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An investigation into the interaction of truncated recombinant IgE-Fc fragments with Fc&RI and CD23Good, Samantha January 2002 (has links)
No description available.
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FAMILIAL POLYCYTHEMIA LIKELY DUE TO NOVEL HEMOGLOBIN VARIANT- HEMOGLOBIN HYDENkolagatla, sandhya, moka, nagabhishek, bailey, samuel 05 April 2018 (has links)
Adult hemoglobin (HbA) is made up of two pairs of globin chains. Some rare mutations of the globin chains can result in high affinity towards hemoglobin molecule thus changing the equilibrium of normal oxygen loading in lungs and the delivery of same to the tissues. Because of change in the affinity to the oxygen these mutations can result in erythrocytosis (polycythemia). Here we discuss a case of Familial Polycythemia likely due to novel hemoglobin variant.
42-year Caucasian male presents to the clinic with high hemoglobin for several years but otherwise denies any symptoms of headache, vision changes, chest pain. He had history of multiple phlebotomies. His past medical history is significant for Polycythemia, PICC line associated clot,Type2 Diabetes, Hypertension, Epidural abscess. Social history is significant for smokeless tobacco but otherwise non-smoker, non-alcoholic, not an IVDA and doesn’t use testosterone. Family history is significant for his sister, her two 14year old daughters and multiple other family members with elevated hemoglobin and undergo phlebotomies, maternal grandfather died of cancer in his 30s. Physical examination is only significant for BMI of 32.46 otherwise no skin discoloration or cyanosis. Laboratory data WBC 9.4 with normal differential, hemoglobin 18.2, hematocrit 55.4, platelet count 180,000, peripheral blood smear was within normal limits, negative for JAK-2, normal erythropoietin, negative for hemochromatosis, Oxygen dissociation p50 of 19 which is low indicating left shifted dissociation curve, hemoglobin electrophoresis HbA: 61.2%, HbA2: 3%, HbF: 0%, Beta variant: 35.8%. In order to further characterize beta variant Bi-directional sequence analysis for Molecular alterations was performed and the following alterations were detected Gene: HBB, DNA change: Codon 39, heterozygous CAG>CCG Protein change: P.G1n39Pro. [glutamine (Q) to proline (P)]. HGVS: c.119A>C, p.Q40P, Classification: Likely deleterious variant. (GenBank accession number NM_000518.4).
This is a previously unreported beta chain hemoglobin variant present.
This hemoglobin variant is named as Hemoglobin Hyden based on the place where this is found in Hyden, Kentucky. There have been four variants reported at codon 40 of the beta globin gene, which is an external contact site between beta globin and alpha-2 globin. One variant, Hb vassa, is associated with mild hemolytic anemia. The three other variants (Hb Alabama, Hb Tianshui and Hb San Bruno) are not associated with clinical or hematological abnormalities. In our opinion p.Q40P is likely a cause of erythrocytosis. In order to further establish the causality it may be beneficial to test first degree relative to in this family in order to determine whether the p.Q40P alteration tracks with disease and is not present in unaffected individuals. Hemoglobin threshold for phelebotomy to lower the risk of thrombosis and cardiovascular events is yet to be defined.
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Ovarian Steroid Deprivation Results in a Reversible Learning Impairment and Compromised Cholinergic Function in Female Sprague-Dawley RatsSingh, Meharvan, Meyer, Edwin M., Millard, William J., Simpkins, James W. 02 May 1994 (has links)
We hypothesized that estradiol (E2) serves as a neurotrophomodulatory substance for basal forebrain cholinergic neurons thought to be involved in learning and memory. Learning/memory was assessed using the two-way active avoidance paradigm and the Morris water task. Female Sprague-Dawley rats were either ovariectomized (OVX) or OVX for 3 weeks, followed by s.c. implantation of a Silastic pellet containing 17-ß E2 (E2 pellet), resulting in a replacement of E2 to physiological levels. Ovary-intact (INTACT) animals served as our positive control. Active avoidance behavior and choline acetyltransferase (ChAT) activity in the frontal cortex and hippocampus were assessed at 5 and 28 weeks postovariectomy while performance on the Morris water task and high-affinity choline uptake (HACU) were measured only at the 5-week time point. At the 5-week time point, E2 replacement caused a significant elevation in the level of active avoidance performance relative to OVX animals. At the 28-week time point, OVX animals demonstrated a significantly lower number of avoidances relative to controls (61%) whereas E2-pellet animals not only demonstrated superior performance relative to OVX animals but also showed an accelerated rate of learning. Morris water task performance, on the other hand, was not significantly affected by estrogenic milieu despite a trend towards better performance in the E2-pellet group. Neurochemical analyses revealed that 5 weeks of ovariectomy was sufficient to reduce HACU in both the frontal cortex and hippocampus by 24 and 34%, respectively, while E2 replacement was successful in elevating HACU relative to OVX animals in both regions. ChAT activity was decreased in the hippocampus but not the frontal cortex of 5-week OVX animals. E2 replacement resulted in a reversal of this effect. At the 28-week time period, an unexpected decrease in ChAT activity was observed across all treatment groups. Interestingly, E2-pellet animals demonstrated the least severe decline in ChAT. This phenomenon was most evident in the frontal cortex where ChAT decreased by 61 and 56% in INTACT and OVX animals, respectively, whereas the decline in E2-pellet animals was only 16% over the same time period, suggesting a previously unreported cytoprotective effect of E2. Taken together, these findings demonstrate important effects of estrogens on cholinergic neurons and support the potential use of estrogen therapy in treatment of dementias in postmenopausal women.
