Global ETD Search

121	Promoter Deletion Analysis of Xylem Cysteine Protease 2 (XCP2) in Arabidopsis thaliana Petzold, Herman Earl III 01 June 2007 (has links) The process of xylem tracheary element differentiation involves the coordination of vascular cambium activity, cell fate determination, cell expansion/elongation, secondary wall synthesis, programmed cell death, and cellular autolysis. The end result of tracheary element differentiation is a cellular corpse lacking a protoplast and consisting of a thickened cell wall composed mostly of lignin and cellulose. Little is known about the genetic mechanisms regulating the process of tracheary element differentiation. XCP2 expression localizes to tracheary elements according to two independent methods of analysis: promoter reporter experiments and immunogold localization by electron microscopy. XCP2 may be involved in catalyzing the degeneration of the protoplast during the final autolytic stages of tracheary element differentiation. To this date XCP2 function has not been directly demonstrated. In principle, any tracheary element-specific markers can be linked to upstream regulatory genes with roles in tracheary element differentiation. To develop the XCP2 promoter as a tool for identification of transacting factors, a promoter deletion analysis was carried out. Utilizing information from 5â and 3â deletion constructs, a 70-bp region upstream of the XCP2 translational start site is both necessary and sufficient for TE-specific expression of the UidA reporter gene. Mutational analysis of the ACTTTA element at position -113-bp strongly suggests it is a cis element required for XCP2 expression. In silico analysis of an 18-bp promoter region located within 200-bp of the translation start site and including the ACTTTA element revealed high indentity shared between xylem-specific XCP2 homologs from Zinnia elegans, Populus trichocarpa, and XCP1 from Arabidopsis thaliana. / Master of Science tracheary element Arabidopsis thaliana cysteine protease promoter deletion xylem
122	Quantifying the Effects of Single Nucleotide Changes in the TATA Box of the Cauliflower Mosaic Virus 35S Promoter on Gene Expression in Arabidopsis thaliana Amack, Stephanie C. 12 1900 (has links) Synthetic biology is a rapidly growing field that aims to treat cellular biological networks in an analogous way to electrical circuits. However, the field of plant synthetic biology has not grown at the same pace as bacterial and yeast synthetic biology, leaving a dearth of characterized tools for the community. Due to the need for tools for the synthetic plant biologist, I have endeavored to create a library of well-characterized TATA box variants in the cauliflower mosaic virus (CaMV) 35S promoter using the standardized assembly method Golden Braid 2.0. I introduced single nucleotide changes in the TATA box of the CaMV 35S promoter, a genetic part widely used in plant gene expression studies and agricultural biotechnology. Using a dual-luciferase reporter system, I quantified the transcriptional strength of the altered TATA box sequences and compared to the wild-type sequence, both in transient protoplast assays and stable transgenic Arabidopsis thaliana plants. The library of TATA-box modified CaMV 35S promoters with varying transcriptional strengths created here can provide the plant synthetic biology community with a series of modular Golden Braid-adapted genetic parts that can be used dependably and reproducibly by researchers to fine-tune gene expression levels in complex, yet predictable, synthetic genetic circuits. synthetic biology 35S promoter Biology, Molecular Biology, Plant Physiology
123	Molecular breeding and biochemical characterization of an oleaginous fungus Mortierella alpina for prostaglandin F2α production / プロスタグランジンF2αの生産に向けた油糧糸状菌Mortierella alpinaの分子育種と生化学的解析 Mohd, Fazli Bin Farida Asras 25 March 2019 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第21821号 / 農博第2334号 / 新制\|\|農\|\|1067(附属図書館) / 学位論文\|\|H31\|\|N5193(農学部図書室) / 京都大学大学院農学研究科応用生命科学専攻 / (主査)教授小川順, 教授植田充美, 教授栗原達夫 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM Mortieralla alpina prostaglandin F2𝛼 cyclooxygenase particle gene bombardment SSA2 promoter pp3 promoter 610
