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51	Antifreeze protein in winter flounder, Pleuronectes americanus, gill epithelial cells isolated and grown in culture / Winsor, Stephen B., January 2000 (has links) Thesis (M.Sc.)--Memorial University of Newfoundland, 2000. / Typescript. Bibliography: leaves 74-79.
52	Characterization of skin and plasma type I antifreeze proteins from Atlantic (Liparis atlanticus) and dusky (Liparis gibbus) snailfish / Evans, Robert Philip, January 2003 (has links) Thesis (Ph.D.)--Memorial University of Newfoundland, 2003. / Bibliography: leaves 160-171.
53	Molecular Physiological Evolution: Steroid Hormone Receptors and Antifreeze Proteins Cziko, Paul 14 January 2015 (has links) For my dissertation research I explored the diversity and functional evolution of steroid hormone receptors (SRs) in animals and the physiological implications of the evolution of antifreeze proteins in Antarctic notothenioid fishes. For the former, I discovered multiple new SRs from the vast and under-sampled swath of animal diversity known as invertebrates. I used the sequences of these and other newly discovered related receptors in combination with genomic data and molecular phylogenetic techniques to revise the understanding of the evolutionary history of this important gene family. While previous studies have suggested that vertebrate SR diversity arose from a gene duplication in an ancestor of all bilaterian animals, my work presents strong evidence that this duplication occurred much later, at the base of the chordates. Furthermore, to determine the implications of added diversity and a revised phylogeny on inferences of the functional evolution of SRs, I functionally characterized heretofore-unknown SRs from hemichordates, an acoelomate flatworm, and a chaetognath and statistically reconstructed and functionally characterized ancestral SRs. My results expand the known sequence and functional repertoire of SRs in animals while reinforcing the previous inference that all SRs evolved from an estrogen-sensitive ancestral receptor. I also explored the consequences of the evolution of antifreeze proteins in Antarctic notothenioid fishes, a crucial adaptation to their icy, polar environment. These special proteins adsorb to ice crystals that enter a fish's body and prevent further growth, thereby averting death. I discovered that, in addition to their lifesaving growth-inhibiting ability, AFPs also prevent the melting of internal ice crystals at temperatures above the expected equilibrium melting point. Together with a decade-long temperature record of one of the coldest fish habitats on earth, my experimental results show that the evolution and expression of antifreeze proteins is accompanied by a potentially detrimental consequence: the lifelong accumulation of ice inside these fishes' bodies. This dissertation includes previously published co-authored material as well as unpublished co-authored material. / 2017-01-14 Antifreeze proteins Endocrinology Molecular evolution Polar marine biology Protein evolution Steroid hormone receptors
54	Investigating the Relationship Between Structure, Ice Recrystallization Inhibition Activity and Cryopreservation Ability of Various Galactopyranose Derivatives Tokarew, Jacqueline January 2011 (has links) The goal of our research is to generate cryopreservation agents derived from antifreeze glycoproteins. One postulated mechanism of cell cryo-injury is ice recrystallization. It is known that simple saccharides and cryopreservation agents (DMSO) display ice recrystallization inhibition (IRI). This study assessed the cytotoxicity and cryopreservation ability of these sugars in relation to their IRI. It was determined that compounds with greater IRI have increased cytotoxicity yet confer cryoprotection. To further investigate how structure is affecting IRI activity, several galactopyranoside derivatives were synthesized. A series of deoxy and α-Callyl- deoxy galactopyranoses were prepared. Testing determined that removal of any hydroxyl group removes IRI. 3-deoxy-β-thiophenyl galactose was also synthesized and had surprisingly better IRI than β-thiophenylgalactose. Also, 6-azido galactose had similar IRI to 6-deoxy galactose. Lastly, a series of β- thioalkylgalactosides was synthesized and testing gave contradicting results which suggest that predicting IRI based on hydrophilicity is more complicated than initially hypothesized. cryopreservation ice recrystallization deoxy galactosides thiophenylgalactose azido galactosides amino galactosides cytotoxicity antifreeze glycoproteins
