Global ETD Search

141	The molecular control and biological implications of autolysis in enterococcus faecalis biofilm development Chittezham Thomas, Vinai January 1900 (has links) Doctor of Philosophy / Department of Biology / Lynn E. Hancock / The enterococci are gaining much notoriety as common nosocomial pathogens. One aspect of their pathogenesis, especially characteristic to infectious endocarditis and urinary tract infections, involves their ability to transition from the sessile state of existence to surface adherent structured communities called biofilms. Existence as biofilms, affords enterococci protection against a number of growth limiting challenges including antibiotic therapy and host immunity. In the current study a mechanistic role for two Fsr quorum-regulated extracellular proteases- gelatinase (GelE) and its cotranscribed serine protease (SprE), were explored in biofilm development of E. faecalis V583. Confocal imaging of biofilms suggested that GelE[superscript]– mutants were significantly reduced in biofilm biomass compared to V583, whereas the absence of SprE appeared to accelerate the progression of biofilm development. Culture supernatant and biofilm analysis confirmed that decreased biofilms observed in GelE[superscript]– mutants resulted from their inability to undergo autolysis and release extracellular DNA (eDNA) in planktonic and biofilm cultures, whereas SprE[superscript]– mutants produced significantly more eDNA as components of the biofilm matrix. The governing principle behind GelE mediated autolysis and eDNA release in E. faecalis V583 was demonstrated to be fratricide. GFP reporter assays of V583 populations confirmed that GBAP (gelatinase biosynthesis-activating pheromone encoded by fsrD) quorum non-responders (GelE[superscript]–SprE[superscript]–) were a minority subpopulation of prey cells susceptible to the targeted fratricidal action of the quorum responsive predatorial majority (GelE[superscript]+SprE[superscript]+). The killing action is dependent on GelE, and the GelE producer population is protected from self-destruction by the co-production of SprE as an immunity protein. Targeted gene inactivation and protein interaction studies demonstrate that extracellular proteases execute their characteristic effects following downstream interactions with the primary autolysin, AtlA. Finally, comparison of virulence effects of isogenic extracellular protease mutants (∆gelE, ∆sprE and ∆gelEsprE) relative to parental strain (V583) in a rabbit model of enterococcal endocarditis confirmed a critical role for GelE in the infection process. In conclusion, the data presented in this thesis are consistent with significant roles for GelE and SprE in biofilm mediated pathogenesis of enterococcal infections. Enterococcus faecalis autolysis fratricide biofilm gelatinase serine protease Biology, Microbiology (0410) Biology, Molecular (0307)
142	Single nucleotide polymorphisms and haplotypes associated with feed efficiency in beef cattle Serao, Nick, Gonzalez-Pena, Dianelys, Beever, Jonathan, Faulkner, Dan, Southey, Bruce, Rodriguez-Zas, Sandra January 2013 (has links) BACKGROUND:General, breed- and diet-dependent associations between feed efficiency in beef cattle and single nucleotide polymorphisms (SNPs) or haplotypes were identified on a population of 1321 steers using a 50K SNP panel. Genomic associations with traditional two-step indicators of feed efficiency - residual feed intake (RFI), residual average daily gain (RADG), and residual intake gain (RIG) - were compared to associations with two complementary one-step indicators of feed efficiency: efficiency of intake (EI) and efficiency of gain (EG). Associations uncovered in a training data set were evaluated on independent validation data set. A multi-SNP model was developed to predict feed efficiency. Functional analysis of genes harboring SNPs significantly associated with feed efficiency and network visualization aided in the interpretation of the results.RESULTS:For the five feed efficiency indicators, the numbers of general, breed-dependent, and diet-dependent associations with SNPs (P-value<0.0001) were 31, 40, and 25, and with haplotypes were six, ten, and nine, respectively. Of these, 20 SNP and six haplotype associations overlapped between RFI and EI, and five SNP and one haplotype associations overlapped between RADG and EG. This result confirms the complementary value of the one and two-step indicators. The multi-SNP models included 89 SNPs and offered a precise prediction of the five feed efficiency indicators. The associations of 17 SNPs and 7 haplotypes with feed efficiency were confirmed on the validation data set. Nine clusters of Gene Ontology and KEGG pathway categories (mean P-value<0.001) including, 9nucleotide binding / ion transport, phosphorous metabolic process, and the MAPK signaling pathway were overrepresented among the genes harboring the SNPs associated with feed efficiency.CONCLUSIONS:The general SNP associations suggest that a single panel of genomic variants can be used regardless of breed and diet. The breed- and diet-dependent associations between SNPs and feed efficiency suggest that further refinement of variant panels require the consideration of the breed and management practices. The unique genomic variants associated with the one- and two-step indicators suggest that both types of indicators offer complementary description of feed efficiency that can be exploited for genome-enabled selection purposes. Feed efficiency Beef cattle Single nucleotide polymorphism Haplotype Functional analysis MAPK pathway Serine/Threonine kinase activity
143	Role of the Ca2+ / calmodulin-dependent protein kinase II pathway in the cardioprotective effect of estrogen Ma, Yan, 馬妍 January 2008 (has links) published_or_final_version / Physiology / Master / Master of Philosophy Estrogen - Receptors. Calcium. Serine proteinases. Protein kinases. Phosphorylation. Heart - Wounds and injuries.