124	Caractérisation génomique et développement d’outils de construction de clones infectieux pour l’étude de flexivirus / Genomic characterization and development of tools for the construction of infectious full-lngth cDNAs for the study of flexiviruses Youssef, Fater 21 December 2010 (has links) La famille des Flexiviridae a été créée en 2004 et regroupe plusieurs genres viraux affectant particulièrement des espèces ligneuses dont des arbres fruitiers. Grâce à diverses approches plusieurs nouveaux Flexiviridae ont été partiellement caractérisés au cours de ces dernières années. En revanche la position taxonomique précise de certains d’entre eux et leur contribution à des pathologies particulières restent encore incertaines du fait de difficultés inhérentes à l’étude de ces agents. Dans le présent travail, nous avons obtenu les séquences génomiques complètes pour quatre agents proches de l’Apricot latent virus. Ceci a permis de préciser l’organisation génomique de ces virus et d’en déterminer la position taxonomique. Cette étude a également permis de montrer que la partie C-terminale de la capside et la protéine TGBp1 sont soumises à une pression sélective particulièrement forte. Dans un second volet de ce travail, plusieurs approches permettant l’obtention simple et rapide d’ADNc infectieux, sous forme clonée ou non ont été développées. Travaillant sur plusieurs Flexiviridae, dont le virus des taches foliaires chlorotiques du pommier (Apple chlorotic leaf spot virus, ACLSV), nous avons mis au point l’amplification d’ADNc génomiques complets en une seule étape à partir d’extraits d’acides nucléiques totaux obtenus à partir de plantes infectées. Des amplifiats comportant l’ADNc viral sous le contrôle du promoteur 35S du CaMV ou du promoteur de la RNA polymérase du phage T7 ont été obtenus et utilisés pour infecter des plantes directement par biolistique (promoteur 35S) ou pour obtenir des ARN infectieux par transcription in vitro (promoteur T7). Ces données ont mis en évidence des différences importantes dans le comportement de deux hôtes de l’ACLSV, Chenopodium quinoa et Nicotiana occidentalis 37B. Nous avons également utilisé le système de recombinaison homologue de la levure Saccharomyces cerevisiae simplifier le clonage d’ADNc complets amplifiés par PCR ou pour réaliser en une seule étape la construction d’un vecteur navette ternaire levure-E. coli-A. tumefaciens et l’obtention d’un clone ADNc de l’ACLSV inoculable par agroinfiltration. Ces différentes stratégies devraient trouver une large application, en particulier pour tester plus rapidement des hypothèses d’étiologie pour les virus de plantes réputés "difficiles", tels que ceux infectant des hôtes ligneux. / The Flexiviridae family was created in 2004 and contains several viral genera affecting in particular woody hosts, including fruit trees. Using various strategies several new Flexiviridae have been partially characterized in the past few years. However, due to difficulties inherent in studying these agents, the precise taxonomic position of some of them and their contribution to particular diseases are still uncertain. In the present work, the complete genomic sequences of four Prunus-infecting Apricot latent virus (ApLV) like isolates have been determined. This has allowed to determine the genomic organization and the taxonomic position of these viruses. The results obtained also indicate that the C-terminal half of the coat protein and the TGBp1 are the genomic regions under the strongest purifying selection pressure. In the second part of this work, a set of approaches to simplify and streamline the construction of cloned or uncloned infectious full-length viral cDNAs were developed. working with several Flexiviridae and, in particular, with the Apple chlorotic leaf spot virus (ACLSV), we have developed protocols allowing the one-step amplification from total nucleic acids extracts of full-length cDNAs. under the control of the CaMV 35S or phage T7 RNA polymerase promoters. Successful inoculation of plants with these uncloned amplification products was obtained by biolistic bombardment (35S promoter) or using in vitro synthesized RNA transcripts (T7 promoter). Results obtained showed significant differences in the behavior of the two ACLSV hosts, Chenopodium quinoa and Nicotiana occidentalis 37B. We also used the yeast homologous recombination system for the efficient cloning of full-length cDNAs and for the simultaneous one-step construction of a ternary yeast-E. coli-Agrobacterium tumefaciens shuttle vector and generation of an agroinfiltrable infectious ACLSV construct. These various strategies should find broad applications, in particular for the validation of etiological hypotheses in the case of “difficult” plant viruses, such as those infecting woody hosts. Flexiviridae Apricot latent virus ADNc infectieux Promoteur 35S Promoteur T7 Recombinaison homologue Saccharomyces cerevisiae Infectious cDNA 35S promoter T7 promoter Homologous recombination
