Spelling suggestions: "subject:"pho"" "subject:"phos""
1 |
Genetic analysis of conserved residues in PhoU of Escherichia coliGardner, Stewart G. 13 July 2005 (has links) (PDF)
The Pho regulon is controlled by the PstSCAB transporter, PhoU, and the two-component proteins, PhoB and PhoR. PhoU is a negative regulator of the Pho regulon under phosphate-replete conditions. How PhoU functions is unknown. Many PhoU homologues are found widely throughout prokaryotic domains. There are several conserved amino acid residues in the PhoU protein. It is hypothesized that these residues play an important role in the function of PhoU. To test this hypothesis, several site directed mutations in the phoU gene have been produced with single amino acid changes in conserved residues. After testing these mutants, it was found that some of the mutants abolished repression of the Pho regulon while other mutants had little or no effect. Further study of these mutants and their phenotypes will reveal more about how PhoU functions and help to better understand bacterial signaling in general.
|
2 |
THE ROLE OF THE PHOU PROTEIN IN SINORHIZOBIUM MELILOTISharthiya, Harsh 24 September 2014 (has links)
<p>Phosphate is of central importance in cellular metabolism and since bacteria are often exposed to various concentration of phosphorous in their environment, they have acquired various Pi transport systems for its uptake. <em>Sinorhizobium</em> <em>meliloti</em> has three Pi-uptake systems: a low affinity system encoded by <em>pap</em>-<em>pit</em> and two ABC type systems encoded by the <em>phnCDET</em> and <em>pstSCAB</em> operons. It is currently known that PstSCAB<sub>2</sub>, a high affinity, high velocity transporter is induced under Pi limiting conditions and its transcription is controlled mainly in a PhoB-P dependent manner. During excess phosphate conditions, the negative regulation of the Pho regulon seems to involve PstSCAB<sub>2</sub> and PhoU. PhoU appears to be a negative regulator of the Pho regulon however; the mechanism by which PhoU accomplishes this task is currently unknown. In <em>Escherichia</em> <em>coli</em> and some other bacteria, mutations in <em>phoU</em> result in constitutive Pho regulon expression as do mutations in the <em>pstSCAB</em> genes. In order to address the function of PhoU in <em>Sinorhizobium</em> <em>meliloti</em>, we report the creation of a <em>Sinorhizobium</em> <em>meliloti</em> <em>ΔphoU</em> mutant strain. Results from the analysis of the <em>S. meliloti ΔphoU</em> strain suggest that this mutant behaves similarly to <em>E. coli phoU </em>mutant where one observes constitutive expression of the Pho regulon.</p> / Master of Science (MSc)
|
3 |
Evidences for Protein-Protein Interactions Between PstB and PhoU in the Phosphate Signaling Complex of Escherichia coliJohns, Kristine Dawn 15 March 2013 (has links) (PDF)
The PstSCAB2 complex serves the dual function of being a phosphate transporter as well as the primary sensor of phosphate for the Pho regulon. PhoU is an integral protein required for the signal from PstSCAB2 to be transmitted to PhoR. Our hypothesis is that conformational changes of PstSCAB2 during the phosphate transport process are the mechanism by which information about environmental phosphate levels are transduced to the cell. Additionally, we propose that direct protein-protein interactions between PhoU and the alternating conformations of PstSCAB2 mediate PhoU interactions with PhoR. By means of genetic and biochemical approaches, we have found substantial evidence supporting both these hypotheses.
|
4 |
Estudos estruturais e funcionais da proteína repressora PhoU na sinalização de transporte de fostato em Xanthomonas axonopodis pv. citri. / Structural and functional studies of the repressor protein PhoU in phosphate signalling and uptake in Xanthomonas axonopodis pv. citri .Pena, Pâmela de Oliveira 31 January 2018 (has links)
A habilidade de sensoriar o ambiente extracelular e responder às suas mudanças é inerente para a maioria das bactérias. As concentrações de nutrientes direcionam os processos metabólicos relacionados à sobrevivência e proliferação. O fosfato inorgânico (Pi) é um dos nutrientes cuja regulação, sensoriamento e sinalização são bastante conservados em bactéria. Um dos mecanismos de captação do íon fosfato com alta afinidade é o sistema Pst, um transportador do tipo ABC (ATP-Binding Cassette) , localizado na membrana interna das células. Este transportador, juntamente com as proteínas PhoR/PhoB que formam um sistema de dois componentes (Two-Component Regulatory System) , são capazes de sensoriar e monitorar os níveis deste íon nas células. Ambos os sistemas pertencem ao chamado regulon Pho, conjunto de genes envolvidos no transporte, captação e metabolização do fosfato. Estudos tem mostrado que a interação entre os sistema Pst e o sistema doiscomponentes