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Antisense peptides and protein structure /Hau, Ka-chun. January 2002 (has links)
Thesis (M. Med. Sc.)--University of Hong Kong, 2002. / Includes bibliographical references (leaves 69-72).
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Antisense peptides and protein structure侯嘉俊, Hau, Ka-chun. January 2002 (has links)
published_or_final_version / Medical Sciences / Master / Master of Medical Sciences
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Cardiovascular characterization and enzymology of peptide amidating enzymesLi, Cuizhen 05 1900 (has links)
No description available.
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Antisense peptides and protein structureHau, Ka-chun. January 2002 (has links)
Thesis (M.Med.Sc.)--University of Hong Kong, 2002. / Includes bibliographical references (leaves 69-72). Also available in print.
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Angiotensin II and MAP kinase in the rat adrenal glandMcNeill, Helen January 2002 (has links)
No description available.
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CONFORMATIONALLY CONSTRAINED ANALOGUES OF THE NEUROHYPOPHYSEAL HORMONE OXYTOCIN.HILL, PATRICIA ANNE SCHROEDER. January 1986 (has links)
The synthesis of seventeen novel conformationally constrained analogues of the neurohypophyseal peptide hormone oxytocin is described. Synthesis of the peptides was accomplished using solid-phase synthesis techniques on either Merrifield or p-methyl-benzhydrylamine resin. Cleavage of peptides from the solid support and deprotection were carried out by either ammonolysis followed by treatment with sodium in liquid ammonia or anhydrous HF. Disulfide formation was accomplished by treatment of the deprotected peptide with aqueous potassium ferricyanide. Purification of the peptide analogues involved a combination of either partition and/or size exclusion chromatography followed by reverse-phase high-performance liquid chromatography. Several conformationally constrained unnatural amino acids were incorporated into the synthetic peptides. Two were prepared and incorporated as a mixture of isomers and the resulting peptides were separated and purified by HPLC. The types of analogues prepared fall into three categories: analogues incorporating conformational restrictions in positions 1 and 2; bicyclic oxytocin peptides; oxytocin antagonists with changes at the Asn⁵ residue. The peptides with conformational restrictions at position 1 or 2 are: [Tic²]OT, [DTic²]OT, [DTic²,Thr⁴]OT, [β-MePhe²]OT, [ΔPhe²]OT, [Cys(CH₂)₅¹,Phe²,Thr⁴,Orn⁸]OT and [Pen¹,DPhe²,Thr⁴,Orn⁸]OT. Bicyclic peptide analogues and their monocyclic precursors include: [Mpa¹,Lys⁴,Glu⁵]OT, [Mpa¹,Lys⁴,Glu⁵]OT, [Mpa¹,Glu⁴,Lys⁸]OT, and [Mpa¹,Glu⁴,Lys⁸]OT. Antagonists with changes in the Asn⁵ residue are: [Pen¹,DPhe²,Thr⁴,Thr⁵,Orn⁸]OT; [Pen¹,DPhe²,Thr⁴,Leu⁵,Orn⁸]OT; [Pen¹,DPhe²,Thr⁴,Asp⁵,Orn⁸]OT; and [Pen¹,DPhe²,Thr⁴,Tyr⁵,Orn⁸]OT. Biological assays of these analogues for oxytocic activity in the rat uterus model have shown one of the β-MePhe²-containing peptides, [L-threo-β-MePhe²]OT, to be a very potent agonist and one bicyclic, [Mpa¹,Glu⁴,Lys⁸]OT to be an extremely potent oxytocin antagonist. Initial biophysical investigations employing 250 MHz nuclear magnetic resonance spectroscopy were also undertaken in order to determine possible solution conformations of these peptide analogues.
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Molecular mechanisms of altered gastrointestinal function in gastrin deficient miceKhan, Zara Ellen January 2001 (has links)
No description available.
