Global ETD Search

51	Historical Deposition and Microbial Redox Cycling of Mercury in Lake Sediments from the Hudson Bay Lowlands, Ontario, Canada Brazeau, Michelle January 2012 (has links) The repercussions of climate change are felt worldwide, but Arctic and subarctic regions, where climate warming is expected to be amplified, are especially vulnerable. An episode of mass fish mortality in the Sutton River in the Hudson Bay Lowlands (HBL) of Northern Ontario has elicited the interest of the scientific community. Several lakes were sampled over three years in an effort to better understand and document the changes that may be occurring in these lakes. This study uses sediment cores to assess the history of mercury (Hg) deposition and to assess changes occurring in autochthonous productivity in these lakes. Sediments deposited after the onset of the industrial revolution contained significantly higher concentrations of Hg, with the highest concentrations found in the most recently deposited sediments. Hg concentrations in these pristine lakes rival those of lakes in heavily urbanized areas, indicating that they are in fact subjected to atmospheric deposition of Hg. There was a large variation in [Hg] of the surface sediments of 13 lakes; underscoring the importance of in situ processes in the fate of atmospherically deposited Hg. Methylmercury (MeHg) concentrations were not correlated with total mercury concentrations (THg), demonstrating how THg is a poor predictor of MeHg; the bioaccumulative neurotoxic form of mercury. The S2 fraction of Rock-Eval® Pyrolysis, C:N ratios and ∂13C signatures were used as proxies of autochthonous carbon and all indicated that the lakes have become increasingly productive, presumably due to warmer water temperatures and longer ice-free seasons. Additionally, I use molecular techniques to detect and quantify the merA gene in the sediment; a proxy of bacterial mercury resistance involved in redox transformations. In Aquatuk, Hawley and North Raft Lakes, I observed a subsurface increase in merA genes in the sediment core, independently of a control gene and the [THg]. While I have not been able to explain the driving variables of this subsurface increase, I believe that the role of merA within remote lake sediments deserves further work. Lastly, microcosms were used to measure the production of volatile elemental mercury (Hg(0)) from surface sediments of Aquatuk Lake. I used a combination of analytical and molecular techniques to show that the production of Hg(0) is biogenic and tested the effect of nutrients, pH and ionic strength on the Hg(0) production rates. Ionic strength alone had the greatest impact on Hg(0) production rates, with increased Hg(0) production as ionic strength increases. mercury organic matter bacterial mercury resistance mer operon lake sediment Hudson Bay Lowlands
52	Bioinformatická analýza PHA syntáz u termofilních bakterií / Bioinformatic analysis of PHA synthases of thermophilic bacteria Brondová, Zuzana January 2021 (has links) The thesis deals with bioinformatics analysis, the aim of which was to find a suitable producer of PHA for new generation industrial biotechnologies from the collection of found thermophilic bacteria. Part of experiments was the finding of several thermophilic bacteria based on the similarity of the protein sequence of the phaC gene of the bacterium Cupriavidus necator. The next part of thesis was a literature search of the abilities of these thermophilic bacteria focused on culture conditions and the spectrum of usable substrates. Subsequently, five bacteria were selected for use in NGBI based on the information obtained. Freely available databases were used during the experimental work, and evolutionary analysis were performed in MEGA X and Operon-mapper. Rubrobacter xylanophilus with collection number DSM 9941 was selected from the collection of bacterial strains as the most promising PHA producer for NGIB. The high culture temperature of up to 70 ° C and a large amount of utilized carbohydrate substrates were considered decisive. An interesting result of the analysis was to find the gene sequences of two classes of PHA synthase – I. and III. class, as for a single bacterial strain from the entire collection. Additional genes linked to PHA metabolism were found in genome analysis.
