Fatty acid components on yeast plasma membrane were critical in maintaining proper cell activity during bioethanol fermentation. The alteration of fatty acid composition on yeast plasma membrane was recognized as an adaptive response to several environmental stress including osmotic pressure, ethanol inhibition and nutrients limit. These stresses were exacerbated under very-high-gravity condition in which excessive fermentable sugar was provided in feedstock. Controlling redox potential was proved beneficial in improving yeast performance under very-high-gravity condition. Fatty acid synthesis and desaturation pathways involved dissolved oxygen as well as balance between NAD+/NADH and NADP+/NADPH which could be influenced by the regulation of redox potential in media. In this study, fatty acid composition profiles under different glucose concentrations and different redox potential control level were examined. Its connection with yeast cell growth, ethanol productivity and other metabolites’ concentrations were studied as well to reveal any causal correlation between redox potential control, membrane fatty acid composition and yeast activity. Two glucose concentrations used in this study were 200 g/L and 300 g/L which represented normal and very high gravity respectively in bioethanol fermentation. In 300 g/L fermentation, three redox conditions were adopted while two different redox conditions were used in 200 g/L fermentation. Biomass concentration, ethanol productivity and fatty acid composition were observed to be affected by both gravity and ORP control strategy. Final biomass concentrations were 4.302 g/L in 200 g/L glucose with no ORP control condition and 7.658 in 200 g/L glucose with ORP controlled at -100 mV condition. In 300 g/L glucose fermentation, final biomass concentrations were 3.400 g/L for no ORP control, 4.953 g/L for -150 mV ORP control and 5.260 for -100 mV ORP control. Ethanol productivities were 2.574 g/Lh for 200 g/L glucose without ORP control and 3.780 g/Lh for 200 g/L glucose with -100 mV ORP control. In 300 g/L glucose fermentation, ethanol productivity decreased to 1.584 g/Lh when no ORP control was imposed. ORP control at -150 mV could improve the ethanol productivity to 1.693 g/Lh while -100 mV ORP control was able to further enhance the ethanol productivity to 1.829 g/Lh. Fatty acid composition was observed to shift to more saturated components when no ORP control was applied. Such trend of saturation was increased by higher gravity condition. ORP control was shown to change this tendency to saturation and help restore fatty acid components on plasma membrane to a more balanced distribution.

very-high-gravity fermentation

redox potential control

fatty acid composition

membrane

biomass

ethanol productivity

Downstream Processing of Synechocystis for Biofuel Production

January 2011

abstract: Lipids and free fatty acids (FFA) from cyanobacterium Synechocystis can be used for biofuel (e.g. biodiesel or renewable diesel) production. In order to utilize and scale up this technique, downstream processes including culturing and harvest, cell disruption, and extraction were studied. Several solvents/solvent systems were screened for lipid extraction from Synechocystis. Chloroform + methanol-based Folch and Bligh & Dyer methods were proved to be "gold standard" for small-scale analysis due to their highest lipid recoveries that were confirmed by their penetration of the cell membranes, higher polarity, and stronger interaction with hydrogen bonds. Less toxic solvents, such as methanol and MTBE, or direct transesterification of biomass (without pre-extraction step) gave only slightly lower lipid-extraction yields and can be considered for large-scale application. Sustained exposure to high and low temperature extremes severely lowered the biomass and lipid productivity. Temperature stress also triggered changes of lipid quality such as the degree of unsaturation; thus, it affected the productivities and quality of Synechocystis-derived biofuel. Pulsed electric field (PEF) was evaluated for cell disruption prior to lipid extraction. A treatment intensity > 35 kWh/m3 caused significant damage to the plasma membrane, cell wall, and thylakoid membrane, and it even led to complete disruption of some cells into fragments. Treatment by PEF enhanced the potential for the low-toxicity solvent isopropanol to access lipid molecules during subsequent solvent extraction, leading to lower usage of isopropanol for the same extraction efficiency. Other cell-disruption methods also were tested. Distinct disruption effects to the cell envelope, plasma membrane, and thylakoid membranes were observed that were related to extraction efficiency. Microwave and ultrasound had significant enhancement of lipid extraction. Autoclaving, ultrasound, and French press caused significant release of lipid into the medium, which may increase solvent usage and make medium recycling difficult. Production of excreted FFA by mutant Synechocystis has the potential of reducing the complexity of downstream processing. Major problems, such as FFA precipitation and biodegradation by scavengers, account for FFA loss in operation. Even a low concentration of FFA scavengers could consume FFA at a high rate that outpaced FFA production rate. Potential strategies to overcome FFA loss include high pH, adsorptive resin, and sterilization techniques. / Dissertation/Thesis / Ph.D. Civil and Environmental Engineering 2011

Environmental engineering

Energy

biodiesel

bioenergy

disruption

fatty acid

lipid extraction

Synechocystis