The role of acid in the cerium (IV) oxidation of carbohydrates

Czappa, Dennis J.,

January 1974

Thesis (Ph. D.)--Institute of Paper Chemistry, 1974. / Includes bibliographical references (p. 86-89).

A study of the effects of chlorination and caustic extraction on the carbohydrate fraction of and aspen neutral sulfite semichemical pulp

Boehm, Richard Harry,

January 1955

Thesis (Ph. D.)--Institute of Paper Chemistry, 1955. / Includes bibliographical references (p. 87-88).

Synthesis and electrochemical characterisation of processable polypyrrole boronic acid derivatives for carbohydrate binding

Bunnfors, Kalle

January 2015

Conducting polymers have been widely explored for many different purposes including sensing. In thisthesis the conducive properties of pyrrole and the carbohydrate binding properties of boronic acid iscombined to make a reagent-free detector for carbohydrates. The polymer is manufactured in form ofparticles in the μm scale to create a porous film which has a high surface to volume ratio.The material was characterised and the binding properties were evaluated for galactose and glucose.Proof of binding was found via both electrochemical methods and QCM-D. A correlation between R2 value and concentration of substrate was found which enables measurement of concentration of carbohydratesin unknown samples.

Conducting polymers

polypyrrole

boronic acid

carbohydrates

reagent-free detection.

The effects of dietary carbohydrate and fat and fatty acid availability on muscle glycogen and triglyceride and substrate utilization during and after exercise

Zderic, Theodore William

28 August 2008

Not available / text

Exercise--Physiological aspects

Carbohydrates--Metabolism

Fat--Metabolism

Muscles--Metabolism

Carbohydrate analysis of Simmondsia chinensis (Link) Schneider and its relation to rooting

Reddy, Steven Jeffrey

January 1980

No description available.

Carbohydrates.

Jojoba.

Jojoba -- Analysis.

Elucidation and optimization of molecular factors for dendritic cell responses to surface presented glycans

Hotaling, Nathan Alexander

27 August 2014

Dendritic cells (DCs) are regulators of the immune system and express a class of pattern recognition receptors known as C-type lectin receptors (CLRs) to recognize and respond to carbohydrates (glycans). Dendritic cells are hypothesized to be key mediators in the immune response to implanted materials and ligation of CLRs has been shown to have diverse effects on DC phenotype ranging from tolerogenic to pro-inflammatory. Thus, designing future biomaterials and combination products that harness the potential of CLR ligation on DCs has great promise. Additionally, many of the proteins which adsorb to biomaterials when implanted are glycosylated and thus understanding this interaction would provide further insight into the host response to currently implanted materials. However, DC responses to glycans presented from non-phagocytosable surfaces has not been well characterized and optimal factors for DC phenotype modulation by surface presented glycans are unknown. Additionally, studies relating DC response to glycan structures from soluble and phagocytosable displays to that of non-phagocytosable display have not been performed. This is of critical importance to the field because of the extremely limited supply of complex glycan structures that are able to be obtained. Because of this limited supply of glycans the trend in glycomics has been toward creation of glycan microarrays to assess initial candidates of interest for further study. However, the assumption that cell response to these glycoconjugate microarrays is equivalent to soluble or phagocytosable conjugates has not been validated. Therefore, the purpose of this study was to 1) determine the optimal molecular contextual variables of glycoconjugate presentation from a non-phagocytosable surface, namely, charge, density, and glycan structure for modulating DC phenotype; and 2) determine if modality of glycoconjugate presentation, i.e. soluble, phagocytosable, or non-phagocytosable will modulate DC phenotype differentially. To determine the effect of the molecular contextual variables primary human immature DCs (iDCs) were exposed to a range of adsorbed glycoconjugates in a 384 well plate and their subsequent phenotype assessed via a novel in house produced high throughput (HTP) assay. Bovine serum albumin (BSA) was modified to have a range of glycan densities and isoelectric points to determine which of these were optimal for DC phenotype modulation. Next, several poly-mannose structures were presented to DCs to determine if DC response was structure specific. Finally, contextual variables were modeled in a multivariate general linear model to determine underlying trends in DC behavior and optimal factors for glycan presentation from non-phagocytosable surfaces. To determine the effect of the modality of glycoconjugate display on DCs, optimized glycoconjugates from 1) were adsorbed to the wells of a 384 flat well plate, delivered at varying soluble concentrations, or adsorbed to phagocytosable 1 µm beads and subsequent DC phenotype assessed via the HTP assay. The cell response to the glycoconjugates was then validated to be CLR mediated and the DC response to glycan modality was modeled in another general linear model. Results from these studies show that highly cationized high density glycoconjugates presented from non-phagocytosable flat well display modulate DC phenotype toward a pro-inflammatory phenotype to the greatest extent. Additionally, significant impacts on DC phenotype in response to adsorbed conjugates can be seen when grouping glycan structure by terminal glycan motif. Finally, DC response to glycoconjugates were found to be CLR mediated and that each modality of glycan display is significantly different, in terms of DC phenotype, from the others. These results provide indications for the future design of glycan microarray systems, biomaterials and combination products. Furthermore, this work indicates that different mechanisms are involved in binding and processing of surface bound versus soluble glycoconjugates. With further study these differences could be harnessed for use in the next generation of biomaterials.

