The effects of gelomyrtol forte on human ciliary beat frequency and intracellular cyclic adenosine monophosphate in vitro

Kwok, Pui-wai., 郭佩瑋.

January 2007

published_or_final_version / Medicine / Master / Master of Research in Medicine

Cilia and ciliary motion

Materia medica, Vegetable.

Cyclic adenylic acid.

Bio-active constituent from Yinqiaosan has anti-influenza and anit-inflammatory effect

Law, Hing-yee, 羅興怡

January 2014

Influenza epidemics have become a major public health concern worldwide. According to the World Health Organization, the annual epidemics results in about three to five million cases of severe illness, and about 250 to 500 thousand deaths. Recurring emergence of new influenza viruses and viruses that are resistant to currently approved antiviral medications pose a critical need to explore new or alternative medications. A classical Traditional Chinese Medicine (TCM) decoction consisting of nine herbs, named Yinqiaosan (YQS, 銀翹散), has a long history for treating respiratory diseases in China. However, the efficacy of YQS has not been investigated mechanistically. In the present study, the effectiveness of YQS in treating influenza virus infection was examined. The potential mechanisms of action of two active compounds present in one of the component herbs of YQS were also investigated. Results showed that YQS increased the survival rate of the mice in an in vivo influenza virus infection model with significant reduction in lung viral titers. In order to further delineate the mechanisms of action of YQS, compounds present in a principal ingredient of YQS were examined for antiviral and immunomodulatory effects. In screening a panel of fractions extracted from YQS, forsythoside A was demonstrated to suppress the viral titers of a wide range of influenza viruses including the oseltamivir-resistant and the 2009 pandemic H1N1 viruses. Through electron microscopy, slow or abnormal viral budding events were observed upon forsythoside A treatment during influenza virus infection. Western blot analysis revealed a reduced influenza virus M1 protein expression. As previous report showed that assembly of viral components into an infectious particle required a threshold level of M1 protein, reduced M1 expression in the cells treated with forsythoside A may contribute to the virus replication suppression. On the other hand, innate immune responses provide first line protection against influenza virus infections. However, excessive responses often result in tissue damage. Cyclooxygenase (COX)-2 is an immunomodulatory factor that has been shown to play a role in the pathogenesis of influenza viruses. A previous COX-2 knock-out mice model showed that COX-2 deficiency is beneficial to the host during influenza viral infection, in which mortality was significantly reduced. Furthermore, during H5N1 infection, it has been shown that COX-2 level significantly increased and it played an essential role in coordinating the productions of inflammatory cytokines, while in another study, pharmacological inhibition of COX-2 suppressed H5N1 virus replication in primary human macrophages. In view of the roles of COX-2 during influenza virus infection, the presence of compound in YQS that reduces the influenza virus-induced COX-2 level was examined. Present results showed that jacaranone not only reduced the influenza virus-induced cyclooxygenase (COX)-2 mRNA level, it also suppressed the subsequent production of prostaglandin E2 level in primary human macrophages. At the same time, jacaranone inhibited the virus induced-activations of ERK1/2 and Akt, which are involved in the COX-2 induction. Jacaranone also suppressed, at least in part, the COX-2 mRNA level at the transcriptional level by inhibiting the nuclear translocation of NF-κB. To conclude, TCM has been recognized as an important part in complementary and alternative medicine and it is an ample source of antimicrobial drugs. The use of a mixture of herbs is the major therapeutic approach of TCM in which, the principal ingredients provide the main therapeutic actions while the others enhance the effects or diminish the side effects of the principal ones. Some components act mainly for symptomatic control. The present study not only supports the efficacy of YQS, but also gives evidences to an active antiviral compound and an immunomodulatory compound found in YQS. They may act as either principle or supporting components depending on the purpose of application. This study provides new insights on future novel drug development from the existing wisdom of TCM. / published_or_final_version / Paediatrics and Adolescent Medicine / Doctoral / Doctor of Philosophy

Materia medica, Vegetable - China

Medicine, Chinese

Influenza - Treatment

The flavonoids and phenolic acids of the genus Silphium and their chemosystematic and medicinal value

Williams, Jeffrey Douglas

28 August 2008

Not available

Silphium (Genus)

Flavonoids

Phenolic acids

Materia medica, Vegetable

Vegetable farming in Hong Kong: a study in agricultural geography.