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The role of pituitary adenylate cyclase-activating polypeptide (PACAP) in cell cycle exit, differentiation and apoptosis during early chick brain developmentErhardt, Nola Marlene 12 April 2017 (has links)
Regulated survival, proliferation and differentiation of cells in the nervous
system is crucial for development. Much of regulation is controlled by hormones.
There is abundant evidence that a member of the glucagon superfamily, pituitary
adenylate cyclase-activating polypeptide (PACAP), is important in this process. PACAP
functions have been described in the peripheral and central nervous systems of many
species. Although the primary function of PACAP is not known, its high conservation
and presence in all species examined to date suggest it is vital to normal development.
My thesis objective was to determine the response of early CNS neuroblasts to
PACAP, in conjunction with another glucagon superfamily member, growth hormone releasing hormone (GHRH). GHRH is best known for causing release of growth hormone from the pituitary, but it also has functions in nervous system development.
Because PACAP and GHRH are encoded on the same gene in non-mammalian vertebrates, it is possible that they have similar or coordinated functions. PACAP affects development by altering levels of proliferation and differentiation and decreasing
apoptosis. For these reasons, I focused my research in these areas.
Using neuroblast-enriched cultures from embryonic day 3.5 chick, my first goal was to show that PACAP and GHRH affected these cells. Radioimmunoassays for cAMP revealed that all but one form of PACAP, and only one form of GHRH, caused an
increase in cAMP relative to controls. As to the former, comparison of differing PACAP structures suggested that conservation at the amino terminus was important in binding the hormone to the receptor. The fact that PACAP, but not GHRH, increased
cAMP, indicated that evolution of PACAP and GHRH had altered their functions. Chick neuroblasts were also shown to produce PACAP and its primary receptor, suggesting an autocrine/paracrine role for PACAP.
My next goal was to examine the nature of the downstream effects of increased cAMP. To study cell cycle, I developed a protocol using proliferating cell nuclear antigen (PCNA) and propidium iodide (PI), in fixed cell populations. PCNA is present
in low amounts in non-cycling cells, but rises sharply in actively proliferating cells. The PI helped delineate cell cycle compartments, because in permeabilized cells it binds to and quantifies DNA. Changes in G0, G1, S and G2/M were recorded using flow cytometry. Because the cells were producing PACAP and most were cycling, rather than add more PACAP I chose to block the PACAP receptor. This caused cell cycle exit. I also blocked the cell cycle at two points, and showed that exogenous PACAP could release some cells from the block, and return them to cycling. PACAP affected apoptosis also, but because the protocol was not designed to measure this, I adopted another protocol using flow cytometry. With live cells, and fluorescein diacetate, which is retained and fluoresces in healthy cells, and PI, which enters only cells with damaged membranes, I used the characteristic of apoptotic cells to die with membranes intact to confirm increased apoptosis when the PACAP receptor was blocked.
This left the question of whether PACAP affected differentiation. The cell cycle protocol had shown some cells were still quiescent, not dying, at 24 h, so I hypothesized that they might be differentiating. I used proteomics to test this. With isotope-coded affinity tagged (ICAT) analysis, I measured changes in protein content in cells that had been treated with the receptor blocker, compared to control. This confirmed previous work and my hypothesis that some cells were differentiating. Because this technique is not commonly used in molecular biology, I also evaluated the effectiveness of the technique. My work showed that endogenous PACAP keeps chick neuroblasts alive and cycling, but will allow some to differentiate rather than die, when the hormone is withdrawn. Obviously, PACAP plays a crucial role in early chick brain development. / Graduate
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Studies on the tissue specificity of the glucose-dependent insulinotropic polypeptide promoter by a transgenic mouse model楊重文, Yeung, Chung-man. January 1997 (has links)
published_or_final_version / Zoology / Master / Master of Philosophy
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Studies on the tissue specificity of the glucose-dependent insulinotropic polypeptide promoter by a transgenic mouse model /Yeung, Chung-man. January 1997 (has links)
Thesis (M. Phil.)--University of Hong Kong, 1998. / Includes bibliographical references (leaf 66-73).
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