Glycobiology

Glycoimmunology

Biomaterials

Glycans

Carbohydrates

Immunology

Dendritic cell

High throughput

Synthesis of Novel Heterocyclic N-Oxide Glycosides: Glycosylation of Myxin Analogs

Joyner, Jarin

18 December 2013

Phenazines and heterocyclic N-oxides have proven to be interesting classes of antitumoral as well as antibiotic agents . The natural product myxin (1-hydroxy-6-methoxyphenazine- N5, N10-dioxide) which belongs to both of these unique classes of molecules, has been found to cause bio-reductively activated, radical-mediated DNA strand cleavage via a de-oxygenative mechanism, making it a potential anti-tumoral as well as anti-bactierial candidate. In order to investigate as well as improve the bioactive properties of myxin, the following study was designed to synthesize glycosylated myxin analogs. A small catalog of these compounds were synthesized, some of them exhibiting comparable biological activity to that of myxin.

Myxin

Phenazines

Heterocylcic N-oxides

Glycosylation

Carbohydrates

Bio-reductive

The influence of growth rate on the energy metabolism of LS mouse cells in steady-state semicontinuous culture /

Woodruff, Peter Brian.

January 1975

No description available.

Cell physiology.

Carbohydrates -- Metabolism.

Cell culture.

Mice -- Physiology.

Engineering, General.

Regioselective Functionalization of Polyols via Organoboron Catalysis

Chan, Lina

05 December 2011

With the increasing realization of their involvement in numerous biological processes, synthetic oligosaccharides present promising potential in drug and vaccine discovery. Selective functionalization of hydroxy groups in polyols represent a long-standing goal in chemistry since the chemical synthesis of O-glycosides often requires extensive protecting group manipulation. Organoboron catalysis is a recent strategy for regioselective activation of the equatorial hydroxy group of cis-vicinal diols. Following the initial findings that diarylborinic acid catalyzes the regioselective acylation of carbohydrate derivatives, kinetic studies were conducted to obtain better insight on the mechanism. Thereafter, the ability of diarylborinic acid to catalyze the regioselective alkylation of carbohydrates was demonstrated. Finally, investigations in the capability of diarylborinic acid to influence regiochemical outcome of glycosylation reactions were explored. Similarly, kinetic experiments were devised to shed light on the mechanism of the reaction.

organic chemistry

organoboron

carbohydrates

alkylation

kinetic studies

glycosylation

catalysis

0490

The Effect of a Low Glycemic Index Diet on Glucose Challenge Test Results in Women at risk for Gestational Diabetes Mellitus

Southgate, Katherine

16 August 2012

Gestational Diabetes Mellitus develops in 3.7-18% of Canadian women, and can cause serious maternal-fetal complications. Low-GI foods have been shown to increase β-cell function in subjects with impaired glucose tolerance. Theoretically, this effect should improve glucose tolerance and reduce the risk of gestational hyperglycemia. Thus, we aimed to explore the effects of a low-GI diet on glucose challenge test (GCT) results in women at risk for GDM. Women were randomized to receive education during pregnancy focused on incorporation of low- or medium- to high-GI foods. Key foods were provided to assist compliance. Information was obtained from medical records and questionnaires. Ninety-four (94) women completed the study. After adjustment for confounding variables, there was no significant difference in GCT values between intervention groups. Results suggest that low-GI foods do not affect blood glucose control during pregnancy.

carbohydrates

pregnancy

glycemic index

glucose challenge test

0570

0380