53	Genomic Analysis of Pathogenicity Determinants in Mycobacterium kansasii Type I Guan, Qingtian 05 1900 (has links) Mycobacteria, a genus within Actinobacteria Phylum, are well known for two pathogens that cause human diseases: leprosy and tuberculosis. Other than the obligate human mycobacteria, there is a group of bacteria that are present in the environment and occasionally cause diseases in immunocompromised persons: the non-tuberculosis mycobacteria (NTM). Mycobacterium kansasii, which was first discovered in the Kansas state, is the main etiologic agent responsible for lung infections caused by NTM and raises attention because of its co-infection with human immunodeficiency virus (HIV). Five subspecies of M. kansasii (Type I-V) were described and only M. kansasii Type I is pathogenic to humans. M. kansasii is a Gram-positive bacteria that has a unique cell wall and secretion system, which is essential for its pathogenicity. We undertook a comparative genomics and transcriptomic approach to identify components of M. kansasii Type I pathogenicity. Our previous study showed that espA (ESX-1 essential protein) operon, a major component of the secretion system, is exclusively present in M. kansasii Type I. The purpose of this study was to test the functional role of the espA operon in pathogenicity and identify other components that may also be involved in pathogenicity. This study provides a new molecular diagnostic method for M. kansasii Type I infection using PCR (Polymerase Chain Reaction) technique to target the espAoperon. With detailed manual curation of the comparative genomics datasets, we found several genes exclusively present in M. kansasii Type I including ppsA/ppsC and whiB6, that we believe are involved, or have an effect on ESX-mediated secretion system. We have also highlighted, in our study, the differences in genetic components coding for the cell membrane composition between the five subspecies of M. kansasii. These results shed light on genetic components that are responsible for pathogenicity determinants in Type I M. kansasii and may help to design better control measures and rapid diagnostic tools for monitoring these group of pathogens. Mycobacteria M. Kansasii espA operon Pathogenic Determinants cell membrane Cell Wall
54	Metody charakterizace perzistentního stavu po působení vybraných antibiotik u Staphylococcus aureus / Methods for characterization of persistent state after exposure to selected antibiotics in Staphylococcus aureus Valtová, Aneta January 2020 (has links) Staphylococcus aureus is a opportunistic pathogen that can cause severe and chronic infections. The reason of the infections relapse is often the persistence. It is about adapting to stressful conditions by inducing a dormant state, which would allow bacteria to survive exposure to antibiotics and grow again after their elimination. Bacteria that persist in the patient acquire various adaptive mutations, which are transmited creating subpopulations that have a better ability to persist. The aim of this diploma thesis was to compare individual methods of persistent study that could be used in clinical practice in the future, and at the same time to try a closer molecular characterization of the persistent state with using methods for calculating gene expression. I had chronological isolates of Staphylococcus aureus at my disposal, the initial one being the primoisolate, an isolate taken at the diagnostics of cystic fibrosis before the start of antibiotic treatment. Another was taken at a distance of three-quarters of a year and the last with a half-year interval from the previous one. Following whole genome sequencing, genes in which adaptive mutations occurred were identified. The first method determines the degree of persistence by calculating CFU (Colony Forming Units) after antibiotic treatment....
55	Regulation, Evolution, and Properties of the ato Qperon and its Gene Products in Escherichia coli Chen, Chaw-Yuan 08 1900 (has links) The regulation of short chain fatty acid metabolism has been examined. Metabolism of acetoacetate, and short chain fatty acids such as butyrate and valerate, is predicated upon the expression of genes of the ato operon. Acetoacetate induces expression of a CoA transferase (encoded by the atoDA genes) and expression of a thiolase (encoded by the atoB gene). Metabolism of saturated short chain fatty acids requires the activities of the transferase and thiolase and enzymes of 6-oxidation as well. Spontaneous mutant strains were isolated that were either constitutive or that were inducible by valerate or butyrate instead of acetoacetate. Escherichia coli -- Genetics. Fatty acids -- Metabolism. short chain fatty acid metabolism ato operon
56	Hemin Utilization in Rhizobium leguminosarum ATCC 14479 Lusby, John 01 May 2021 (has links) Rhizobium leguminosarum is a Gram negative, motile, nitrogen-fixing soil bacterium. Due to the scarcity of iron in the soil bacteria have developed a wide range of iron scavenging systems. The two types of iron scavenging systems used are indirect and direct. In-silico analysis of the genome identified a unique direct iron scavenging system the Hmu operon. This system has been identified in other closely related rhizobium species and is believed to be involved in utilizing heme compounds as a sole source of iron. We have attempted to characterize the role of the Hmu operon in iron utilization by monitoring the growth of R. leguminosarum ATCC 14479 in hemin supplemented media. Growth curves show that it is capable of using hemin as a sole source of iron. The outer membrane profiles were analyzed for the presence of hemin binding proteins. Rhiszobium leguminosarum ATCC 14479 Hemin Hmu operon Iron uptake HWE sensor kinase Bacteria
