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61	Régression de la calcification artérielle médiale comme avenue thérapeutique potentielle pour l'hypertension systolique isolée Essalihi, Rachida January 2006 (has links) Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal. Hypertension systolique isolée Élastocalcinose Minéralisation Rigidité artérielle Matrice extracellulaire Endothéline Anhydrase carbonique Bloqueur des canaux calciques
62	Biomimetics and Host-Guest Chemistry Gong, Jiachang 17 December 2004 (has links) In an effort to produce the tetrahedrally coordinated, catalytically active zinc center, three families of tris(2-pyridyl)methanol derivatives were synthesized and characterized. Zinc binding studies revealed that the binding behaviors of the ligands depended on the steric and electronic properties of the substituents on the pyridyl rings, as well as the functional group on the tertiary alcohol. A novel tris-pyridyl macrocyclic receptor was synthesized. The receptor possesses both hydrogen bond donors and acceptors. NMR titration experiments revealed that the receptor simultaneously bound both ammonium cation and the counter anion. The counter anion significantly influences the association between the receptor and the ammonium cation. Chiral ditopic macrocycles, which enantioselectively bind chiral ammonium cations, have also been synthesized. Their enantioselective binding properties, as well as the ditopic recognition properties were investigated Macrocycle Tris(2-pyridyl)methanol Biomimetics Host-Guest supramolecular Carbonic Anhydrase
63	Avaliação da concentração da enzima anidrase carbônica VI e sua relação com cárie dentária em crianças obesas / Evaluation of the concentration of the carbonic anydrase VI and its relation with dental caries in obese children Costa, Ana Célia Panveloski 14 August 2015 (has links) A obesidade e a cárie dentária são problemas de saúde pública, que atingem a população infantil. O objetivo deste estudo foi identificar a prevalência de cárie dentária e relacioná-la com a concentração da enzima anidrase carbônica VI, do íon cálcio, fluxo salivar e quantidade de biofilme dentário em crianças com sobrepeso/obesidade. Foram avaliadas 112 crianças de 4 a 6 anos de idade, de ambos os gêneros. A análise antropométrica foi realizada (percentil do IMC) e através dessa análise as crianças foram divididas em dois grupos: G1 sobrepesos/obesos (n=41) e G2 normais (n=71). Os exames bucais realizados para a cárie dentária foram os índices ceo-s e ICDAS II, quantidade de biofilme dentário pelo Índice de Placa de Turesky e volume de fluxo salivar estimulado. A concentração do íon Cálcio na saliva foi analisada pelo kit colorimétrico e da enzima Anidrase Carbônica VI pelo kit ELISA. Na sequência, as crianças de cada grupo foram divididas em 3 subgrupos: LC (livres de cárie), LI (com lesões iniciais) e C (com cárie). Os testes Wilcoxon, Mann-Whitney, teste t e correlação de Spearman foram aplicados (p<0,05). Não houve diferença significativa no ceo-s entre os grupos. Houve maior concentração média de cálcio salivar no G1 (G1=2847,96mM; G2=1230,90mM;p=0,001) e maior concentração da Anidrase Carbônica VI no G2 (G1=3455,18 pg/mL; G2=442428,9pg/mL;p=0,000). No G1 houve correlação negativa entre o ceo-s e íon Cálcio (r=-0,444;p=0,010). Já no G2, houve correlação negativa entre placa e a Anidrase Carbônica VI (r=-0,551;p=0,014). Pode-se concluir que o íon cálcio é fator protetor para cárie dentária em crianças. Já a anidrase carbônica VI parece não ser biomarcador para a cárie dentária. / Obesity and dental caries are public health problems that affect the child population. The aim of this study was to identify the prevalence of dental caries and relate it to the concentration of the enzyme carbonic anhydrase VI, calcium ion, salivary flow, and dental plaque in overweight/obesity children. The study was conducted on 112 children aged 4-6, of both genders. Anthropometric analysis was performed (BMI percentile) and by this analysis the children were divided into two groups: G1 - overweight/obese (n=41) and G2 - normal (n=71). The oral examinations performed for dental caries were the dmfs and ICDAS II indexes, measurement of the amount of dental plaque by the Turesky Board Index and volume of stimulated salivary flow. The