144	SIRT1 promotes cell proliferation and prevents cellular senescence through targeting LKB1 in primary porcine aortic endothelial cells Zu, Yi, 祖毅 January 2009 (has links) published_or_final_version / Pharmacology and Pharmacy / Master / Master of Philosophy Enzyme inhibitors. Cell proliferation. Cells - Aging. Serine proteinases. Protein kinases. Cellular signal transduction. Vascular endothelium.
145	Regulations and functions of rho-kinases in hepatocellular carcinoma Wong, Chak-lui, Carmen., 黃澤蕾. January 2009 (has links) The Best PhD Thesis in the Faculties of Dentistry, Engineering, Medicine and Science (University of Hong Kong), Li Ka Shing Prize,2008-2009 / published_or_final_version / Pathology / Doctoral / Doctor of Philosophy Serine proteinases. Protein kinases. Tumor suppressor proteins. Cancer cells. Metastasis. Liver - Cancer - Molecular aspects.
146	Molecular modelling - understanding and prediction of enzyme selectivity. Fransson, Linda January 2009 (has links) <p>Molecular modelling strategies for evaluation of enzyme selectivity wereinvestigated with a focus on principles of how molecular interactionscould be evaluated to provide information about selectivity. Althoughmolecular modelling provides tools for evaluation of geometrical andenergy features of molecular systems, no general strategies for evaluationof enzyme selectivity exist. Geometrical analyses can be based uponinspection and reasoning about molecular interactions, which provide aneasily accessible way to gain information, but suffer from the risk of biasput in by the modeller. They can also be based on geometrical features ofmolecular interactions such as bond lengths and hydrogen-bond formation.Energy analyses are appealing for their modeller independenceand for the possibility to predict not only stereopreference, but also itsmagnitude.In this thesis, four examples of enantio- or regioselective serinehydrolase-catalysed reaction systems are presented together with developedmodelling protocols for explanation, prediction or enhancement ofselectivity. Geometrical as well as energy-based methodology were used,and provided an understanding of the structural basis of enzymeselectivity. In total, the protocols were successful in making qualitative explanationsand predictions of stereoselectivity, although quantitative determinationswere not achieved.</p> Biochemistry Biokemi
147	Cleavage Specificity of Mast Cell Chymases Andersson, Mattias K. January 2008 (has links) <p>Mast cells (MC) are potent inflammatory cells that are known primarily for their prominent role in IgE mediated allergies. However, they also provide beneficial functions to the host, e.g. in bacterial and parasitic defence. MCs react rapidly upon stimulation by releasing potent granule-stored mediators, and serine proteases of the chymase or tryptase families are such major granule constituents. </p><p>As a first step towards a better understanding of the biological function of these proteases, we have determined the extended cleavage specificities of four mammalian mast cell chymases, by utilizing a substrate phage display approach. The specificities of these enzymes have then been used to compare their functional characteristics.</p><p>The major mucosal MC chymase in mice, mMCP-1, was found to possess a strict preference in four amino acid positions of the peptide substrate. Using this sequence to search the mouse proteome for potential <i>in vivo</i> substrates led to the identification of several very interesting potential novel substrates. Some of them may explain the increased epithelial permeability provided by this enzyme.</p><p>Human MCs, express only one single α-chymase, and the rodent α-chymases have secondarily gained elastase-like primary cleavage specificity. However, rodents express additional chymases, the β-chymases, and rodent β-chymases may have adopted the function of the α-chymases. The cleavage specificities of the human chymase and two rodent β-chymases were therefore determined (rat rMCP-1 and mouse mMCP-4). N-terminal of the cleaved bond the three chymases showed similar preferences, but C-terminal the human chymase and mMCP-4 shared a high preference for acidic amino acids in the P2´ position and therefore seem to be functional homologues. The molecular interactions mediating the preference for acidic amino acids in position P2´ were further investigated. By site-directed mutagenesis of the human chymase, amino acids Arg143 and Lys192 were concluded to synergistically mediate this preference.</p><p>Our data show that chymases, of different MC subpopulations, display quite different extended cleavage specificities. However mouse do possess a MC chymase with almost identical cleavage specificity as the human MC chymase indicating a strong evolutionary pressure to maintain this enzyme specificity.</p> Biology Immunology Mast cell Serine protease Chymase Cleavage specificity Phage display Biologi