57	Genetic Structure of the Bacteriophage P22 P<sub>L</sub> Operon: A Thesis Semerjian, Arlene 01 July 1989 (has links) The sequence of 1360 base pairs of the P22 PL operon was determined, linking a continuous sequence from PL through abc2. P22 mutants bearing deletions in the sequenced region were constructed and tested for their phenotypes. Plasmids were constructed to express PL operon genes singly and in combinations from PlacUV5. Two previously known genes, 17 and c3, are located within this sequence. In addition, three new genes have been identified: ral, kil and arf. Genes ral and c3 are homologous, as well as functionally analogous, to λ ral and cIII, respectively. P22 kil, like λ kil, kills the host cell when it is expressed. The two kil genes, although analogous in cell killing and map location, have no apparent sequence homology. The functions of the P22 and λ kil genes are unknown; however, P22 kil is essential for lytic growth in the absence of abc. Gene arf (accessory recombination function) is located just upstream of erf; it is essential for P22 growth in the absence of kil or other genes upstream in PL. The growth defect of P22 bearing a deletion that removes arf is complemented by expression of either arf or the λ red genes from plasmids. P22 sequences that include the stop codon for 17 potentially form a small stem-loop structure; these sequences are nearly identical to λ sequences that contain the stop codon for ssb. In λ this potential stem-loop structure occupies a map position near the terminator tL2b. Plasmids that include the potential P22 structure negatively regulate kil gene expression in cis. Bacteriophage P22 Genetic Code Operon Academic Dissertations Dissertations, UMMS Life Sciences Medicine and Health Sciences
58	Tn1 Insertions in the 3' Untranslated Region of the ant Operon of Bacteriophage P22 Affect ant Gene Expression and Alter ant mRNA Stability: a Thesis McMahan, Linda 01 September 1985 (has links) Insertion of transposable elements within an operon has been known not only to abolish expression of the gene interrupted by the insertion, but also to exert a strong polar effect on the expression of downstream genes in the same operon. In this dissertation, I have shown that insertions of the transposable ampicillin-resistance element Tn1, either in the polar or nonpolar orientation, in the 3' untranslated region of the bacteriophage P22 antirepressor (ant) operon reduce the rate of upstream ant gene expression; insertions of Tn1 in the nonpolar orientation reduce the rate of ant gene expression more significantly than those in the polar orientation. This effect appears to be due to reduced stability of ant mRNA. Tn1 deletion mutants of one of the nonpolar Tn1 insertion mutations have been isolated. Two classes of Tn1 deletions are obtained. Class I retains a 68 bp Tn1 sequence that shows a potential 14 bp stem and 37 bp loop conformation, while class II retains 147 bp Tn1 sequence that shows a potential 69 bp stem and 6 bp loop conformation. These two classes of Tn1 deletions do not delete any P22 sequences. Class I but not class II Tn1 deletion mutants restore the rate of ant gene expression and ant mRNA stability. Six different Ant+ revertants of the class II Tn1 deletion mutant simultaneously restore the rate of ant gene expression and ant mRNA stability. They all have deletions that remove all or part of the class II Tn1 sequence. In one case, the Tn1 sequence retained shows a potential 15 bp stem and 8 bp loop conformation, in the other cases, no secondary structure is predicted to form. The results of the Tn1 deletion mutants suggest that the stem-and-loop structures and the length of stems potentially formed by the Tn1 sequences in mRNA may affect its stability. Operon Gene Expression Regulation Repressor Proteins Viral Proteins Academic Dissertations Life Sciences Medicine and Health Sciences
59	Knockout of the <i>lacZ gene in Enterobacter </i> sp. YSU Ford, Kelsey L. 23 August 2018 (has links) No description available. Biology Genetics Microbiology Molecular Biology Beta-galactosidase lacZ Enterobacter lactose operon knockout Escherichia coli
60	Identification of Novel Protein Substrates and Chemical Inhibitors of the T3SA in Shigella Silué, Navoun 17 May 2023 (has links) Enteropathogenic bacteria, such as Shigella and Salmonella, are associated with diarrheal diseases, which remain a significant cause of infant mortality worldwide. The secretion of protein effectors by the type III secretion apparatus (T3SA) is used by these pathogens to invade human cells and modulate host cell functions. First, we used RNA-Seq to analyze the differential transcriptome of Shigella flexneri when the T3SA is active or inactive. This allowed us to identify two uncharacterized genes that were temporarily named gem1 and gem3 and whose expression was regulated by MxiE and IpgC as other late substrates of the T3SA. Finally, we pursued the characterization of gem1 and gem3 at the protein level and renamed them icaT and icaR, respectively, when we found their protein products were secreted by the T3SA. Furthermore, we find homologs of icaT and icaR with a conserved MxiE box in several E. coli phylogroups. We also demonstrated that these homologous genes could be reactivated when both MxiE and IpgC were introduced in these strains. This discovery paved a new perspective on the evolution of pathogenesis into the E. coli lineage as both commensal and pathogenic strains harbored these genes. Treating infections caused by Enterobacteriaceae is becoming more challenging due to growing antibiotic resistance and no vaccines are widely available. Accordingly, the World Health Organization (WHO) recognized that we entered the "post-antibiotic era," where new antibiotics or antivirulence drugs are urgently needed, including for Shigella. The T3SA is an attractive target for antivirulence drugs, which may become alternative to classical antibiotics. Through screening 3,000 compounds, we found two novel inhibitors of the T3SA. Our data suggested that one of these candidate inhibitors, a dipyridyl-containing compound, reduces the virulence of Shigella at the transcriptional level. Indeed, the virulence inhibition occurs via the repression of the transcriptional activator VirB by the small chromosomal RNA RyhB, which is upregulated by this compound through an unknown mechanism involving the pyridyl groups. The repression of VirB induced by this molecule reduce the expression of several genes encoding parts of the T3SA. In comparison, the second compound is a quinone that seems to affect the assembly of the T3SA. RNA-Seq Shigella T3SS T3SA pINV Small RNA RyhB Transcriptomics Operon icaR icaT

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