concentration of calcium ion in saliva was measured by a colorimetric kit and the enzyme carbonic anhydrase VI by an ELISA kit. Then, children from each group were divided into three subgroups: CF (caries-free), IL (initial lesions) and D (decayed teeth). The Wilcoxon test, Mann-Whitney, t test and Spearman correlation (p<0.05) were applied. There was no significant difference in the dmfs between groups. There was higher concentration of salivary calcium in G1 (G1=2847.96mM; G2=1230.90mM; p=0.001), and higher concentration of carbonic anhydrase VI in G2 (G1 = 3455.18 pg/ml; G2 = 442428.9pg/ml; p = 0.000). In G1, there was negative correlation between dmfs and salivary calcium (r = -0.444; p = 0.010). In G2, there was negative correlation between dental plaque and carbonic anhydrase VI (r=-0.551; p=0.014). It can be concluded that the calcium ion is a protective factor for dental caries in children. The carbonic anhydrase VI does not seem to be a biomaker of dental caries. Anidrase carbônica VI Carbonic anhydrase VI Cárie dentária Obesidade infantil Pediatric obesity Tooth decay
64	Carbonic anhydrase and euryhalinity of silver seabream (Sparus sarba). / CUHK electronic theses & dissertations collection January 2008 (has links) Branchial carbonic anhydrase was purified from silver seabream (Sparus sarba) and antibody against the enzyme was obtained by immunization in rabbits. An assay for quantifying the activity of carbonic anhydrase was developed. Using enzymatic and immunological techniques, the activity, expression and distribution of branchial carbonic anhydrase of silver seabream acclimated to different salinities were studied. Fish gill is one of the most important organs involved in various homeostatic processes. The ability of euryhaline fish to maintain constant internal ionic balance is crucial for the survival of the fish upon change in salinity. The presence of carbonic anhydrase in the chloride cells was suggested to be an important enzyme involved in ion regulation of fish. / In the present study, branchial carbonic anhydrase and erythrocyte carbonic anhydrase were purified from the gill cells of silver seabream with p-aminomethylbenzenesulfonamide-agarose affinity column. They were predominantly cytosolic with a molecular size of 26.6 k Da for branchial carbonic anhydrase and 28.6 k Da for erythrocyte carbonic anhydrase. Investigation of kinetic properties towards the inhibitor acetazolamide has helped determine the inhibition constants (Ki of branchial carbonic anhydrase: 0.54 x 10-9; Ki of erythrocyte carbonic anhydrase: 0.22 x 10-9). The difference in molecular size and inhibition constant towards acetazolamide supported the view that branchial carbonic anhydrase and erythrocyte carbonic anhydrase were two different isozymes. Polyclonal antibody specific to seabream branchial carbonic anhydrase was obtained by immunization in rabbit. The distribution of branchial carbonic anhydrase in the gill of seabream acclimated to different salinities was studied with immunohistochemical method. The enzyme was mainly located at the interlamellar region. The effect of salinity (0, 6, 12, 33, 50 and 70 &permil;) acclimation on the expression and activities of branchial carbonic anhydrase has shown a U-shape pattern from freshwater to double-strength seawater on the quantity of seabream branchial carbonic anhydrase. Higher amount of branchial carbonic anhydrase in freshwater was consistent with the current view that the enzyme was actively involved in the ion uptake process through the hydration of carbon dioxide to produce bicarbonate ion and proton for the exchange of chloride and sodium ions, respectively. An interesting finding was obtained with elevated amount of branchial carbonic anhydrase in seabream acclimated to double-strength seawater and the possible role of the enzyme in such extreme environment was discussed. / This study has provided useful information on the properties, localizations and activities of branchial carbonic anhydrase in silver seabream for the understanding of the involvement of the enzyme in salinity adaptation of silver seabream. / Ma, Wing Chi Joyce. / Source: Dissertation Abstracts International, Volume: 70-06, Section: B, page: 3250. / Thesis (Ph.D.)--Chinese University of Hong Kong, 2008. / Includes bibliographical references (leaves 127-151). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstracts in English and Chinese. / School code: 1307. Carbonic anhydrase--Physiological effect Fishes--Adaptation Rhabdosargus sarba--Physiology Salinity--Physiological effect