125	Plasticity of the phosphatidylcholine biogenesis in the obligate intracellular Parasite Toxoplasma gondii Sampels, Vera 28 March 2012 (has links) Der obligat intrazelluläre Parasit Toxoplasma gondii ist der Erreger der Toxoplasmose, und dient zugleich als wichtiger Modellorganismus für weitere Human- und Tierpathogene, wie z.B. Plasmodium oder Eimeria. Die Vermehrung von T. gondii erfordert eine effiziente Biosynthese von Phospholipiden für die Herstellung neuer Membranen, was durch die de novo Synthese durch den Parasiten, und/oder den Import von Lipiden aus der umgebenden Wirtszelle gewährleistet werden kann. Während der Parasit zahlreiche Möglichkeiten für Synthese oder Import von PtdEtn und PtdSer verwendet, scheint die Biosynthese des abundantesten Membranlipids PtdCho auschließlich über den CDP-Cholin Weg zu erfolgen. Dieser erstreckt sich in T. gondii über 3 zelluläre Kompartimente, mit einer cytosolischen Cholin-Kinase (TgCK), einer im Zellkern lokalisierenden Cholin-Cytidylyltransferase (TgCCT) und einer Cholin-Phosphotransferase (TgCPT) im ER. Anders als die substrat-spezifische Ethanolamin-Kinase (TgEK), kann TgCK neben Cholin außerdem Ethanolamin phosphorylieren. TgCK zeigt eine geringe Affinität zu Cholin (Km ~0.77 mM), während eine verkürzte TgCK (TgCKS), welcher eine als Signalpeptid vorhergesagte N-terminale Sequenz (20 Aminosäuren) fehlt, eine etwa 3-fach höhere Aktivität aufweist (Km ~0.26 mM). Während jedoch die Wildtyp-TgCK cytosolische Cluster in Toxoplasma bildet, zeigt die verkürzte TgCK eine gleichmäßigere cytosolische Lokalisierung. Wir schlussfolgern daraus, dass der hydrophobe N-Terminus nicht notwendig ist für eine funktionale TgCK, sondern eine strukturelle Funktion bei der Protein-Lokalisierung hat. Eine konitionelle Mutante, in welcher der TgCK Promoter gegen den Tetracyclin-regulierbaren Promoter pTetO7Sag4 ausgetauscht wurde (Deltatgcki), zeigt erstaunlicherweise normales Wachstum und PtdCho Biosynthese. Die TgCK Aktivität und die daraus resultierende PtdCho Synthese sind nur zu ~30% regulierbar. Unsere Ergebnisse deuten auf die Verwendung eines alternativen Startcodons bzw. Promoters hin, welcher zur Expression einer verkürzten (~53-kDa) aber vermutlich aktiven Cholin Kinase führt, wodurch der Verlust der TgCK (~70-kDa) kompensiert wird. Der konditionelle Knockout von TgCCT, dem regulatorischen Enzym des CDP-Cholin Wegs, hatte einen 50%igen Wachstumsdefekt zur Folge. Diese Studie zeigt eine erstaunliche Flexibilität des Parasiten bezüglich seiner Membranzusammensetzung, und bestätigt zugleich die Annahme, dass PtdCho nicht von der Wirtszelle importiert werden kann. Diese Anpassungsfähigkeit stellt einen möglichen Faktor dar, der es T. gondii erlaubt sich in einem breiten Spektrum von Wirten zu vermehren. / Toxoplasma gondii is an obligate intracellular apicomplexan parasite that causes life-threatening disease in neonates and in immunocompromised people. Successful replication of Toxoplasma requires substantial membrane biogenesis, which must be satisfied irrespective of the host-cell milieu. Like in other eukaryotes, the two most abundant phospholipids in the T. gondii membrane are phosphatidylcholine (PtdCho) and phosphatidylethanolamine (PtdEtn). Bioinformatics and precursor labeling analyses confirm their synthesis via the CDP-choline and CDP-ethanolamine pathway, respectively. This work shows that the 3-step CDP-choline pathway, involving the activities of TgCK, TgCCT and TgCPT, localizes to the cytosol, nucleus and ER membrane, respectively. The initial reaction is catalyzed by a dual-specificity choline kinase (TgCK, ~70-kDa), capable of phosphorylating choline as well as ethanolamine. The purified full-length TgCK displayed a low affinity for choline (Km ~0.77 mM). TgCK harbors a unique N-terminal hydrophobic peptide that is required for the formation of enzyme oligomers in the parasite cytosol but not for activity. The displacement of the TgCK promoter in a conditional mutant of T. gondii (deltatgcki) attenuated the enzyme expression by ~80%. Unexpectedly, the ?tgcki mutant was not impaired in intracellular growth, and exhibited a normal PtdCho biogenesis. To recompense for the loss of full-length TgCK, the mutant appears to make use of an alternative promoter and/or start codon, resulting in the expression of a shorter but active TgCK isoform identified by the anti-TgCK antiserum, which correlated with its persistent choline kinase activity. Accordingly, the ?tgcki showed an expected incorporation of choline into PtdCho, and susceptibility to