148	Caractéristion de nouveaux substrats des sérine - thréonine protéine-kinases de mycobacterium tuberculosis / Caracterisation of new substrats of serine - threonine proteine-kinases of mycobacterium tuberculosis Canova, Marc 16 September 2009 (has links) Le séquençage intégral du génome de Mycobacterium tuberculosis a permis de mettre en évidence l’existence de onze Sérine/Thréonine Protéine-Kinases (STPKs) chez cette bactérie. Bien que la quasi-totalité des STPKs aient été biochimiquement caractérisées, très peu de substrats endogènes ont pu être identifiés. Par conséquent, le rôle physiologique de ces couples kinase/substrat reste à élucider. Tout d’abord, les études réalisées au cours de ce travail ont concerné la caractérisation biochimique de la protéine-kinase PknL, ainsi que l’identification de ses substrats potentiels, et notamment la protéine Rv2175c. En effet, l’analyse de l’environnement génétique du gène pknL de la kinase a révélé la présence du gène adjacent rv2175c, pouvant ainsi représenter un substrat éventuel de PknL. Les différentes approches mises en oeuvre ont permis d’identifier cinq sites de phosphorylation sur PknL, et de mettre en évidence le caractère essentiel des résidus K48, T173 et T175 dans les mécanismes d’autophosphorylation de PknL et de phosphorylation de Rv2175c, confirmant ainsi Rv2175c comme substrat spécifique de PknL. Par ailleurs, la caractérisation par RMN de la structure de Rv2175c a permis de déterminer la fonction de cette protéine. Rv2175c possède toutes les caractéristiques structurales d’une protéine capable de fixer l’ADN. Des études fonctionnelles ont permis de confirmer la capacité de Rv2175c de fixer l'ADN et ont mis en évidence le mécanisme de régulation via phosphorylation régissant son activité de fixation. Ensuite, nous avons mis en évidence la phosphorylation des protéines chaperonnes mycobactériennes et, plus particulièrement, caractérisé GroEL1. Nous avons démontré que GroEL1 était phosphorylée par PknF, et identifié les résidus T25 et T54 comme étant les sites de phosphorylation de GroEL1. L’ensemble de cette étude nous a donc permis de caractériser de nouveaux substrats de phosphorylation chez M. tuberculosis, de mieux appréhender les interactions kinase/substrat et d’impliquer la phosphorylation dans la régulation de l’activité de ces substrats / Analysis of the genome sequence of Mycobacterium tuberculosis predicted the presence of eleven Serine / Threonine Protein-Kinases (STPKs). Although most kinases have been investigated for their physiological roles, little information is available regarding how STPK-dependent phosphorylation regulates the activity of kinase substrates. As a result, the physiological role of these kinase / substrate couples remains to be clarified. During the course of this work, we first characterized a substrate/kinase pair, PknL/Rv2175c. Moreover, pknL (rv2176) is adjacent to rv2175c, a gene encoding a putative DNA-binding transcriptional regulator. We demonstrated that PknL can recruit and phosphorylate Rv2175c and that phosphorylation of Rv2175c was dependent on a specific phosphorylated residue located within the activation loop of PknL. However, although Rv2175c harbours a DNAbinding domain carrying a helix-turn-helix (HTH) motif, it shares only weak similarity to transcriptional regulatory proteins. Therefore, to provide further evidence for the function of Rv2175c, we have solved the soluble NMR structure of Rv2175c. In addition, we confirmed by gel shift mobility assays that Rv2175c was indeed able to bind DNA. More importantly, we identified Thr9 as the unique phosphorylation site in Rv2175c, and demonstrated that phosphorylation of Rv2175c strongly altered its DNA-binding activity. In addition, although mycobacterial GroEL1 proteins have been extensively studied, no data were available with respect to their potential post-translational modifications. We reported here, for the first time, phosphorylation of the M. tuberculosis GroEL1 chaperone. We demonstrated that M. tb GroEL1 is phosphorylated by PknF at two positions, Thr25 and Thr54. Unexpectedly, Mycobacterium smegmatis GroEL1 is not a substrate of its cognate PknF. This study showed that the phosphorylation profile of conserved proteins is species dependent and provides insights that may explain the numerous biological functions of these important proteins Mycobacterium tuberculosis Phosphorylation Sérine/thréonine protéine-kinase Mycobacterium tuberculosis Phosphorylation Serine/threonine proteine-kinases