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The generation and application of metallurgical thermodynamic dataDinsdale, A. T. January 1984 (has links)
The power of thermodynamics in the calculation of complex chemical and metallurgical equilibria of importance to industry has, over the last 15 years, been considerably enhanced by the availability of computers. It has resulted in the storage of data in databanks, the use of physical but complex models to represent thermodynamic data, the vast effort spent in the generation of critically assessed data and the development of sophisticated software for their application in equilibrium calculations. This thesis is concerned with the generation and application of metallurgical thermodynamic data in which the computer plays a central and essential role. A very wide range of topics have been covered from the generation of data by experiment and critical assessment through to the application of these data in calculations of importance to industry. Particular emphasis is placed on the need for reliable models and expressions which can represent the molar Gibbs energy as a function of temperature and composition. In addition a new computer program is described and used for the automatic calculation of phase diagrams for binary systems. Measurements of the enthalpies of formation of alloys in the Fe-Ti system are reported. All data for this system have been critically assessed to provide a dataset consistent with the published phase diagram. Critically assessed data for a number of binary alloy systems have been combined in order to perform quantitative calculations in two types of steel system. Firstly data for the Cr-Fe-Ni-Si-Ti system have been used to provide information about the long term stability of alloys used in fast breeder nuclear reactors. Secondly very complex calculations involving nine elements have been made to predict the distribution of carbon and various impurities between competing phases in low alloy steels on the addition of Mischmetall. Finally a new model is developed to represent the thermodynamic data for sulphide liquids and is used in the critical assessment and calculation of data for the Cu-Fe-Ni-S system. The phase diagram and thermodynamic data calculated from the assessed data are in excellent agreement with those observed experimentally. The work reported in this thesis, whilst successful, has also indicated areas which will benefit from further study particularly the development of reliable data and models for pure elements, ordered solid phases and liquid phases for high affinity systems.
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Synthesis and Evaluation of Peptidic Probes for Tissue Transglutaminase and Factor XIIIaMulani, Amina January 2014 (has links)
Transglutaminases (TGases) are a group of enzymes that catalyze the formation of an amide bond between the γ-carboxamide group of a glutamine residue and an amine donor, usually an ε-amino group of the lysine residue, leading to the formation of ε-(γ-glutamyl)lysine crosslinks. Owing to the roles that transglutaminases such as tissue transglutaminase (TG2) and Factor XIIIa (FXIIIa) have been found to play in a wide range of disease states, efforts have been directed towards the study of these proteins. The study of enzymes to better understand their function and mode of action is facilitated through the use of tools such as protein labelling, enzyme inhibition, and substrate analogue kinetic studies among others.
Transition state analogues have been effective inhibitors in the study of enzyme activity. Sulfoxide inhibitors can efficiently mimic transition states leading to the tetrahedral intermediate of an acyl transfer reaction and we discuss the synthesis towards sulfoxide transition state analogue inhibitors of TG2 in chapter 2. Novel sulfoxide compounds were synthesized, though the desired target compounds proved difficult to isolate due to their instability.
Fluorescent probes are effective in protein labelling as a means of discerning activity. This technique was applied in order to elucidate intracellular TG2 activity, which is a topic of controversy. To that end, the synthesis of a fluorescent, TG2-specific, cell permeable probe is discussed in chapter 3. However, preliminary in vivo results show that while the probe is cell permeable and fluorescent, it was not TG2-specific. Molecular modelling suggests that the hexa-arginine tag, designed to improve cell permeability, decreases the affinity of the probe for its intended target.
Finally, FXIIIa has become a new addition to the study of transglutaminases in the Keillor group. Given our interest in this enzyme, we had three goals for this work as explained in chapter 4. Firstly, owing to the anticipated high demand for FXIIIa required for later experiments, our primary aim was the development of an optimized method for the expression and purification of recombinant FXIIIA. After evaluating different conditions for FXIIIA expression, the Studier auto-induction ZYP media1 at 20 °C for 24 h was found to provide the optimal conditions for the expression of recombinant GST-tagged FXIIIA, typically giving a total of 1.5 mg of protein/L of culture.
