Global ETD Search

1	Genetic and biochemical studies of the biosynthesis and attachment of D-desosamine, the deoxy sugar component of macrolide antibiotics produced by Streptomyces venezuelae Borisova, Svetlana Alekseyevna, 1976- 28 August 2008 (has links) Not available / text Deoxy sugars Macrolide antibiotics Biosynthesis Streptomyces venezuelae
2	Genetic and biochemical studies of the biosynthesis and attachment of D-desosamine, the deoxy sugar component of macrolide antibiotics produced by Streptomyces venezuelae Borisova, Svetlana Alekseyevna, Liu, Hung-wen, January 2004 (has links) (PDF) Thesis (Ph. D.)--University of Texas at Austin, 2004. / Supervisor: Hung-wen Liu. Vita. Includes bibliographical references. Available also from UMI company.
3	Biochemische und physiologische Studien zur Funktion der GGDEF-EAL Proteine RmdA und RmdB in der Differenzierung von Streptomyces venezuelae Haist, Julian 19 February 2021 (has links) Streptomyceten weisen einen komplexen Lebenszyklus auf, dessen Verlauf durch den sekundären Botenstoff Bis-(3´- 5´)-zyklisches dimeres Guanosinmonophosphat (c-di-GMP) und die c-di-GMP-Effektorproteine BldD und RsiG reguliert wird. Der Auf- bzw. Abbau von c-di-GMP wird von Diguanylatzyklasen (DGC) mit GGDEF-Domänen bzw. Phosphodiesterasen (PDE) mit EAL- oder HD-GYP-Domänen katalysiert. In S. venezuelae, einem Modellorganismus der Streptomyceten, konnten zehn potenziell c-di-GMP metabolisierende Enzyme identifiziert werden, von welchen mit RmdA und RmdB zwei GGDEF-EAL-Tandem-Proteine im Fokus dieser Arbeit stehen. Die chromosomale Deletion der für RmdA und RmdB kodierenden Gene führt zu einer ausgeprägten Verzögerung der Entwicklung in S. venezuelae. Mit Hilfe chromosomaler Mutationen konnten die EAL-Motive der EAL-Domänen als essenziell für die in vivo Funktion beider Proteine identifiziert werden. Beide Proteine zeigen in vitro PDE-Aktivität und RmdA konnte als bifunktionales Enzym charakterisiert werden, da es in vitro auch DGC-Aktivität aufweist. Mittels Nukleotidextraktionen konnte RmdB als Haupt-PDE in S. venezuelae identifiziert werden, welche über den gesamten Entwicklungsverlauf für den Abbau von c-di-GMP verantwortlich ist. Aber auch RmdA hat während des Übergangs von der vegetativen zur reproduktiven Wachstumsphase Einfluss auf die globale zelluläre c-di-GMP Konzentration. Durchgeführte Transkriptomanalysen und qRT-PCR-Experimente ergaben, dass in den Deletionsmutanten die Expression einiger wichtiger entwicklungsspezifischer Gene im Vergleich zum Wildtyp herunterreguliert ist. Dies ist vermutlich auf die erhöhten c-di-GMP Konzentrationen in den Deletionsmutanten zurückzuführen, wodurch die Aktivität der c-di-GMP-Effektorproteine BldD und RsiG beeinflusst wird und die verzögerte Entwicklung der Deletionsmutanten erklärt werden kann. Weiterhin konnte gezeigt werden, dass RmdB mit dem Sigmafaktor der Sporulation, WhiG, interagieren kann. / Streptomycetes show a complex life cycle. The transition between the different developmental stages is regulated by the secondary messenger bis- (3´- 5´) -cyclic dimeric guanosine monophosphate (c-di-GMP) and the c-di-GMP effector proteins BldD and RsiG. c-di-GMP is synthesized by diguanylate cyclases (DGCs) with GGDEF domains, and its degradation is catalyzed by phosphodiesterases (PDE) with EAL or HD-GYP domains. In S. venezuelae, the Streptomyces strain which was used as a model organism in this work, there are ten potentially c-di-GMP metabolizing enzymes, of which two GGDEF-EAL tandem proteins, RmdA and RmdB, are the focus of this work. The deletion of the genes coding for RmdA and RmdB leads to a pronounced developmental delay in S. venezuelae. With the help of chromosomal mutations, the EAL motif was identified as essential for the in vivo function of RmdA and RmdB. Furthermore, both proteins were characterized in vitro as active PDEs and RmdA as a bifunctional enzyme, which also showed DGC activity. RmdB was identified as the master PDE in S. venezuelae by means of nucleotide