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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

Molecular Studies on the RelA-Mediated (p)ppGpp Synthesis Mechanism

Payoe, Roshani Unknown Date
No description available.
2

The Synthetic Biology of a Man-Made Protein

January 2011 (has links)
abstract: Synthetic biology is constantly evolving as new ideas are incorporated into this increasingly flexible field. It incorporates the engineering of life with standard genetic parts and methods; new organisms with new genomes; expansion of life to include new components, capabilities, and chemistries; and even completely synthetic organisms that mimic life while being composed of non-living matter. We have introduced a new paradigm of synthetic biology that melds the methods of in vitro evolution with the goals and philosophy of synthetic biology. The Family B proteins represent the first de novo evolved natively folded proteins to be developed with increasingly powerful tools of molecular evolution. These proteins are folded and functional, composed of the 20 canonical amino acids, and in many ways resemble natural proteins. However, their evolutionary history is quite different from natural proteins, as it did not involve a cellular environment. In this study, we examine the properties of DX, one of the Family B proteins that have been evolutionarily optimized for folding stability. Described in chapter 2 is an investigation into the primitive catalytic properties of DX, which seems to have evolved a serendipitous ATPase activity in addition to its selected ATP binding activity. In chapters 3 and 4 we express the DX gene in E. coli cells and observe massive changes in cell morphology, biochemistry, and life cycle. Exposure to DX activates several defense systems in E. coli, including filamentation, cytoplasmic segregation, and reversion to a viable but non-culturable state. We examined these phenotypes in detail and present a model that accounts for how DX causes such a rearrangement of the cell. / Dissertation/Thesis / Ph.D. Biology 2011
3

Vývoj nové metody analýzy nukleotidového fondu v bakteriálních buňkách / Development of a novel method for nucleotide pool analysis in bacterial cells

Zborníková, Eva January 2019 (has links)
(EN) This thesis deals with the determination of nucleotides in bacterial cells. Nucleotides play crucial role in most of the metabolic pathway. Determining their concentrations could give us important clues about the influence of internal and external conditions on the bacterial metabolism. Previously published papers dealing with the analysis of nucleotides and other intracellular metabolites can be divided into two groups according to the analytical approach: a) metabolomic approach and b) targeted approach dealing with narrow group of target analytes. In the case a) most authors use the state-of-the-art LC-MS/MS technique, whereas in the case b) robust UV detection coupled mainly to IP-LC is widely used. The aim of this study was to combine both approaches to obtain a method for routine analysis that would take advantages of mass detection, such as sensitivity and selectivity, while avoiding the need of demanding optimization of MS/MS transitions and expert service. The main purpose of the newly developed HILIC-MS method is its universal applicability in most biological and biochemical laboratories.
4

The Stringent Response of Salmonella Typhimurium

Chau, Nhu Y Elizabeth January 2021 (has links)
Bacteria inhabit diverse environmental niches and consequently, must modulate their metabolism to adapt to stress. The nucleotide second messengers guanosine tetraphosphate (ppGpp) and guanosine pentaphosphate (pppGpp) (collectively referred to as (p)ppGpp) are essential for survival during nutrient starvation. (p)ppGpp is synthesized by the RelA-SpoT homologue (RSH) protein family and coordinates the control of cellular metabolism through its combined effect on over 50 proteins. While the role of (p)ppGpp has largely been associated with nutrient limitation, recent studies have shown that (p)ppGpp and related nucleotides have a previously underappreciated effect on different aspects of bacterial physiology, such as regulating bacterial interactions with its host. This thesis focuses on the coordination of virulence gene expression and evasion of host immunity by (p)ppGpp in Salmonella enterica serovar Typhimurium. In the first data chapter, I describe the role of (p)ppGpp in mediating bacterial resistance to killing by the human complement system. I identified that (p)ppGpp activates ppnN, a nucleotide metabolism associated enzyme, and the biosynthesis of lipopolysaccharide O-antigen to protect Salmonella from cell lysis by complement. The second data chapter compares and contrasts the stringent response of an invasive clinical isolate of Salmonella Typhimurium to a strain of Salmonella Typhimurium that causes acute gastroenteritis using RNA-sequencing. Critical analysis of our transcriptomics dataset showed that flagellar-based motility is differentially regulated by (p)ppGpp in the two strains of Salmonella. Together, these findings demonstrate that (p)ppGpp has significant functional roles beyond mediating adaptation to nutrient limitation. / Thesis / Doctor of Philosophy (PhD)
5