Secondly, a variety of different peptides were synthesized and tested using a glutamate dehydrogenase (GDH)-based assay to identify a high affinity sequence for a substrate of FXIIIa. The two peptides with the highest affinity for FXIIIa were Ac-DQMMMAF-OH and Ac-DQMML-OH. Testing with TG2 displayed negligible reactivity, confirming their use as orthogonal peptides, results reinforced by modelling studies of the peptides with both FXIIIa and TG2. This discovery represents the first time peptides orthogonal to TG2 with affinity for FXIIIa have been kinetically characterized with both transglutaminase enzymes.
Lastly, our work towards a fluorogenic activity assay by incorporating a coumarin ester through attachment to a glutamic acid residue into a peptide sequence recognized by FXIIIa, will be discussed.
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Murine neonatal skin mast cells are phenotypically immature and minimally sensitized with transplacentally transferred IgE / 新生仔マウス皮膚肥満細胞は未熟であるために、経胎盤移行した母体由来IgEに感作されにくいKeith(Honda), Yuki 27 July 2020 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第22686号 / 医博第4630号 / 新制||医||1045(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 生田 宏一, 教授 竹内 理, 教授 杉田 昌彦 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM
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Transportéry KT/HAK/KUP - role ve vývoji rostliny a reakci na podmínky prostředí / Transporters KT/HAK/KUP - role in plant development and response to environmental conditionsDoležalová, Barbora January 2021 (has links)
Potassium is an essential element, which is important in many plant processes. It functions as a major osmotic and is involved in the regulation of turgor during cell growth or stomatal movements. It is also important for maintaining membrane potencial. In plants, potassium transporters from the KT/HAK/KUP family are involved in the transport of K+ . Some of them are important in the uptake of K+ from the enviroment (HAK5, KUP7), others in regulation of cell turgor (KUP2, KUP6, KUP8). In Arabidopsis thaliana, less characterized KT/HAK/KUP transporters include KUP5 and KUP9, which I studied in this diploma thesis. In this diploma thesis, I analyzed the growth phenotype of kup5 mutant plants. The results show that kup5 mutant plants are not more sensitive to K+ deficiency than wild-type plants, therefore KUP5 is probably not involved in the K+ uptake from the enviroment. Kup5 mutant plants were larger than wild-type plants, had larger root and hypocotyl cells as well as longer root meristematic zone. This growth phenotype suggests that KUP5 is involved in the regulation of cell growth, probably through turgor regulation. Using the pKUP5::KUP5-GFP construct, the KUP5 protein was localized in the ER, but this localization needs further verification. Using the pKUP5:GUS construct, KUP5 expression was...
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Function and distribution of neuronal high-affinity IgE receptors (FcεRI)Song, Jiheon 10 1900 (has links)
<p><strong>Background</strong><strong></strong></p> <p>IgE antibodies have high antigen specificity and are the hallmark biomarkers of allergy. IgE binds to high-affinity IgE receptors, known as FcεRI, which are expressed especially on mast cells and basophils. In allergic individuals, antigen binding to IgE that is associated with FcεRI leads to crosslinking of adjacent receptors and subsequently to cell activation, degranulation and/or secretion of bioactive molecules. These molecules together cause minor local tissue reactions such as oedema or itch, but also can cause major systemic reactions such as hypotension, cardiac and respiratory distress or even laryngeal swelling and death. The role of the nervous system in these reactions is usually thought of as secondary. However, in recent years there have been a number of studies suggesting the expression of FcεRI on neurons, opening the possibility that nerves are directly involved in antigen-specific responses and making a previously unrecognized contribution to allergic disease. <strong></strong></p> <p>Based on these previous observations regarding neuronal FcεRI, the current study employed both <em>in vivo</em> and <em>in vitro</em> approaches with the following objectives:<strong></strong> <ol> <li>To confirm the presence of FcεRI on peripheral nerves and demonstrate that they are functionally active under different conditions of IgE sensitization.</li> <li>To examine the pathways involved in neuronal activation by IgE bound to FcεRI and compare and contrast these to those already established for mast cells and basophils.</li> </ol></p> <p><strong>Methods and Results</strong></p> <p>A potential role of neuronal FcεRI in the IgE-dependent allergen avoidance behaviour of sensitized mice presented with antigen in sucrose solution was assessed based on published evidence for the involvement of peripheral nerves in this response.</p> <p>Chimeric mice with a wild-type nervous system but lacking FcεRI on hematopoietic cells including mast cells and basophils, failed to exhibit aversive behaviour, whereas mice with FcεRI-bearing hematopoietic cells demonstrated the normal aversive response confirming that FcεRI expression on mast cells is necessary for development of allergen avoidance. While immunohistochemical staining could detect IgE bound to mast cells in tissue samples, no IgE was detected on nerves where the nerves were identified by using a pan-neuronal marker, PGP 9.5, in the intestine of either normal or passively sensitized C57BL/6 and BALB/c mice. Similarly, traditional FACS analysis clearly identified FcεRI on cultured mast cells, but these methods provided no evidence for expression of FcεRI or IgE binding on superior cervical ganglion (SCG) and dorsal root ganglion (DRG) neurons in culture.