dimethylethanolamine (a choline analog). Interestingly, the conditional mutant displayed a regular growth in off state despite a 25% decline in PtdCho content, which suggests a compositional flexibility in T. gondii membranes and insignificant salvage of host-derived PtdCho. The two-step conditional mutagenesis of TgCCT, which caused a reduced growth rate to about 50%, further substantiated this finding. The enzymatic activity of TgCCT and its role in PtdCho synthesis remain to be proven, however. Taken together, the results demonstrate that the CDP-route is likely essential in T. gondii. The competitive inhibition of choline kinase to block the parasite replication appears a potential therapeutic application.The work also reveals a remarkably adaptable membrane biogenesis in T. gondii, which may underly the evolution of Toxoplasma as a promiscuous pathogen. Metabolismus Toxoplasma gondii Membranebiogenese Phosphatidylcholine Kryptischer Promoter Phospholipid Biosynthese Metabolism Toxoplasma gondii Membrane biogenesis Phospatidylcholine Cryptic promoter Phospholipid Synthesis 570 Biowissenschaften, Biologie 32 Biologie YD 9487 ddc:570
126	Epidémiologie et régulation des intégrons de classe 1 chez Acinetobacter Baumannii / Epidemiology and regulation of class 1 integrons in Acinetobacter baumannii Couve-Deacon, Elodie 14 December 2017 (has links) Acinetobacter baumannii est un pathogène opportuniste qui prend une importance clinique croissante du fait de l’acquisition de multi-résistance. Nous avons étudié chez A. baumannii les caractéristiques et la régulation des intégrons de classe 1 (IM1) qui sont des systèmes génétiques favorisant l’acquisition, l’expression et la dissémination des gènes de résistance aux antibiotiques. Nous avons montré qu’il existe une prédominance des promoteurs des cassettes Pc fort in vivo dans une collection d’isolats cliniques et d’environnement hospitalier et in silico dans les IM1 chez A. baumannii. Nous avons aussi montré que l’expression des Pc chez A. baumannii est 4 fois plus faible que chez E. coli, quel que soit le variant de Pc. Deux explications sont possibles pour la sélection des Pc forts chez A. baumannii : (i) la nécessité d’avoir un niveau d’expression suffisant en clinique pour survivre à la pression de sélection antibiotique et (ii) la nécessité d’une régulation de l’expression de l’intégrase, représentant un coût biologique important. En effet, A. baumannii ne possède pas le système de répression par LexA existant chez E. coli. Nos résultats ouvrent le champ de l’étude de la régulation des IM1 chez A. baumannii et ainsi l’identification de nouvelles voies d’action pour lutter contre l’antibio-résistance / Acinetobacter baumannii is an opportunistic pathogen of increasing clinical importance due to the acquisition of multi-resistance. We studied in A. baumannii the characteristics and regulation of class 1 integrons (IM1), which are genetic systems that favor the acquisition, expression and dissemination of antibiotic resistance genes. We have shown that there is a predominance of strong Pc cassette promoters, in vivo, in a collection of clinical and hospital environment isolates, and in silico, from A. baumannii IM1 published in NCBI. We have also shown that the expression of Pc in A. baumannii is 4-fold lower than in E. coli, regardless of the Pc variant. Explanations that can be raised for the selection of strong Pc in A. baumannii are: (i) the need for a sufficient level of antibiotic resistance expression to survive the selection pressure in clinical environment; and (ii) the need for regulation of the integrase expression, which is of significant biological cost. Indeed A. baumannii does not have the LexA repression system existing in E. coli. Our results open the field of the study of IM1 regulation in A. baumannii and thus the identification of new pathways to fight antibiotic resistance. Acinetobacter baumannii Régulation Épidémiologie Antibiorésistance PcS Promoteur de l’intégrase Promoteur des cassettes IM1 Intégron E. coli Acinetobacter baumannii Regulation Epidemiology Antibiotic resistance PcS Integrase promoter Cassette promoter IM1 Integron E. coli 610