The ribosome, stringent factor and the bacterial stringent response

Jenvert, Rose-Marie January 2007 (has links)
<p>The stringent response plays a significant role in the survival of bacteria during different environmental conditions. It is activated by the binding of stringent factor (SF) to stalled ribosomes that have an unacylated tRNA in the ribosomal A-site which leads to the synthesis of (p)ppGpp. ppGpp binds to the RNA polymerase, resulting in a rapid down-regulation of rRNA and tRNA transcription and up-regulation of mRNAs coding for enzymes involved in amino acid biosynthesis. The importance of the A-site and unacylated tRNA in the activation of SF was confirmed by chemical modification and subsequent primer extension experiments (footprinting experiments) which showed that binding of SF to ribosomes resulted in the protection of regions in 23S rRNA, the A-loop and helix 89 that are involved in the binding of the A-site tRNA. An in vitro assay showed that the ribosomal protein L11 and its flexible N-terminal part was important in the activation of SF. Interestingly the N-terminal part of L11 was shown to activate SF on its own and this activation was dependent on both ribosomes and an unacylated tRNA in the A-site. The N-terminal part of L11 was suggested to mediate an interaction between ribosome-bound SF and the unacylated tRNA in the A-site or interact with SF and the unacylated tRNA independently of each other. Footprinting experiments showed that SF bound to the ribosome protected bases in the L11 binding domain of the ribosome that were not involved in an interaction with ribosomal protein L11. The sarcin/ricin loop, in close contact with the L11 binding domain on the ribosome and essential for the binding and activation of translation elongation factors was also found to be protected by the binding of SF. Altogether the presented results suggest that SF binds to the factor-binding stalk of the ribosome and that activation of SF is dependent on the flexible N-terminal domain of L11 and an interaction of SF with the unacylated tRNA in the A-site of the 50S subunit.</p>
6

The ribosome, stringent factor and the bacterial stringent response

Jenvert, Rose-Marie January 2007 (has links)
The stringent response plays a significant role in the survival of bacteria during different environmental conditions. It is activated by the binding of stringent factor (SF) to stalled ribosomes that have an unacylated tRNA in the ribosomal A-site which leads to the synthesis of (p)ppGpp. ppGpp binds to the RNA polymerase, resulting in a rapid down-regulation of rRNA and tRNA transcription and up-regulation of mRNAs coding for enzymes involved in amino acid biosynthesis. The importance of the A-site and unacylated tRNA in the activation of SF was confirmed by chemical modification and subsequent primer extension experiments (footprinting experiments) which showed that binding of SF to ribosomes resulted in the protection of regions in 23S rRNA, the A-loop and helix 89 that are involved in the binding of the A-site tRNA. An in vitro assay showed that the ribosomal protein L11 and its flexible N-terminal part was important in the activation of SF. Interestingly the N-terminal part of L11 was shown to activate SF on its own and this activation was dependent on both ribosomes and an unacylated tRNA in the A-site. The N-terminal part of L11 was suggested to mediate an interaction between ribosome-bound SF and the unacylated tRNA in the A-site or interact with SF and the unacylated tRNA independently of each other. Footprinting experiments showed that SF bound to the ribosome protected bases in the L11 binding domain of the ribosome that were not involved in an interaction with ribosomal protein L11. The sarcin/ricin loop, in close contact with the L11 binding domain on the ribosome and essential for the binding and activation of translation elongation factors was also found to be protected by the binding of SF. Altogether the presented results suggest that SF binds to the factor-binding stalk of the ribosome and that activation of SF is dependent on the flexible N-terminal domain of L11 and an interaction of SF with the unacylated tRNA in the A-site of the 50S subunit.
7

DksA Beyond the Stringent Response: Investigating the Functions of a Diverse Bacterial Transcription Factor

Furman, Ran 27 August 2013 (has links)
No description available.
8

Transcription in Mycoplasma pneumoniae / Transkription in Mycoplasma pneumoniae

Eilers, Hinnerk 01 October 2010 (has links)
No description available.
9

Estudos da resposta estringente de Bacillus subtilis e busca por pequenas moléculas moduladoras de RelA / Studies of the stringent response of Bacillus subtilis and search for small molecules capable of modulating RelA activity

