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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Manipulation of the shikimate pathway in Streptomyces coelicolor

McKernan, Philip Andrew January 1995 (has links)
No description available.
2

Investigating the substrate specificity of 3-deoxy-D-arabino-heptulosonate 7-phosphate (DAH7P) synthase

Tran, David January 2011 (has links)
The shikimate pathway is a biosynthetic pathway that is responsible for producing a variety of organic compounds that are necessary for life in plants and microorganisms. The pathway consists of seven enzyme catalysed reactions beginning with the condensation reaction between D-erythrose 4-phosphate (E4P) and phosphoenolpyruvate (PEP) to give the seven-carbon sugar DAH7P. This thesis describes the design, synthesis and evaluation of a range of alternative non-natural four-carbon analogues of E4P (2- and 3-deoxyE4P, 3-methylE4P, phosphonate analogues of E4P) to probe the substrate specificity of different types of DAH7P synthases [such as Mycobacterium tuberculosis (a type II DAH7PS), Escherichia coli (a type Ialpha DAH7PS) and Pyrococcus furiosus (a type Ibeta DAH7PS)].
3

Development of Selective Inhibitors against Enzymes Involved in the Aspartate Biosynthetic Pathway for Antifungal Drug Development

Dahal, Gopal Prasad January 2018 (has links)
No description available.
4

Extent and Effects of Selection to Reduce Synthetic Cost of Highly Expressed Proteins

Heizer, Esley Marvin, Jr 20 December 2010 (has links)
No description available.
5

CsnA Dependent Development and Regulation of Amino Acid Biosynthesis of the Filamentous Ascomycete <i>Aspergillus nidulans</i> / CsnA abhängige Entwicklung und Aminosäurebiosynthese im filamentösen Pilz <i>Aspergillus nidulans</i>.

Draht, Oliver 02 November 2005 (has links)
No description available.
6

Seqüenciamento e anotação de parte do genoma de Xylella fastidiosa e análise das vias de bissíntese de pequenas moléculas e cofatores / Sequencing and annotation of part of the genome of Xylella fastidiosa and analysis of the bissynthesis pathways of small molecules and cofactors

Docena, Cássia 26 October 2000 (has links)
Agente da clorose variegada dos Citrus (CVC) ou amarelinho, Xylella fastidiosa, uma bactéria gram-negativa limitada ao xilema, tem grande importância na agricultura do Estado de São Paulo. Identificada em 1987, na região de Bebedouro, a CVC já está presente em quase todas as áreas citrícolas do país, afetando a produção de frutos e seus derivados. O projeto genoma, criado pela FAPESP em 1997 com o apoio do FUNDECITRUS, habilitou laboratórios da capital e interior paulistas a seqüenciar o genoma deste fitopatógeno, contribuindo internacionalmente para a elucidação de sua completa informação genética. Nosso laboratório (QR) obteve aproximadamente 1.900 leituras de bibliotecas aleatórias de \"shotgun\". Seqüenciamos 13 cosmídeos perfazendo um total linear de 533.571 pares de bases. Anotamos 125 genes prováveis de cinco cosmídeos e realizamos a análise de uma categoria dos genes anotados, referente à biossíntese de pequenas moléculas, onde incluem-se a biossíntese de aminoácidos, purinas e pirimidinas, ácidos graxos, poliaminas, cofatores, grupos prostéticos e transportadores de elétrons. X. fastidiosa possui, mesmo que incompletas, as vias metabólicas para a produção de todos os aminoácidos, sendo provavelmente a glutamina, o principal meio para a obtenção de nitrogênio. Estão presentes as vias para a biossíntese de ribonucleotídeos de purina e pirimidina. X. fastidiosa parece conseguir elongar ácidos graxos a partir de acetil-CoA e é capaz de sintetizar uma grande variedade de cofatores e grupos prostéticos, entretanto, estão ausentes os genes envolvidos na biossíntese de biotina, cobalamina e enterobactina. / Abstract not available.
7

Modelling Approaches to Molecular Systems Biology / Systembiologisk modellering på molekylär nivå