149	Peptide-Based Inhibitors of Hepatitis C Virus NS3 Serine Protease: Kinetic Aspects and Inhibitor Design Poliakov, Anton January 2004 (has links) Hepatitis C is a serious disease that affects about 200 million people worldwide. No anti-HCV vaccine or specific anti-viral drugs are available today. Non-structural protein 3 (NS3) of HCV is a bifunctional serine protease/helicase, and the protease has become a prime target in the search for anti-HCV drugs. In this work, the complete HCV NS3 gene has been cloned and expressed, and the protein has been purified using affinity chromatography. An assay for measuring the protease activity of full-length NS3 protease has been developed and used for inhibition studies. A series of peptide-based inhibitors of NS3 protease varying in length, the composition of the side-chain and the N- and C-terminal groups have been studied. Potent tetra-, penta- and hexapeptide inhibitors of the NS3 protease were discovered. Hexapeptides with an acyl sulfonamide C-terminal residue were the most potent inhibitors of the NS3 protease, having nanomolar Ki-values. The selectivity of the inhibitors was assessed using other serine and cysteine proteases. NS3 protease inhibitors with electrophilic C-terminal groups were non-selective while those comprising a C-terminal carboxylate or acyl sulfonamide group were selective. All inhibitors with a small hydrophobic P1 side-chain residue were non-selective for the NS3 protease, being good inhibitors of human leukocyte elastase. This result highlights the importance of the P1 residue for inhibitor selectivity, which stems from the major role of this residue in determining substrate specificity of serine proteases. Electrophilic inhibitors often cause slow-binding inhibition of serine and cysteine proteases. This was observed with other proteases used in our work but not with NS3 protease, which indicates that mechanism of inhibition of NS3 protease by electrophilic inhibitors may not involve formation of a covalent bond. The structure-activity relationships obtained in this work can be used for improvement of peptide-based inhibitors of HCV NS3 protease towards higher inhibitory potency and selectivity. Biochemistry serine protease inhibitor slow-binding protein purification Biokemi Biochemistry and Molecular Biology Biokemi och molekylärbiologi
150	Spr0334, nový protein buněčného dělení u Streptococcus pneumoniae. / Spr0334, new protein of cell division in Streptococcus pneumoniae. Štekerová, Nela January 2012 (has links) Spr0334, new protein of cell division in Streptococcus pneumoniae Streptococcus pneumoniae is an important human pathogen. The geonome of this bacteria encodes a single gene for eukaryotic-like serine / threonine protein kinase called StkP. StkP regulates many physiological processes such as pathogenesis, competence for genetic transformation, resistance to various stresses and resistance to antibiotics. It also affects the transcription of many genes involved in cell wall biosynthesis, pyrimidine metabolism, DNA repair and iron uptake. Recent studies have shown that StkP is located in the cell division septum and significantly regulates cell division and morphology. Its substrates include, among others, cell division protein DivIVA, FtsZ and FtsA. Analysis of phosphoproteome maps of wild type and ΔstkP mutant strain of S. pneumoniae showed that in vivo StkP phosphorylates several putative substrates including the protein Spr0334. Mass spectrometry analysis identified phosphorylation sites of the protein Spr0334: threonine 67 and threonine 78. Furthermore, it was found that the protein Spr0334 is located in the cell division septum, which led to the hypothesis that it could be newly identified cell division protein in S. pneumoniae. The main aim of this thesis was to describe the function of the...

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