extraction and is responsible for the hydrolysis of c-di-GMP over the course of development investigated. Also RmdA has an influence on the global cellular c-di-GMP concentration during the transition from the vegetative to the reproductive growth phase. A transcriptome analysis, qRT-PCR experiments and related follow-up experiments showed that the deletion of rmdA and rmdB leads to a differential expression of genes which code for important development-specific factors and regulators. This is presumably due to the increased c-di-GMP concentrations in the deletion mutants, with the c-di-GMP effector proteins BldD and RsiG delaying the transition to the next growth phase. Furthermore, it could be shown that RmdB can interact with the sigma factor of sporulation, WhiG. Streptomyceten Streptomyces venezuelae c-di-GMP Entwicklungsregulation RmdA RmdB Streptomyces Streptomyces venezuelae c-di-GMP regulation of development RmdA RmdB 579 Mikroorganismen, Pilze, Algen WF 6850 ddc:579
4	A STUDY ON THE GROWTH AND METABOLIC ACTIVITY OF STREPTOMYCES VENEZUELAE MacIntosh, Andrew John 19 August 2010 (has links) The bacteria Streptomyces venezuelae produce the novel antibiotic jadomycin. The study of growth characteristics and metabolic behavior of the bacteria are necessary to scale up antibiotic production and facilitate further research. In this study, a method for producing consistent inoculum was developed that showed good repeatability when used in growth trials. The rod shaped spores of Streptomyces venezuelae were determined to be approximately 0.8 x 0.2 ?m with a smooth surface type. The effects of temperature and pH on bacterial growth and substrate consumption were examined in a 7 L bioreactor. Of the range of parameters tested (28, 32, 36 °C, and media pH of 5, 7 and 9), 32 °C with a media pH of 7 yielded the highest rate of growth (µmax of 1.43 hours-1 with a lag time of 7.7 hours). The results of all trials showed that free glucose was consumed before the maltose, which was the major sugar substrate in the media. The initiation of exponential bacterial growth occurred after rapid consumption of free glucose. A heat balance analysis was also performed over the bioreactor to identify the heat generated through agitation, losses over the vessel and the heat of metabolism from Streptomyces venezuelae. Under normal operating parameters 33 - 24 % of the heat generated through mixing was lost with the exhaust gas, while 56 - 64 % was lost through the bioreactor wall. The heat of mixing was calculated to be 1.62 J•s-1 while the maximum amount of heat generated by Streptomyces venezuelae metabolism and activity during a growth trial was 2.28 J•s-1 for 60 x 109 CFU?mL-1. jadomycin heat balance growth rate substrate consumption Streptomyces venezuelae spore inoculum
5	In vitro polyketide biocatalysis : triketide building-blocks and enzymology Harper, Andrew David 08 October 2013 (has links) Polyketide products are useful compounds to research and industry but can be difficult to access due to their richness in stereogenic centers. Type I polyketide synthases offer unique engineering opportunities to access natural stereocontrol and resultant complex compounds. The development of a controlled in vitro platform based around type I polyketide synthases is described. It has been used to produce a small library of polyketide fragments on an unprecedented and synthetically-relevant scale and explore polyketide synthase enzymology. / text In vitro Cell-free Preparative Polyketide Polyketide synthase Ketoreductase Malonyl-CoA ligase MatB Enzymology Chiral building blocks Chiral synthons Diketide Triketide Lactone Ketolactone Natural products Secondary metabolism Secondary metabolite Modular Type I polyketide synthase Biosynthesis Streptomyces coelicolor Saccharopolyspora erythraea Bacillus subtilis Streptomyces nodosus Saccharomyces cerevisiae Streptomyces antibioticus Streptomyces venezuelae Saccharopolyspora spinosa Streptomyces fradiae

1

Page generated in 0.0375 seconds