65	Role of macromolecules in coccolithophore biomineralization Walker, Jessica Mary January 2018 (has links) Biomineralization refers to the production of mineralized tissues by organisms. The fine control which organisms can exert over this process produces crystals with morphologies and properties contrasting to that of non-biogenic crystals and specifically altered to suit the required functional need. A key model system of biomineralization are a unicellular marine algae, coccolithophores, which produce calcium carbonate scales known as coccoliths. These coccoliths are comprised of arrangements of single crystals of calcite interlocked to form a plate-shaped structure. Coccoliths are developed intracellularly in a specialised compartment called the coccolith vesicle, before being extruded to the cell surface. In this work, two vital components of the coccolith biomineralization process are investigated - a soluble polysaccharide thought to act as a habit modifier and an insoluble organic scaffold known as a baseplate that provides the surface for nucleation and growth of the crystals. Whilst both these elements are thought to play a key part in the biomineralization process, the role of each is not fully understood. To investigate the effect of coccolith-associated polysaccharides (CAPs) on nucleation and polymorph selection, two systems that promote different polymorphs of calcium carbonate were utilised. In both systems, the intracrystalline polysaccharide fraction extracted from one species, Gephyrocapsa oceanica, was able to promote calcite nucleation in vitro, even under conditions favouring the kinetically-privileged polymorphs of calcium carbonate: vaterite and aragonite. As this property is not observed with CAPs extracted from its 'sister species', Emiliania huxleyi, the in vivo function of CAPs may differ between the two species. Both cryo-transmission electron microscopy (cryoTEM) and scanning electron microscopy (SEM) were used to determine the mechanism of calcite growth in the presence of G. oceanica CAPs, showing its impact on the forming amorphous calcium carbonate (ACC), decreasing the size of the particles and producing irregular, angular particles. Using cryo-electron tomography (cryoET), it was possible to create a 3D representation of the structure of the baseplate from the coccolithophore Pleurochrysis carterae, revealing its two-sided organisation. Examination of several stages of the coccolith growth process demonstrated the interlocking nature of the calcite crystals that make up the coccolith and the progression of the crystal morphologies over time, and the interaction of these crystals with the baseplate rim. Additionally, the effect of inhibiting carbonic anhydrase (CA), an enzyme involved in the regulation of carbonate species, revealed that inhibition of CA can affect coccolithogenesis as well as cell proliferation.
66	NEW APPROACHES TO CYCLOPENTADIENYL-FUSED THIOPHENE COMPLEXES OF IRON and SYNTHESIS AND CHARACTERIZATION OF CARBONIC ANHYDRASE ACTIVE-SITE MIMICS FOR CO<sub>2</sub> HYDRATION Gupta, Deepshikha 01 January 2018 (has links) Polyheterocycles such as polythiophene and its derivatives comprise an important class of conducting polymers used for electronic applications. They have been of great interest for use in electronic materials due to their increased environmental stability as well as novel electronic properties in their polymer states. We have been interested in exploring the electronic properties of organometallic analogues of the low-band-gap polymer poly(benzo[3,4-c]thiophene) (polyisothianaphthene) that incorporates η5-cyclopenta[c]thienyl monomers such as ferroceno[c]thiophene. First chapter of this dissertation involved synthetic attempts to ferroceno[c]thiophene. Exploring a shorter synthetic route to starting material, 1,2-di(hydroxymethyl)ferrocene was the first task. This was followed by attempts to synthesize an important precursor, 1,3-dihydroferroceno[c]thiophene to our target molecule, ferroceno[c]thiophene. In order to achieve our target precursor molecule, 