PhoR/PhoB é mediada pela proteína PhoU, um regulador negativo cujo gene encontra-se no mesmo operon do transportador. Apesar de muito estudados em Escherichia coli , poucas informações existem sobre as características destes sistemas em Xanthomonas citri subsp. citri , bactéria responsável pelo cancro cítrico e de grande importância econômica para o país. Estudos realizados pelo nosso grupo mostraram que X. citri conserva a maioria dos genes descritos como pertencentes ao regulon Pho, incluindo o sistema Pst, as proteínas PhoR/PhoB e PhoU. Este trabalho, portanto, tem como objetivos, a caracterização funcional e estrutural da proteína PhoU de X. citri e a análise da possível interação de PhoU com a proteína PhoR, a histidina quinase do sistema dois componentes. Para tal, as proteínas foram expressas em linhagens de E. coli Tuner e purificadas por cromatografia de afinidade a metal, seguida de exclusão molecular. Visando a caracterização biofísica e estrutural da proteína PhoU, foram realizados ensaios de dicroísmo circular, cristalização, análises de bioinformática e modelagem molecular. Os resultados de bioinformática mostraram que PhoU conserva características estruturais e funcionais quando comparada com ortólogos. Após sua purificação, a proteína foi produzida na sua forma enovelada e mostrou interação com ligantes, conforme descrito na literatura para ortólogos. A expressão da proteína PhoR também foi obtida e ensaios de pull-down foram realizados para a caracterização da interação entre PhoU-PhoR. Adicionalmente, foram realizados estudos de expressão das proteínas em diferentes condições de cultivo, utilizando-se anticorpos policlonais anti-PhoU e anti-PhoR. Os resultados apresentados neste projeto são de grande importância uma vez que se obteve a padronização dos processos de produção de ambas as proteínas e ensaios biofísicos e estruturais para a futura caracterização do complexo, o que será de grande relevância para a compreensão do papel destes sistemas na fisiologia da bactéria. / The ability to sensor the extracellular environment and respond to its changes is inherent to most bacteria. Nutrient concentrations direct metabolic processes related to survival and proliferation. Inorganic phosphate (Pi) is one of the nutrients whose regulation, sensing and signalling are quite preserved in bacteria. One of the mechanisms for phosphate ion uptake with high affinity is the Pst system, composed by an ABC transporter (ATP-Binding Cassette), located on the inner membrane of the cells. This transporter, along with the PhoR/PhoB proteins, which form a Two Component Regulatory System, are capable of sensing and monitoring the levels of phosphate in cells. Both systems belong to the called regulon Pho, set of genes involved in phosphate transport, uptake and metabolism. Studies have shown that the interaction between the Pst system and the two component PhoR/PhoB system is mediated by the PhoU protein, a negative regulator, whose gene is located in the same operon of Pst system. Although much studied in Escherichia coli , there are few information about of these systems in Xanthomonas citri subsp. citri , the major causative of citric canker. Studies conducted by our group showed that X. citri conserves most of the genes described as belonging to regulon Pho, including the Pst system, the proteins PhoR/PhoB and PhoU. This work, therefore, aimed at performing functional and structural characterization of the X. citri PhoU protein and analyzing the possible interaction of PhoU with the PhoR protein, the histidine kinase of the Two Component System. For this, the proteins were expressed in E. coli Tuner strains and purified by metal affinity chromatography, followed by size exclusion chromatography. Aiming at the biophysical and structural characterization of the PhoU protein, we performed circular dichroism, crystallization, bioinformatics and molecular modeling. The results of bioinformatics showed that PhoU retains structural and functional characteristics when compared with orthologs. After purification, the protein was produced in its folded form and showed interaction with ligands, as described in the literature for orthologs. Expression of the PhoR protein was also obtained and Pull Down assays were performed for the characterization of the interaction between PhoUPhoR. In addition, protein expression studies were carried out under different culture conditions using polyclonal anti-PhoU and anti-PhoR antibodies. The results presented in this project are of great importance, once the standardization of the production processes of both proteins has been obtained, as well as biophysical and structural information. These information will be important for future characterization of the complex, which will be of great relevance for the understanding of the role of these systems in the physiology of bacteria.