Wong, Chen-ta., 黃成達.

January 1971

published_or_final_version / Geography and Geology / Doctoral / Doctor of Philosophy

Vegetable gardening - China - Hong Kong.

Soybean oil based copolymers containing silicon, boron or phosphorus: polymerization, characterization and fire retardance properties

Sacristán Benito, Marta

24 February 2010

Introducción y antecedentes El concepto de desarrollo sostenible surgió como idea principal tras la reunión de la comisión Brundtland en 1987. Esta reunión fue organizada por Naciones Unidas con el fin de tratar el deterioro del medio ambiente, originado por el desarrollo descontrolado de la humanidad. El desarrollo sostenible fue definido como un avance social y económico que asegure una vida sana y productiva al ser humano, pero que no comprometa las posibilidades de desarrollo de las generaciones venideras. Entre las conclusiones alcanzadas, se resaltó la necesitad de disponer de una mayor variedad de fuentes de energía. La filosofía de esta cumbre fue recogida en Agenda 21, un documento que pretendía servir como guía general de actuación para alcanzar un desarrollo sostenible a todos los niveles. Respecto a las ciencias, Agenda 21 subrayaba la necesidad de emplear todo el conocimiento científico en la consecución de los objetivos del desarrollo sostenible. En este sentido, la Environmental Protection Agency acuñó en 1998 un término, Green Chemistry, que reunía estas ideas y las aplicaba a la química a través de 12 principios que debían ser cumplidos en el camino hacia una química sostenible. Entre estos principios, el uso de fuentes renovables para la obtención de materias primas ha adquirido gran relevancia debido a las previsiones de agotamiento de una de las fuentes de energía y materias primas más importantes: el petróleo. Los aceites vegetales se incluyen entre estas fuentes renovables de materias primas, siendo actualmente una de las fuentes renovables más utilizadas por la industria química. Los aceites vegetales están básicamente compuestos por triglicéridos, que son moléculas formadas por glicerol y tres ácidos grasos. En general los ácidos grasos pueden ser completamente saturados o contener varios dobles enlaces que en algunos casos pueden encontrarse conjugados, pero también existen ácidos grasos que contienen grupos hidroxilo o epóxido. Cada aceite vegetal posee una distribución característica de ácidos grasos que determina sus propiedades físicas y químicas. En lo que respecta a la química de los polímeros, los aceites vegetales constituyen una atractiva materia prima debido a la amplia gama de transformaciones químicas que pueden llevarse a cabo para sintetizar monómeros de diversa naturaleza. La epoxidación de los dobles enlaces internos es la transformación más común, ya que permite, a través de la apertura del anillo oxiránico con diferentes reactivos, la introducción de una gran variedad de grupos funcionales. Los dobles enlaces internos pueden polimerizarse directamente en condiciones térmicas, con iniciadores de radicales o por polimerización catiónica. / Introducction The sustainable development concept came out of the United Nations Commision on Environment and Development in 1987 (Bruntland Commission) and it is defined as "the development that meets the needs of the present without compromising the ability of future generations to meet their own needs". From this point, both the society and the industry have considered what a sustainable development really means and the best ways to start to achieve it from their own standpoints. The principles of the United Nations Conference on environment and Development (UNCED) held in June 1992 in Rio de Janeiro, and Agenda 21, were formulated with the aim of preparing the world for the challenges of the 21st century. In this context, during the early 1990s the US Environmental Protection Agency (EPA) coined the phrase Green Chemistry "To promote innovative chemical technologies that reduce or eliminate the use of generation of hazardous substances in the design, manufacture and use of chemical products". The main challenges of Green Chemistry and Engineeiring can be summarized as: · utilizing renewable instead of scarce resources. · avoiding toxic/dangerous chemicals in safer processes to obtain safer products. · minimizing energy use. · minimizing waste and resource use, re-using products, recovering and recycling materials. So making processes globally more efficient. Plant oils are one of the most widely applied renewable raw materials in the chemical industry for non-fuel applications. Vegetable oils are triglycerides (tri-esters of glycerol with long-chain fatty acids) with varying composition of fatty acids depending on the plant they are extracted from. Depending on the composition of plant oils, their Chemicals and physical properties are different.Vegetable oils are very used in polymer chemistry. Triglycerides have different reactive points through which we can obtain polymers from plant oils.There are two main approaches:The first one is the chemical modification of the triglycerides obtaining a large number of polymerizable monomers like expoxides or alcohols. The second approach is the direct polymerization of the carbon-carbon doubles bonds of plant oils through a free radical or a cationic mechanism.The free radical polymerization of double bonds has received less attention than cationic mechanism which has been very studied by Larock's group.In both cases thermosetting polymers with comparable properties to those of industrial can be obtained. Because of increasing use of synthetic polymeric materials during the lasts decades and the large fraction of the fire load in homes, it is necessary the use of fire retardants to reduce combustibility of the polymers, and smoke or toxic fume production. To get these requirements, the development of effective flame retardant materials is a key factor. To reduce the flammability, flame retardants can act in the gas phase or in condensed phase. In the gas phase fire retardants act as scavengers of the highly reactive radical species that propagate the combustion. In the condensed-phase fire retardants interfere in the thermal degradation processes modifying the reaction pathways and promoting the formation of char instead of volatile degradation products. Finally some flame retardants can act in both phases. Objectives The main objective of this Thesis was to develop new fire retardant biobased thermosets from vegetable oils as renewable resources. To achieve this goal it was carried out the cationic copolymerization of soybean oil, styrene and divinylbenzene with different silicon-or boron-or phosphorus containing comonomers.