1,3-dihydroferroceno[c]thiophene, we reacted 1,2-di(hydroxymethyl)ferrocene with H2S/H2SO4 and Na2S/HBF4 respectively. Reaction of 1,2-di(hydroxymethyl)ferrocene with either H2S/H2SO4 or Na2S/HBF4 results in 2,16-dithia[3.3](1,2)ferrocenophane instead of monomeric 1,3-dihydroferroceno[c]thiophene. Dehydration of 1,2-di(hydroxymethyl)ferrocene with dilute H2SO4 resulted in 2,16-dioxa[3.3](1,2)ferrocenophane. Formation of the five-membered tetrahydrothiophene or tetrahydrofuran rings is probably disfavored compared to formation of the ten-membered ferrocenophane rings because of greater strain in the five-membered rings. Thus, in order to achieve our target molecule ferroceno[c]thiophene, we took an alternate route. We decided to pursue the route with 1,4-dihydro-2,3-ferrocenodithiin being the precursor to our final target molecule. This was successfully accomplished. 1,2-Di(hydroxymethyl)ferrocene reacts with thiourea in the presence of catalytic trifluoroacetic acid to give a water-soluble thiouronium salt, which reacts with aqueous potassium hydroxide in air to give 1,4-dihydro-2,3-ferrocenodithiin, via oxidation of the intermediate 1,2 di(mercaptomethyl)ferrocene. 1,4-dihydro-2,3-ferrocenodithiin, an important precursor to our desired heterocyclic chemistry was synthesized. The increased emission of CO2, a greenhouse gas, to the atmosphere is a matter of serious worldwide concern. Every year a few gigatons of CO2 are added to the atmosphere by various anthropogenic activities like burning of fuel for electricity, running industry and transportation. Thus, developing ways to reduce the emission of CO2 to the atmosphere is of major importance. Although the amine-based absorption method is considered the most reliable, it is an expensive alternative. The catalyzed enhancement of CO2 absorption is a critical component to reduce the capital cost of CO2 capture. Specifically, an effective catalyst will increase the CO2 hydration rate, thereby decreasing the size of the absorber tower needed. In biological systems, CO2 hydration is catalyzed by the enzyme carbonic anhydrase, which contains ZnII in its active site. Carbonic anhydrase typically is not stable enough to be used in an industrial process, therefore, there is a need to synthesize robust, inexpensive CO2 hydration catalysts. Majority work of this dissertation focuses on designing catalysts that show high CO2 hydration rate similar to carbonic anhydrase while showing superiority towards temperature, pH and inhibitors. We focused our efforts on complexes of Zn, Cu and Co with ligands such as 1,4,7,10-tetraazacyclododecane (cyclen), 5,5,7,12,12,14-hexamethyl-1,4,8,11-tetraazacyclotetradecane (teta and tetb), tris(benzimidazolylmethyl)amine (BIMA) and anionic tris(pyrazolylborate)s that mimic the enzyme, carbonic anhydrase. Several of these complexes have been reported for their interesting CO2 capture properties but they contain hazardous perchlorate ion. We desired to replace them with benign, non-coordinating counterions like PF6-, BF4-, Cl-, CH3COO-, NO3-, CF3SO3-, SiF62- that avoid the potentially explosive perchlorate salts. In order to test the activity of synthesized catalysts under industrial capture conditions, we designed a quick experimental screening pH drop method. [[Zn(cyclen)(H2O)][SiF6]•2H2O as well as a number of other catalysts have been synthesized and tested for their post-combustion CO2 capture enhancement capabilities in aqueous solvent mixtures under both pH-drop screening and stopped-flow conditions. [Zn(cyclen)(H2O)][SiF6]•2H2O, which has an unreactive counteranion, is found to catalyze CO2 hydration in aqueous solvent mixtures under both pH-drop screening and stopped-flow conditions. However, under pH-drop which has conditions similar to industrial post combustion capture, activity of Zn(cyclen)(H2O)][SiF6]•2H2O drops as compared to observed in stopped-flow conditions probably because of bicarbonate coordination to Zn active site in these systems. The Zn center is highly electron deficient and therefore easily coordinates anions, inhibiting the ability to reform hydroxyl species on the metal. Thus, we decided to test the catalysis of benchmark enzyme carbonic anhydrase under similar conditions to determine the threshold value. Carbonic anhydrases catalyze the hydration of carbondioxide