127	INVESTIGATING THE MECHANISM OF PROMOTER-SPECIFIC N-TERMINAL MUTANT HUNTINGTIN-MEDIATED TRANSCRIPTIONAL DYSREGULATION Hogel, Matthew 30 August 2011 (has links) Huntington’s disease (HD) is a neurodegenerative disorder caused by the inheritance of one mutant copy of the huntingtin gene. Mutant huntingtin protein (mHtt) contains an expanded polyglutamine repeat region near the N-terminus. Cleavage of mHtt releases an N-terminal fragment (N-mHtt) which translocates, and accumulates in the nucleus. Nuclear accumulation of N-mHtt has been directly associated with cellular toxicity. Decreased transcription is among the earliest detected changes that occur in the brains of HD patients and is consistently observed in all animal and cellular models of HD. Transcriptional dysregulation may trigger many of the perturbations that occur later in disease progression and an understanding of the effects of mHtt may lead to strategies to slow the progression of the disease. Current models of N-mHtt-mediated transcriptional dysregulation suggest that abnormal interactions between N-mHtt and transcription factors impair the ability of these transcription factors to associate at N-mHtt-affected promoters and properly regulate gene expression. We tested various aspects of these models using two N-mHtt-affected promoters in in vitro transcription assays and in two cell models of HD using techniques including overexpression of known N-mHtt-interacting transcription factors, chromatin immunoprecipitation, promoter deletion and mutation analyses and in vitro promoter binding assays. Based on our results and those in the literature, we proposed a new model of N-mHtt-mediated transcriptional dysregulation centered on the presence of N-mHtt at affected promoters. We concluded that simultaneous interaction of N-mHtt with multiple binding partners within the transcriptional machinery would explain the gene-specificity of N-mHtt-mediated transcriptional dysregulation, as well as the observation that some genes are affected early in disease progression while others are affected later. Our model explains why alleviating N-mHtt-mediated transcriptional dysregulation through overexpression of N-mHtt-interacting proteins has proven to be difficult and suggests that the most realistic strategy for restoring gene expression across the spectrum of N-mHtt affected genes is by reducing the amount of soluble nuclear N-mHtt. Huntington's Transcription Repression Huntingtin Polyglutamine Transcriptional Dysregulation in vitro transcription N548 ST14A Dual-luciferase assay Chromatin Immunoprecipitation Promoter Deletion Linker Scanning Mutagenesis Quantitative PCR Promoter binding assay TBP RAP30
128	Cloning, characterisation and sequencing of promoters of Helicobacter pylori 4187E Lloyd, Amanda Lian January 2005 (has links) Published information on the structure and regulation of H. pylori promoters is limited. The work presented in this thesis describes the cloning and characterisation of promoter regions from a clinical isolate of H. pylori, and the development of an alternative, non-radioactive method for verifying the location of transcriptional start sites of bacterial promoters. H. pylori 4187E promoters were randomly cloned into the promoter-trap vector pKK232-8 in Escherichia coli DH5α using two sets of restriction enzymes. Vector pKK232-8 contains a promoterless chloramphenicol acetyltransferase (CAT) gene. Seventy-four promoter-containing clones were isolated from selective media based on their resistance to chloramphenicol. The strength of each promoter was analysed qualitatively, using chloramphenicol minimum inhibitory concentrations, and quantitatively, using CAT assays following exposure of the clones to pH 4 and pH 7. Selected promoter fragments were subcloned into the GFP reporter vector pFPV25, containing a promoterless gfp gene. The subclones were exposed to buffered LB broth at pH 4, 5, 6, 7 and 8, for varying lengths of time, to study acid-induced regulation of gene expression. Subclones were examined qualitatively, using visual examination of GFP fluorescence and fluorescence microscopy, and quantitatively, using flow cytometry following acid shock. DNA sequences were determined for 61 of the 74 H. pylori promoters, and sequence alignments with the published H. pylori strains (26695 and J99) were performed. The transcriptional start site of 27 H. pylori promoter fragments was experimentally mapped using a fluorescence-based primer extension protocol developed by our group. Potential -35 and -10 sequences were identified for each promoter, and a new consensus sequence for H. pylori promoters was proposed based upon these results. This study has considerably expanded knowledge of H. pylori promoter sequences and transcriptional start sites based on those which also function in E. coli. It has also revealed several H. pylori promoters which appear to respond to acid stress Helicobacter pylori -- Microbiology Promoters (Genetics) Promoter characterisation Promoter-trap vector Flow cytometry Flourescent primer GFP Transcriptional start site Primer extension GeneScan FAM