cationic polymerization

flame retardancy

renewable resources

vegetable oils

547

NITROGEN CYCLING AND WEED DYNAMICS IN A PEA-COVER CROP-SWEET CORN ROTATION

O'Reilly, Kelsey

16 September 2009

The effect of cover crops on N and weed dynamics was assessed within a pea (Pisum sativum L.) – cover crop – sweet corn (Zea mays L.) rotation. Cover crops of oat (Avena sativa L.), perennial rye (rye) (Secale cereale L.), oilseed radish (OSR) (Raphanus sativus L. var. oleoferus Metzg Stokes), and OSR plus perennial rye (OSR+rye) increased plant available N (PAN) over the cover crop growing season compared to the no cover control at the Bothwell site only. However, at neither site did cover crops result in increased PAN for the sweet corn, indicating that these cover crops will not reduce required N fertilizer applications. Also, cover crops posed neither an increased or decreased need for weed management during sweet corn production. However, OSR may be useful in pesticide reduced programs due to its potential ability to reduce fall herbicide applications, provided it does not set viable seed.

Weeds

Vegetable Production

Nitrate Leaching

Soil Science

Cover crops

Nitrogen

Factors Affecting Phytochemical Composition and Antioxidant Activity of Ontario Vegetable Crops

Hu, Chanli

04 1900

The total phenolic content (TPC) of common vegetables grown in Ontario was determined by the Folin-Ciocalteu method, and it was found that the broccoli inflorescence had an exceptionally high TPC on average value, followed by cabbage, onion, potato and carrot. The TPC values of darkpurple potatoes and carrots were higher than the common potatoes and carrots. Positive correlations between the TPC and TAA were observed with varied degrees in all vegetables. Choice of cultivar and production practices can be used to increase TPC and TAA in a wide range of vegetables. Insecticide application did not influence the TPC and TAA of broccoli leaves and flowers. Higher N rate decreased the TPC and TAA of cabbage cultivar ‘Huron’ and of carrot. Fungicide and biofungicide applications did not influence TAA in carrots. Fertilizer applications did not influence the TAA of onions, but there was a decrease in TPC. The rate of MAP (mono ammonium phosphate 52% P2O5) affected the TAA of onions, but the influence was inconsistent between two antioxidant assays. High temperature with possibly high rainfall capacity occurred in the year increased the TPC and TAA of most studied vegetable crops. / Ontario Ministry of Agriculture, Food and Rural Affairs/University of Guelph Sustainable Production Systems Program