55	Importance of the Structural Components of C-linked Glycopeptides to Specific-antifreeze Activity: From Glycopeptides to Small Molecule Inhibitors of Ice Recrystallization Trant, John F. January 2012 (has links) One of the largest problems in current medicine is the shortage of organs for transplant due to technological limitations in the storage of organs for any length of time. A possible solution to this problem would involve cryopreservation. However, current cryopreservatives such as sucrose or DMSO have concerning cytotoxic issues that limit their possible applications. A major cause of cryoinjury is the uncontrolled recrystallization of inter and intra-cellular ice crystals that occurs during the thawing process leading to mechanical damage and dehydration. The Ben lab has thus been interested in the design of compounds that are capable of inhibiting this process but do not possess other undesirable properties found in the native compounds. These synthetic analogues have been shown to increase cellular viability post-thaw. A series of mixed α/β glycopeptides are prepared and analyzed for antifreeze properties. The results of this study imply that it is not the gross conformation of the glycopeptide that is responsible for activity, but rather that intramolecular relationships may be responsible for disrupting the reorganization of ice. A technique was devised for the incorporation of triazoles into the analogues to investigate the importance of the linker and to greatly simplify the synthesis of a library of glycoconjugates. It was found that the IRI activity of glycopeptides is very sensitive to the distance between carbohydrate and peptide backbone. The electron density at the anomeric oxygen is an important parameter with respect to intramolecular networks. A series of substituted galactosides is presented that modify the electronics of the anomeric oxygen. The results demonstrate that decreasing electron density at this position appears to improve IRI activity in a predictable manner. To better understand the remarkable IRI activity of a key analogue, it was systematically truncated. This study led to the serendipitous discovery of a series of very highly IRI active analogues that do not contain a peptide backbone. These compounds represent the first non-glycopeptides that can show very significant IRI activity even at very low concentrations. The final portion of the thesis reports the efforts towards the preparation of a carbasugar analogue of AFGP-8. Antifreeze Organic Synthesis Bioorganic chemistry Recrystallization inhibition carbohydrates small molecule glycopeptide beta peptide CuAAC
56	Elucidating the Important Structural Features of Aryl Glycosides and Antifreeze Glycoprotein Disaccharide Analogs for Ice Recrystallization Inhibition Musca, Vanessa January 2017 (has links) Cryopreservation of human red blood cells (RBCs) extends the storage time from 42 days (hypothermic storage limit) to a maximum of 10 years. While this reduces the possibility of RBC shortages in emergency situations, this preservation method is currently limited to individuals with rare blood phenotypes, patients who require autologous blood transfusions, and military applications. Furthermore, cryopreservation is associated with a high degree of cellular damage, which can subsequently reduce the viability of cells post-thaw. The cellular damage incurred upon cryopreservation is primarily attributed to the process of ice recrystallization. To reduce the degree of cellular damage, cryoprotective agents (CPAs) are used. Currently, 10 % dimethyl sulphoxide (DMSO) and 40 % glycerol are used for the cryopreservation of hematopoietic stem cells (HSCs) and human RBCs respectively. Unfortunately, these CPAs do not provide protection against ice recrystallization. The biological antifreezes (BAs) consisting of antifreeze proteins (AFPs) and antifreeze glycoproteins (AFGPs) were identified as the first inhibitors of ice recrystallization. Consequently, the Ben laboratory is interested in synthesizing small molecule carbohydrate-based inhibitors of ice recrystallization that can be used as an alternative to glycerol or DMSO for the cryopreservation of various cell types. Therefore, this thesis focuses on elucidating important structural features of carbohydrate-based derivatives that are responsible for IRI activity. The first part of this study examines the importance of the anomeric oxygen atom of aryl glycosides for IRI activity. Our laboratory previously demonstrated that the O-linked aryl glycosides are effective inhibitors of ice recrystallization. However, the influence of stereoelectronic effects at the C1 position of aryl glycosides on IRI activity has not been investigated. As a result, N- and S-linked aryl glycosides were synthesized in this study and their IRI activities were compared to that of the O-linked aryl glycosides. These results suggest that a stronger exo-anomeric effect exhibited by the C1 nitrogen derivatives reduces the IRI activity of aryl glycosides. The second part of this study focuses on the synthesis of AFGP disaccharide analogs. While the β-(1,3) glycosidic linkage found in native AFGP-8 was previously assessed for its influence on IRI activity, an extensive structure-function analysis of AFGP disaccharide analogs has not yet been performed. As a result, an AFGP disaccharide analog was designed whereby a para-methoxyphenyl (PMP) substituent was incorporated. This was done to assess whether the PMP substituent could enhance the lack of IRI activity exhibited previously with AFGP disaccharide analogs. Although the synthesis of this disaccharide target was not completed, a number of advantageous developments have been made regarding the glycosylation of N-acetyl-D-glycosamine derivatives. In addition, the PMP-GlcNAc intermediate encountered in disaccharide synthesis was assessed for its IRI activity, confirming that the acetamido (NHAc) function is not required for IRI activity. Antifreeze Glycoproteins Carbohydrates Aryl Glycosides Ice Recrystallization Inhibition Disaccharide Analogs Cryopreservation