129	Vlastnosti expresních vektorů pro Corynebacterium glutamicum a jejich využití při studiu faktorů sigma RNA polymerasy / Characteristics of expression vectors for Corynebacterium glutamicum and their use for studies of sigma factors of RNA polymerase Dvořáková, Pavla January 2017 (has links) The aim of the thesis was to characterize chosen expression vectors used in biotechnologically important bacterial species, Corynebacterium glutamicum, and to test their use in studies of promoter activity control by sigma factors of RNA polymerase. Different properties of these vectors (level of expression of the cloned gene, leaky expression without inducer, dependence of expression level on inducer concentration and cell population homogeneity) were found by determination of expression level of the model gfpuv gene by fluorescence intensity assay of the produced protein and by gfpuv-expressing C. glutamicum cell population analysis using flow cytometry. The vector pEC-XT99A was chosen for testing the bi-plasmid system for assignment of a sigma factor to the chosen promoter. Although the level of expression provided by pEC-XT99A was not high, the vector showed no leaky expression, expression from the vector was comparable for a wide range of IPTG concentrations and the cell population was homogenous concerning the gene expression. Using pEC-XT99A from which individual stress sig genes were expressed, the σD factor was clearly assigned to the up-to-now unknown Pcg0420 promoter. Another vector for isolation and purification of C. glutamicum proteins was used to express the C. glutamicum sigM gene and to...
130	Transcriptional analysis and promoter characterization of two differentially expressed outer membrane protein genes of Ehrlichia chaffeensis Peddireddi, Lalitha January 1900 (has links) Doctor of Philosophy / Department of Diagnostic Medicine/Pathobiology / Roman Reddy R. Ganta / Ehrlichia chaffeensis is a Gram negative, rickettsial organism responsible for human monocytic ehrlichiosis, an emerging disease in people. E. chaffeensis infection to a vertebrate host occurs when the pathogen is inoculated by an infected tick, Amblyomma americanum. White-tailed deer is a reservoir host for this pathogen. The strategies employed by E. chaffeensis in support of its dual host adaptation and persistence are not clear. One of the possible mechanisms by which the pathogen adapts and persists, is by altering its gene expression in response to its host cell environments. Recently, we reported that E. chaffeensis protein expression including that from a 28 kDa outer membrane protein multigene locus (p28-Omp), is influenced by macrophage and tick cell environments. E. chaffeensis expresses p28-Omp gene 14 product predominantly when it is grown in tick cells and p28-Omp gene 19 protein in macrophages. We hypothesize that E. chaffeensis achieves its host-specific gene expression by employing transcriptional regulation by sensing the host cell signals. In support of this hypothesis, transcriptional analysis of 14 and 19 genes was performed utilizing several RNA analysis methods. The results supported our hypothesis that the gene regulation occurs at mRNA level in a host cell-specific manner. This analysis also identified transcription start sites and located putative promoters for the p28-Omp genes 14 and 19. Promoter regions of genes 14 and 19 were mapped to identify gene-specific differences, RNA polymerase binding sequences and the putative regulatory elements that may influence the promoter activities. Electrophoretic mobility shift assays revealed interaction of E. chaffeensis proteins with gene 14 and 19 promoters. Several E. chaffeensis putative regulatory proteins were expressed as recombinants and their effects on a p28-Omp gene promoter activity were evaluated. In summary, we demonstrated that the differences in the E. chaffeensis p28-Omp genes 14 and 19 are the result of their regulation at transcriptional level in response to the host cell environment. We also identified RNA polymerase binding regions and several DNA sequences that influenced promoter activity. This is the first description of a transcriptional machinery of E. chaffeensis. The data from these studies provide important insights about molecular mechanisms of gene regulation in E. chaffeensis. Ehrlichia chaffeensis transcription outermembrane protein genes promoter Biology, Microbiology (0410) Biology, Molecular (0307)

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