Pulschen, André Arashiro 06 November 2017 (has links)
Seja no meio ambiente, dentro de um hospedeiro ou em outro habitat, bactérias estarão frequentemente enfrentando condições adversas, como exposição a compostos antibacterianos ou carência nutricional. Em situações como essas, as bactérias são capazes de ativar a chamada resposta estringente, modulada pelo alarmônio (p)ppGpp. O acúmulo de (p)ppGpp promove a inibição da transcrição de rRNAs e tRNAs e a supressão do processo de tradução, e a ativação de operons de biossíntese de aminoácidos. Sabe-se também hoje que a resposta estringente está relacionada a outras importantes carências nutricionais em Escherichia coli, como a falta de ácidos graxos, porém não se sabe se o mesmo ocorre em Bacillus subtilis ou em outras Grampositivas. (p)ppGpp atua também direta e indiretamente em vários outros processos celulares, como motilidade, resistência a antibióticos, virulência e persistência, indicando que (p)ppGpp é um regulador central que integra informação metabólica e respostas adaptativas. O presente trabalho buscou estudar a correlação da resposta estringente de B. subtilis com a carência de ácidos graxos e a busca por pequenas moléculas capazes de modular RelA (a principal proteína envolvida na síntese de (p)ppGpp) e impedir o acúmulo de (p)ppGpp. Para a indução da carência de ácidos graxos, foram utilizadas duas estratégias; uso da droga Cerulenina (inibidor de FabF) e mutantes condicionais no gene FabF. Observou-se que mutantes incapazes de ativar a resposta estringente (cepa ppGpp(0) ou RelAD264G) apresentaram grande perda de viabilidade celular durante a carência de ácidos graxos, ao passo que a cepa selvagem manteve sua viabilidade celular. A causa da morte se deu majoritariamente devido ao colapso do potencial de membrana. Apesar de não termos observado aumento de (p)ppGpp nas células selvagens durante a carência de ácidos graxos, observou-se uma redução da razão GTP/ATP, ao passo que na cepa ppGpp(0), a razão GTP/ATP aumentou, devido ao acúmulo de GTP. O uso da droga decoinina, capaz de reduzir os níveis intracelulares de GTP, resgatou parcialmente a viabilidade da cepa e impediu a perda do potencial de membrana, indicando que os níveis de GTP são importantes durante a carência de ácidos graxos em B. subtilis. Para a triagem de pequenas moléculas inibidoras do acúmulo de (p)ppGpp, foi utilizada uma biblioteca de 2320 diferentes compostos químicos, e buscou-se drogas capazes de reverter o fenótipo de crescimento lento de cepas de B. subtilis que acumulam (p)ppGpp (via mutação pontual; mutante RelAH77A e via tratamento com o indutor hidroxamato de arginina) em meio rico. A primeira etapa selecionou 40 moléculas capazes de resgatar o crescimento de células tratadas com arginina-hidroxamato, porém apenas uma, salicilanilida, foi capaz de também resgatar o crescimento da cepa RelAH77A. Todavia, apesar de ser capaz de acelerar o crescimento de B. subtilis esse efeito é limitado. Diversos análogos de salicilanilida foram testados, porém não apresentaram efeito superior a salicilanilida para a reversão do fenótipo de crescimento lento de B. subtilis. Em adição, a droga não foi capaz de aumentar a sensibilidade dos organismos a diversos antibióticos testados, e aparentemente é incapaz de alterar os níveis internos de (p)ppGpp, porém é capaz de causar alterações nos níveis de ATP. Logo, acredita-se que o efeito observado para o crescimento das células seja devido a efeitos indiretos, possivelmente envolvendo alteração de outros nucleotídeos fosforilados. / In the environment, inside a host or other habitat, bacteria will always face adverse conditions, as for example exposure to antimicrobials or starvation. In situations like those, bacteria activate the stringent response, modulated by the alarmone (p)ppGpp. (p)ppGpp accumulation promotes inhibition of rRNA and tRNA transcription and suppression of translational process, at the same time that it activates several amino acid biosynthesis operons. It is known also that the stringent response it is related to other starvation stress in Escherichia coli, like lack of fatty acids, but there is no knowledge if the same occurs for Bacillus subtilis or other gram-positive bacteria. ppGpp acts directly and indirectly affecting several other cellular process, as motility, resistance to antibiotics, virulence and persistence, indicating that (p)ppGpp is a central regulator that integrates metabolic information and adaptive responses. This work aimed to study the correlation between the stringent response in B. subtilis with fatty acid starvation, and search for small moleculas capable of modulating RelA (the main enzyme responsible for ppGpp synthesis) and stop (p)ppGpp production. For fatty acid starvation induction, two strategies were used; use of the drug Cerulenin (inhibitor of the FabF protein) and conditional mutants of the FabF gene. We observed that mutants incapable of activating the stringent response (strains ppGpp(0) ou RelAD264G) presented great loss of viability during fatty acid starvation, whereas the wild-type strain keeps its viability. The main cause of death is due membrane rupture in some cells, but mainly due to membrane potential collapse. Although we did not observed increase of (p)ppGpp in wild-type strains during fatty acid starvation, we observed reduction in GTP/ATP ratios, a hallmark of (p)ppGpp production in gram-positive bacteria. In the strain ppGpp(0) GTP/ATP ratio increased, mainly due to GTP increase. Using the drug decoyinine, capable of reducing GTP levels, partially recued viability and protects cells of losing its membrane potential, indicating that GTP levels plays an important role during fatty acid starvation in B. subtilis. For the screening of small molecules capable of inhibit (p)ppGpp production, a library of 2320 different chemical compounds were used, and we looked for drugs capable of reverting the slow growth phenotype of B. subtilis strains with (p)ppGpp accumulation (using a mutant RelAH77A; and using a stringent response inductor, arginine hidroxamate). The first step selected for 40 molecules capable of rescuing the growth of cells treated with arginine hidroxamate, but only one drug, salicilanilyde could also rescue the growth of the strain RelAH77A. Although capable of rescuing growth of B. subtilis that accumulates (p)ppGpp, this rescue is limited. Several analogues of salicilanilyde were tested, but none were stronger than salicilanilyde itself in rescuing growth of slow growing strains of B. subtilis. In addition, the drug was not capable of increasing antibiotic sensibility and it is incapable of changing intracellular (p)ppGpp levels, but it does shifts ATP levels. Therefore, we believe that the observed effects of salicilanilyde is due indirect action, probably involving other phosphorylated nucleotides, rather than modifying (p)ppGpp levels
10