at ambient temperatures and physiological pH with the highest known rate constant= 106 M–1 s–1, but in our system (CAER pH drop screening) came out to be 438797 M–1 s–1. The lower catalytic rate constant for carbonic anhydrase in 0.1000 M K2CO3, similar to Zn-cyclen, strengthens the conjecture that at high bicarbonate concentrations, HCO3– binding to the Zn(II) active site slows catalysis by inhibiting bicarbonate displacement with water to regenerate the active species. The complexes containing anionic ligands that donate electron density into the metal center may serve to remove anionic bicarbonates/carbamates from the secondary coordination sphere and away from the metal center, thereby facilitating bicarbonate/anion dissociation and increasing CO2 hydration rates. We studied catalysis of trispyrazolylborate molecule in 30% MEA and found the molecule to be catalytically active. We also developed an NMR-based method to see if the coordination of solvents to CO2 capture solvents can be studied. polythiophene ferrocene ferroceno[c]thiophene carbon dioxide capture carbonic anhydrase cyclen Inorganic Chemistry
67	Biophysical characterization of tryptophan mutants in carbonic anhydrase from Neisseria Gonorrhoeae Dunbring, Daniel January 2007 (has links) <p>In this project the aim has been to study the model protein carbonic anhydrase in Neisseria gonorrhoeae, a bacterium whose carbonic anhydrase has great similarities both structurally and functionally with the human form. By measuring and comparing the wild type of NGCA with mutants lacking one of the four tryptophan residues it can be seen what effect these tryptophans has on stability and activity and then compare with the known data of HCA II to learn more about their differences and similarities. The results from the stability and activity measurements are that the wild type is by far the most stable protein with W141L mutant coming thereafter.</p><p>From Trp-fluorescence and CO2-hydration measurement a clear two-transition steps (N→ I→ U) can be seen. This differs from earlier data where it instead only was a one-transition step for the wild type (N→U). The data is also very reliable and gives in most cases a perfect fit to the line. We also see this two-transition step for the other mutants stable enough, strengthening the theory further.</p><p>One fact that could be drawn from all the measurements is that when an intermediate is formed the ability for the enzyme NGCA to perform it’s catalytically ability is disabled.</p><p>Another thing is that the purification scheme of HCA II is not optimal to be directly applied to NGCA, despite the similarity in secondary and tertiary structure.</p> Carbonic Anhydrase Neisseria Gonorrhoeae Tryptophan Mutation purification Fluorescence CO2 hydration Biochemistry Biokemi
68	pH changes localized to the surface of membrane transport proteins Johnson, Danielle Elaine 06 1900 (has links) Intracellular pH was monitored at the cytosolic surface of plasma membrane solute transporters (Na+/H+/nucleoside co-transporters, or Cl-/HCO3- exchangers), using pH-sensitive fluorescent proteins (FPs), dual emission green FP (deGFP4) and a monomeric red FP Nectarine (mNect), whose development and characterization are also reported here. Human concentrative nucleoside transporter, hCNT3, mediates Na+/H+/nucleoside co-transport. We describe a new approach to monitor H+/uridine co-transport in HEK293 cells. pH changes at the intracellular surface of hCNT3 were monitored by fusing mNect to the cytoplasmic N-terminus of hCNT3 (mNect.hCNT3) or an inactive hCNT3 mutant (mNect.hCNT3-F563C). Cells were incubated at the permissive pH for H+-coupled nucleoside transport, pH 5.5, under both Na+-free and Na+-containing conditions. In mNect.hCNT3-expressing cells (but not under negative control conditions) the rate of acidification increased in media containing 0.5 mM uridine, providing the first direct evidence for H+-coupled uridine transport. At pH 5.5, there was no significant difference in uridine transport rates (coupled H+ flux) in the presence or absence of Na+. This suggests that in acidic Na+-containing conditions, 1 Na+ and 1 H+ are transported/uridine molecule, while in acidic Na+-free conditions, 1 H+ alone is transported/uridine. In acid environments, including renal proximal tubule