|
5 |
Análise do metabolismo de polifosfato e do operon pst em Pseudomonas aeruginosa. / Analysis of the metabolism of polyphosphate and of the pst operon in Pseudomonas aeruginosa.Munevar, Nicolas Federico Villamil 06 August 2015 (has links)
O operon pst de P. aeruginosa codifica um transportador de fosfato de alta afinida-de e também a proteína PhoU que, em conjunto, atuam como repressores da ex-pressão do regulon Pho dessa espécie. A atividade de PhoU está também associada ao metabolismo de polifosfato (poliP), dado que mutantes phoU nulos apresentam um vasto acúmulo do biopolímero. Ensaios de β-galactosidase mostraram uma alteração na expressão dos genes ppk e ppx, envolvidos no metabolismo de poliP, no mutante phoU. Observou-se que na cepa selvagem, a transcrição de ppk e de ppx não responde às limitações de Pi ou de nitrogênio, sendo esses genes altamente expressos em condições normais de crescimento. Além disso, determinou-se que ppk é co-transcrito com o gene hemB, os quais formam, portanto, um operon. O operon pst também foi analisado. Foi identificado por ensaios de northern blot o transcrito do primeiro gene do operon, pstS, que codifica uma proteína periplasmática. Também, foi identificado um promotor imediatamente a montante de phoU, o gene mais distal do operon, que permitiria sua expressão em condições normais do crescimento bacteriano. Por fim, determinou-se por ensaios de EMSA que as duas sequências consenso Pho box presentes no operon pst são completamente funcionais. / The pst operon in P. aeruginosa encodes a high-affinity phosphate transporter and the PhoU protein, which together act as repressors of Pho regulon of this species. The PhoU activity is also related with polyphosphate (polyP) metabolism, since phoU null mutants have a large accumulation of the biopolymer. β-galactosidase assays allowed to confirm a change in the expression of ppk and ppx genes, in-volved in PolyP metabolism, in the phoU mutant. It was also evidenced that in the wild type strain, the ppk and ppx transcription does not respond to Pi or nitrogen starvation, and that these genes are highly expressed under conditions of normal growth. In addition, it was determined that ppk is co-transcribed with hemB, a gene involved in the synthesis of porphyrins, and they constitute therefore an operon. The pst operon was also examined. Was identified by northern blot the transcript of the first gene in the operon, pstS, which encodes a periplasmic protein. Also, a promoter was identified immediately upstream of phoU, the most distal gene in the operon, allowing its expression in normal conditions of bacterial growth. Finally, it was determined by EMSA that the two consensus sequences Pho box present in the pst operon are fully functional.
|
6 |
Análise do metabolismo de polifosfato e do operon pst em Pseudomonas aeruginosa. / Analysis of the metabolism of polyphosphate and of the pst operon in Pseudomonas aeruginosa.Nicolas Federico Villamil Munevar 06 August 2015 (has links)
O operon pst de P. aeruginosa codifica um transportador de fosfato de alta afinida-de e também a proteína PhoU que, em conjunto, atuam como repressores da ex-pressão do regulon Pho dessa espécie. A atividade de PhoU está também associada ao metabolismo de polifosfato (poliP), dado que mutantes phoU nulos apresentam um vasto acúmulo do biopolímero. Ensaios de β-galactosidase mostraram uma alteração na expressão dos genes ppk e ppx, envolvidos no metabolismo de poliP, no mutante phoU. Observou-se que na cepa selvagem, a transcrição de ppk e de ppx não responde às limitações de Pi ou de nitrogênio, sendo esses genes altamente expressos em condições normais de crescimento. Além disso, determinou-se que ppk é co-transcrito com o gene hemB, os quais formam, portanto, um operon. O operon pst também foi analisado. Foi identificado por ensaios de northern blot o transcrito do primeiro gene do operon, pstS, que codifica uma proteína periplasmática. Também, foi identificado um promotor imediatamente a montante de phoU, o gene mais distal do operon, que permitiria sua expressão em condições normais do crescimento bacteriano. Por fim, determinou-se por ensaios de EMSA que as duas sequências consenso Pho box presentes no operon pst são completamente funcionais. / The pst operon in P. aeruginosa encodes a high-affinity phosphate transporter and the PhoU protein, which together act as repressors of Pho regulon of this species. The PhoU activity is also related with polyphosphate (polyP) metabolism, since phoU null mutants have a large accumulation of the biopolymer. β-galactosidase assays allowed to confirm a change in the expression of ppk and ppx genes, in-volved in PolyP metabolism, in the phoU mutant. It was also evidenced that in the wild type strain, the ppk and ppx transcription does not respond to Pi or nitrogen starvation, and that these genes are highly expressed under conditions of normal growth. In addition, it was determined that ppk is co-transcribed with hemB, a gene involved in the synthesis of porphyrins, and they constitute therefore an operon. The pst operon was also examined. Was identified by northern blot the transcript of the first gene in the operon, pstS, which encodes a periplasmic protein. Also, a promoter was identified immediately upstream of phoU, the most distal gene in the operon, allowing its expression in normal conditions of bacterial growth. Finally, it was determined by EMSA that the two consensus sequences Pho box present in the pst operon are fully functional.
|
7 |
Studies of PhoU in Escherichia coli: Metal Binding, Dimerization,Protein/Protein Interactions, and a Signaling Complex ModelGardner, Stewart G 01 December 2014 (has links) (PDF)
Phosphate is an essential nutrient for all forms of life. Escherichia coli has a PhoR/PhoB two component regulatory system that controls the expression of various genes whose products allow the cell to thrive in low phosphate environments. The signaling mechanism of the PhoR/PhoB system has been studied and the phosphorylation cascade that controls gene expression is well understood. What is still unknown is how PhoR senses the phosphate level of the environment. The PstS, PstC, PstA, PstB, and PhoU proteins play a role in this signal sensing. This work confirms the hypothesis that the PstSCAB complex senses the environmental phosphate and that phosphate signal is passed through PhoU to PhoR. Further, this work characterizes residues important for interaction on PhoU and PhoR and identifies a structural model for interaction. This model points to a potential mechanism for PhoU mediated signaling to PhoR. We tested this model with direct coupling analysis and obtained further confirmation. Further use of these techniques may elucidate more of the interactions necessary for proper phosphate signaling.
|
Page generated in 0.0475 seconds