Rôle de la petite GTPase CgtA dans la biogenèse du ribosome et la réponse au stress chez Escherichia coli

Maouche, Samia rim 21 December 2012 (has links)
La réponse stringente est un processus mis en place lors d'une carence nutritionnelle qui permet l'arrêt coordonné de la croissance. Cette réponse essentielle à la survie des bactéries est très conservée. Elle se caractérise par la production et l'accumulation de guanosine tretra- et pentaphosphate (ppGpp). Le ppGpp, en se fixant sur l'ARN polymérase modifie ses propriétés cinétiques et affecte ainsi de manière globale la transcription de très nombreux gènes. Principalement, l'accumulation de ppGpp inhibe la biosynthèse des ARNs stables (ARNr et ARNt) et en conséquence inhibe la biogenèse des ribosomes. Chez Escherichia coli, le niveau de ppGpp est régulé par les deux enzymes RelA et SpoT. Lors d'une carence en acides aminés, RelA fixée au ribosome détecte le blocage de la machinerie traductionnelle causée par la fixation d'un ARNt déacylé au site A du ribosome, et synthétise du ppGpp. SpoT quant à elle serait capable de détecter et de synthétiser le ppGpp en réponse à d'autres carences nutritionnelles notamment en source de carbone, mais les mécanismes et les signaux détectés sont inconnus. Il a été proposé que la protéine CgtA serait impliquée dans le contrôle de la réponse stringente, en interagissant avec SpoT au niveau des ribosomes. CgtA est une GTPase conservée et essentielle de la famille Obg, mais sa fonction précise est inconnue. Elle a été impliquée à la fois dans la maturation des ribosomes et dans la ségrégation des chromosomes et la division. Le gène cgtA est situé en aval des gènes rplU, rpmA, et yhbE codant respectivement pour les protéines L21 et L27 de la sous-unité 50S du ribosome et pour une protéine intégrale de membrane interne de fonction inconnue. / The stringent response is a physiological process that occurs when bacterial cells encounter nutritional stresses, and allowing coordinated growth arrest. This conserved response is characterized by the accumulation of tetra- and pentaphosphate guanosine (ppGpp). ppGpp bind to RNA polymerase and modifies its kinetic properties, thereby affecting the transcription of many genes. Prinicpaly, ppGpp accumulation inhibits stable RNAs (rRNA and tRNA) biosynthesis, which in consequence inhibits ribosome biogenesis. Escherichia coli contains two enzymes involved in ppGpp metabolism, RelA and SpoT. During amino acid starvation, RelA bound to ribosomes produces ppGpp in response to the presence of uncharged tRNA in the ribosomal A-site. In contrast, SpoT produces ppGpp in response to other types of nutrient limitations, such as carbon starvation, but the detected signals and mechanism involved are still unknown. It has been proposed that the CgtA protein is involved in the stringent response control by interacting with SpoT at the ribosome. CgtA is a conserved and essential small GTPase of the Obg family. CgtA has also been implicated in ribosome maturation, chromosome segregation and division, but its precise function remains unknown. The cgtA gene is located downstream of rplU, rpmA and yhbE genes coding respectively for L21 and L27 proteins of the 50S subunit of the ribosome, and an integral inner membrane protein of unknown function. This genetic proximity with rplU and rpmA genes is highly conserved in bacteria. My thesis work was therefore organized around three questions. First, understanding the role of CgtA in growth control and in the stringent response.

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