Fange, David January 2010 (has links)
Implementation and analysis of mathematical models can serve as a powerful tool in understanding how intracellular processes in bacteria affect the bacterial phenotype. In this thesis I have implemented and analysed models of a number of different parts of the bacterium E. coli in order to understand these types of connections. I have also developed new tools for analysis of stochastic reaction-diffusion models. Resistance mutations in the E. coli ribosomes make the bacteria less susceptible to treatment with the antibiotic drug erythromycin compared to bacteria carrying wildtype ribosomes. The effect is dependent on efficient drug efflux pumps. In the absence of pumps for erythromycin, there is no difference in growth between wildtype and drug target resistant bacteria. I present a model explaining this unexpected phenotype, and also give the conditions for its occurrence. Stochastic fluctuations in gene expression in bacteria, such as E. coli, result in stochastic fluctuations in biosynthesis pathways. I have characterised the effect of stochastic fluctuations in the parallel biosynthesis pathways of amino acids. I show how the average protein synthesis rate decreases with an increasing number of fluctuating amino acid production pathways. I further show how the cell can remedy this problem by using sensitive feedback control of transcription, and by optimising its expression levels of amino acid biosynthetic enzymes. The pole-to-pole oscillations of the Min-proteins in E. coli are required for accurate mid-cell division. The phenotype of the Min-oscillations is altered in three different mutants: filamentous cells, round cells and cells with changed membrane lipid composition. I have shown that the wildtype and mutant phenotypes can be explained using a stochastic reaction-diffusion model. In E. coli, the transcription elongation rate on the ribosmal RNA operon increases with increasing transcription initiation rate. In addition, the polymerase density varies along the ribosomal RNA operons. I present a DNA sequence dependent model that explains the transcription elongation rate speed-up, and also the density variation along the ribosomal operons. Both phenomena are explained by the RNA polymerase backtracking on the DNA. / Felaktigt tryckt som Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology 715
8

Disrupting the quaternary structure of DHDPS as a new approach to antibiotic design.

Evans, Genevieve Laura January 2010 (has links)
This thesis examined the enzyme dihydrodipicolinate synthase (DHDPS, E.C. 4.2.1.52) from the pathogen Mycobacterium tuberculosis. DHDPS is a validated antibiotic target for which no potent inhibitor based on substrates, intermediates or product has been found. The importance of the homotetrameric quaternary structure in E. coli DHDPS has been demonstrated by the 100-fold decrease in activity observed in a dimeric variant, DHDPS-L197Y, created by site-directed mutagenesis. This suggested a new approach for inhibitor design: targeting the dimer-dimer interface and disrupting tetramer formation. DHDPS catalyzes the first committed step in the biosynthetic pathway of meso-diaminopimelic acid, a critical component of the mycobacterial cell wall. In this study, wild-type M. tuberculosis DHDPS was thoroughly characterized and compared with the E. coli enzyme. A coupled assay was used to obtain the kinetic parameters for M. tuberculosis DHDPS: KM(S) ASA = 0.43 (±0.02) mM, KMpyruvate = 0.17 (±0.01) mM, and kcat = 138 (±2) s 1. Biophysical techniques showed M. tuberculosis DHDPS to exist as a tetramer in solution. This is consistent with the crystal structure deposited as PDB entry 1XXX. The crystal structure of M. tuberculosis DHDPS showed active-site architecture analogous to E. coli DHDPS and a dimeric variant of M. tuberculosis DHDPS was predicted to have reduced enzyme activity. A dimeric variant of M. tuberculosis DHDPS was engineered through a rationally designed mutation to analyze the effect of disrupting quaternary structure on enzyme function. A single point mutation resulted in a variant, DHDPS-A204R, with disrupted quaternary structure, as determined by analytical ultracentrifugation and gel-filtration chromatography. DHDPS-A204R was found to exist in a concentration-dependent monomer-dimer equilibrium, shifted towards dimer by the presence of pyruvate, the first substrate that binds to the enzyme. The secondary and tertiary structure of DHDPS-A204R was analogous to wild-type M. tuberculosis DHDPS as judged by circular dichroism spectroscopy and X ray crystallography, respectively. Surprisingly, this disrupted interface mutant had similar activity to the wild type enzyme, with a kcat of 119 (±6) s-1; although, the affinity for its substrates were decreased: KM(S) ASA = 1.1 (±0.1) mM, KMpyruvate = 0.33 (±0.03) mM. These results indicated that disruption of tetramer formation does not provide an alternative direction for drug design for DHDPS from M. tuberculosis. Comparison with the recently discovered dimeric DHDPS from Staphylococcus aureus shed further light on the role of quaternary structure in DHDPS. In M. tuberculosis DHDPS-A204R and the naturally dimeric enzyme, the association of monomers into the dimer involves a greater buried surface area and number of residues than found in E. coli DHDPS-L197Y. This provides a framework to discriminate which DHDPS enzymes are likely to be inactive as dimers and will direct future work targeting the dimer-dimer interface of DHDPS as an approach for drug design.
9

Transcriptional Regulation and Differentiation in Saccharomyces and Aspergillus: jlbA, RPS26, and ARO3/4 / Transkriptionelle Regulation und Differzierung in Saccharomyces und Aspergillus: jlbA, RPS26, and ARO3/4

Strittmatter, Axel 06 May 2003 (has links)
No description available.

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