</p> <p>To determine evidence for functional FcεRI on neurons <em>in vitro</em>, intracellular calcium increase was assessed as a measure of cell activation following sensitization and antigen challenge. Using both microscopy and FACS analysis, calcium fluorophore (Fluo-3, AM) increase could be detected in SCG or DRG that were activated with the calcium ionophore A23187 but not following antigen challenge.</p> <p><strong>Summary: </strong>The current study found no evidence for the presence of the FcεRI on neurons <em>in situ</em> or their sensitization by IgE actively or passively using several different approaches both in tissues and cultured SCG or DRG neurons. Possible explanations for the resultant discrepancy with previously published works are discussed.</p> / Master of Science (MSc)
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Antibody discovery and engineering using the anchored periplasmic expression (APEx) Escherichia coli display system with flow cytometric selectionVan Blarcom, Thomas John 05 February 2010 (has links)
The development of recombinant proteins for therapeutic applications has revolutionized the pharmaceutical industry. In particular, monoclonal antibodies are the safest class of all therapeutic molecules and account for the majority of recombinant proteins currently undergoing clinical trials. A variety of technologies exist to engineer antibodies with a desired binding specificity and affinity, both of which are a prerequisite for therapeutic applications. This dissertation describes the implementation of a novel combinatorial library screening technology for the discovery and engineering of antibodies with unique binding properties. Combinatorial library screening technologies are used for the in vitro isolation of antibodies from large ensembles of proteins (libraries) typically produced by microorganisms using molecular biology techniques. Our lab has developed a powerful antibody discovery technology that relies on E. coli display by anchored periplasmic expression, otherwise known as APEx. First, I compared the effects of using combinatorial libraries comprising either smaller, monovalent single-chain antibody fragments (scFv), or the much larger, bifunctional full-length IgG antibodies. These technologies were used to isolate a small panel of antigen specific antibodies from the same library of antibody variable domains amplified from a mouse immunized with the Protective Antigen (PA) component from Bacillus anthracis, the causative agent of anthrax. Overall, IgG display resulted in the isolation of a broader panel of variable domain sequences. Most of these variable domains exhibited substantially reduced affinity when expressed as scFvs, which is consistent with the finding that none of these could be isolated from the equivalent scFv library. These results indicate that the antibody format used during in vitro selection affects which antibody variable domains will be discovered. Second, I developed several modifications of the APEx methodology to allow for more efficient recovery of antibodies with desired properties. Specifically, the system was reengineered to simultaneously account for antibody binding and expression levels in order to isolate the highest affinity antibodies with favorable expression characteristics. Third, the new approach, coupled with optimized fluorescence activated cell sorting (FACS) settings, was used to increase the affinity of an antibody by 35-fold resulting in a K[subscript D] of 100 pM. It was demonstrated that genetic transfer of this high affinity antibody specific for the V antigen of Yersinia pestis, the etiologic agent of the plague, conferred increased protection against intranasal challenge with a 363 LD₅₀ of Y. pestis in mice. / text
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Funkce transportéru AtKUP5 v Arabidopsis thaliana / Function of the AtKUP5 transporter in Arabidopsis thalianaŠtočková, Hana January 2020 (has links)
Potassium is one of the essential elements necessary for plant growth. It is involved in many plant processes, such as osmoregulation, enzymes activaton, etc. These functions are very often closely related to its transport in the cell and the whole plant. Although potassium is abundant in earth's crust, the mount of plant-available form is often insufficient. Potassium deficiency manifests itself on many levels and also contributes to the reduction of yield and quality of agricultural crops. There are many of potassium-transporting proteins in the plant. One of the important families of potassium transporters is the KT/HAK/KUP family. This family includes, among others, the high-affinity transporter HAK5, which is key for the uptake of potassium from the environment with low-potassium availability. One of the not very characterized transporters from the KT/HAK/KUP family is the KUP5 transporter, which I deal with in my diploma thesis. The aim of this work is to analyze the phenotypic manifestations of kup5 T-DNA insertion mutants and to characterize the functions of the transporter KUP5 in Arabidopsis thaliana plants. I analyzed the growth of kup5 insertion mutants in various environmental conditions and performed plant transformation to determine the localization of the KUP5 transporter in the...
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