57	Adsorption of Denatonium Benzoate Using Activated Carbon Smith, Bartina Ciara 16 May 2011 (has links) No description available. Civil Engineering Environmental Engineering denatonium benzoate adsorption activated carbon bittering agent antifreeze
58	Experimental Investigation of the Interactions of Hyperactive Antifreeze Proteins with Ice Crystals Celik, Yeliz 16 April 2010 (has links) No description available. Biophysics Physics Antifreeze proteins Thermal Hysteresis Freezing Hysteresis Superheating Melting Hysteresis Microfluidics Ice recrystallization
59	Toward the Crystal Structure of a Type III Antifreeze Protein From Ocean Pout, Macrozoarces Americanus Bubanko, Steven A. 08 1900 (has links) <p> Four stucturally distinct types of macromolecular antifreezes have been previously isolated from the sera of polar marine fish. When the water temperature surrounding these organisms drops below -0.7°C, the freezing point of their bodily fluids, any contact with surrounding ice will nucleate internal ice crystal growth. The antifreeze proteins (AFPs) and antifreeze glycoproteins (AFGPs) synthesized by the fish act to inhibit the growth of existing ice crystals in their sera through direct adsorption to the ice lattice. The α-helical structure of type I AFP from winter flounder has been solved to atomic resolution and its mechanism of ice binding has been proposed. The NMR solution structure of a type III AFP from ocean pout has identified proteins in this class to exist in a β-sandwich conformation, however their mechanism of action remains uncertain.</p> <p> To facilitate the pursuit of an x-ray crystal structure solution, we subcloned the gene for a type III AFP (HPLC6) into pET15b and expressed recombinant His-rHPLC6 AFP in E. coli. Purified rmHPLC6 product has been successfully crystallized, and heavy atom soaks were performed in order to attempt a structure solution by multiple isomorphous replacement. The lone tyrosine in this recombinant AFP has been successfully derivatized in solution with iodine, and the modified protein was crystallized. In order to optimize the measurement of anomalous scattering information, modifications to our data collection system were required. Cryocrystallography techniques were employed to improve the quality of collected data.</p> <p> The expression, purification, crystallization and optimized data collection on an iodine-derivatized type III AFP from ocean pout will be presented here. This work has been instrumental in providing the high quality x-ray data required to solve the crystal structure to atomic resolution. Future examination of the solved structure will promote an increased understanding of the ice-binding mechanism exhibited by this class of proteins.</p> / Thesis / Master of Science (MSc)
60	Characterization and expression patterns of five Winter Rye β-1,3-endoglucanases and their role in cold acclimation McCabe, Shauna January 2007 (has links) Winter rye produces ice-modifying antifreeze proteins upon cold treatment. Two of these antifreeze proteins are members of the large, highly conserved, β-1,3-endoglucanase family. This project was designed to identify glucanase genes that are expressed during cold acclimation, wounding, pathogen infection, drought or treatment with the phytohormones ethylene and MeJa. Additionally, a more detailed proteomic analysis was to be carried out to evaluate the glucanase content of the apoplast of cold-acclimated (CA) winter rye. Results of 2D SDS-PAGE analysis revealed that non-acclimated whole leaf protein extracts contain at least two β-1,3-endoglucanses while CA whole leaf protein extracts contain at least three β-1,3-endoglucanses. Subsequent 2D SDS-PAGE analysis was conducted on the apoplast extracts of NA and CA winter rye plants revealed the limitations of standard 1D SDS-PAGE. The 2-dimensional gel analysis revealed that there is a minimum of 25 proteins within the apoplast of CA winter rye, including at least 5 β-1,3-endoglucanases. Genome walking was used to isolate cold-responsive glucanase genes. The five genes isolated were designated scGlu6, scGlu9, scGlu10, scGlu11 and scGlu12. The cis-element pattern within the promoter of each gene was evaluated using online databases of documented plant cis elements. As expected, all of the promoters contained elements associated with cold, biotic and abiotic stresses, light regulation, and development. The expression patterns predicted by the cis elements in each promoter were compared to the mRNA abundance produced by each gene as detected by semi-quantitative reverse transcriptase PCR. In most cases, the abundance of transcripts arising from each gene loosely corresponded to the expression pattern predicted by the cis elements the corresponding promoter. Transcripts of scGlu9, 10 and 11 were present in cold-treated tissues and are candidates for β-1,3-endoglucanases with antifreeze activity. The results presented in this thesis provide additional insight into the apoplast proteome of CA winter rye plants as well as the complexity of the signals controlling the proteins that reside there. Although there are still a number of unresolved questions, this research opens new directions for future studies in the cold acclimation process in winter rye and specifically for the contribution of β -1,3-endoglucanses. antifreeze proteins glucanase promoter cold-acclimation winter rye regulation RT-PCR 2D SDS-PAGE cis-element Biology

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