and intestine, H+/nucleoside co-transport may drive nucleoside accumulation by hCNT3. Microdomains, discrete regions of altered cytosolic solute concentration, are enhanced by rapid solute transport and slow diffusion rates. pH-regulatory membrane transporters, like the Cl-/HCO3- exchanger AE1, could nucleate H+ microdomains, since AE1 has a rapid transport rate and cytosolic H+ diffusion is slow. As AE1 drives Cl-/HCO3- exchange, differences in pH, near and remote from AE1, were monitored simultaneously by deGFP4 fused to AE1 (deGFP4.AE1) and mNect.hCNT3-F563C. deGFP4.AE1-mNect.hCNT3-F563C distance was varied by co-expression of different amounts of the two proteins in HEK293 cells. As the deGFP4.AE1-mNect.hCNT3-F563C distance increased, mNect.hCNT3-F563C detected the cytosolic pH change with a time delay and reduced rate of pH change, compared to deGFP4.AE1. Carbonic anhydrase activity was essential for H+ microdomain formation. H+ diffusion along the plasma membrane was 60-fold slower than to the cytosolic ER-surface. During physiological HCO3- transport, a H+ microdomain 0.3 µm in diameter develops around AE1, which will affect nearby pH-sensitive processes. pH regulation membrane transport anion exchange carbonic anhydrase bicarbonate transport metabolon nucleoside transport fluorescent proteins
69	Biophysical characterization of tryptophan mutants in carbonic anhydrase from Neisseria Gonorrhoeae Dunbring, Daniel January 2007 (has links) In this project the aim has been to study the model protein carbonic anhydrase in Neisseria gonorrhoeae, a bacterium whose carbonic anhydrase has great similarities both structurally and functionally with the human form. By measuring and comparing the wild type of NGCA with mutants lacking one of the four tryptophan residues it can be seen what effect these tryptophans has on stability and activity and then compare with the known data of HCA II to learn more about their differences and similarities. The results from the stability and activity measurements are that the wild type is by far the most stable protein with W141L mutant coming thereafter. From Trp-fluorescence and CO2-hydration measurement a clear two-transition steps (N→ I→ U) can be seen. This differs from earlier data where it instead only was a one-transition step for the wild type (N→U). The data is also very reliable and gives in most cases a perfect fit to the line. We also see this two-transition step for the other mutants stable enough, strengthening the theory further. One fact that could be drawn from all the measurements is that when an intermediate is formed the ability for the enzyme NGCA to perform it’s catalytically ability is disabled. Another thing is that the purification scheme of HCA II is not optimal to be directly applied to NGCA, despite the similarity in secondary and tertiary structure. Carbonic Anhydrase Neisseria Gonorrhoeae Tryptophan Mutation purification Fluorescence CO2 hydration Biochemistry Biokemi
70	Identification of a Carboxysomal γ-Carbonic Anhydrase in the Mesophilic Cyanobacterium Anabaena sp. PCC7120 Arefeen, Dewan 21 July 2010 (has links) Analysis of the genome of Anabaena sp. PCC7120 reveals that it lacks the gene, ccaA, which encodes the bonafide carboxysomal, β-class carbonic anhydrase (CA) CcaA. However, the carboxysome enriched fraction of Anabaena PCC7120 exhibits CA activity. Bioinformatic analysis reveals that the N-terminal region of the carboxysome protein CcmM has high sequence and structural similarity to the γ-class CA of Methanosarcina thermophila. Recombinantly expressed CcmM is found to be inactive in in-vitro CA assays. E. coli cell extracts containing an overexpressed form of CcmM comprised of the N-terminal 209 amino acids (CcmM209) are also inactive. However, CcmM209 displays CA activity after incubation with the thiol oxidizing agent diamide or when bound to an affinity matrix. It appears that CcmM is indeed a functional γ-CA which is active under oxidizing condition. It is hypothesized that the C-terminal RbcS like domain in CcmM may regulate activity by allowing CcmM activation only when sequestered within the carboxysome. Cyanobacteria Carbonic anhydrase Anabaena PCC7120 CcmM Carboxysome Carbon dioxide concentrating mechanism 0410 0307 0306 0379

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