Life Cycle Assessment of a Pilot Scale Farm-Based Biodiesel Plant

Wasserman, Eli Shawn Jordan

07 May 2013

This study used environmental life cycle assessment (LCA) to investigate waste vegetable oil (WVO) biodiesel production at the University of Guelph, Ridgetown Campus, Centre for Agricultural Renewable Energy and Sustainability (CARES). CARES production data and Natural Resources Canada’s GHGenius LCA data were utilized to conduct a well-to-gate LCA. A range of scenarios were studied including using soybean oil feedstock and implementing methanol recovery. Results suggest that methanol is the environmental bottleneck of the WVO biodiesel production system. Results also suggest soybean biodiesel production released more GHG emissions and consumed more energy than both WVO biodiesel or petroleum diesel production. LCA is an iterative process. Due to the study’s limited scope, and status as a screening study, it is recommended that the study of the impacts of the CARES facility be redone with more reliable facility data, that it include the anaerobic digester, as well as a well-to-wheels boundary. / University of Guelph

Life Cycle Assessment

Biodiesel

Waste Vegetable Oil

Soybean Oil

Farm

Polyurethanes plastic sheets and foams synthesized from aromatic triols

Dumont, Marie-Josée

Unknown Date

No description available.

Anti-inflammatory and anti-bacterial activity of South African Erythrina species.

Pillay, Candice Claudia Natasha.

17 December 2013

An investigation was undertaken to determine whether Erythrina species indigenous to South Africa contained the same type of compounds as Erythrina species not found in South Africa and to determine whether they displayed any anti-inflammatory and antibacterial activity. Phytochemical analysis was conducted using thin layer chromatography. A great similarity was found in the leaf profiles of the species being studied. The leaf and bark extracts of E. caffra and E. lysistemon appear to have similar profiles when viewed under normal light and ultraviolet light, (254 and 366 nm). These two species have similar banding patterns when stained with fast blue reagent for flavonoids and potassium hydroxide reagent for coumarins. The five species that were tested appear to contain alkaloids, flavonoids, coumarins and triterpenes just like the species not found in South Africa from this genus. Dried bark and leaves from E. caffra, E. humeana, E. latissima, E. lysistemon and E. zeyheri were screened for anti-inflammatory and anti-bacterial activity. Ethanol, ethyl acetate and water extracts were screened for both anti-inflammatory and anti-bacterial activity. The cyclooxygenase bioassay was used to test for anti-inflammatory activity. The ethanol and ethyl acetate extracts generally displayed activity while the water extracts displayed no activity for both the bark and the leaves. The bark generally displayed more cyclooxygenase inhibitory activity than the leaves. The bark of E. caffra and E. lysistemon displayed the highest cyclooxygenase inhibitory activity. The disc diffussion bioassay was used to screen for anti-bacterial activity. Anti-bacterial activity was only detected in the water extracts of the leaves. The water extracts of the bark showed very little or no activity. The bark yielded more anti-bacterial activity than the leaves. Anti-bacterial activity was mainly displayed against Gram positive bacteria. The bark of E. caffra and E. lysistemon displayed the highest anti-bacterial activity. On the basis of the screening results it was decided to use bioasssay guided fractionation in an attempt to isolate putative anti-inflammatory and anti-bacterial compounds. A hexane extract from the bark of E. lysistemon was prepared and purified using a range of chromatographic methods. Vacuum liquid chromatography, separation using a chromatotron, thin layer chromatography and high performance liquid chromatography were used to isolate anti-inflammatory compound(s). The isolation proved to be unsuccessful as the pure compound had no cyclooxygenase inhibitory activity. It was subsequently determined that the compounds were lost during the HPLC procedure. An ethanolic extract of the bark of E. Iysistemon was purified in an attempt to isolate an anti-bacterial compound(s). Vacuum liquid chromatography and separation using the chromatotron was used to purify the crude extract. The more sensitive microtitre bioassay was used to test for anti-bacterial activity against S. aureus. The isoflavone, Wighteone was isolated. / Thesis (M.Sc.)-University of Natal, Pietermaritzburg, 2000.

Medicinal plants.

Materia medica, Vegetable.

Erythrina.

Theses--Botany.