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Development of a SERS Sandwich Assay Platform for Rapid Detection of BacteriaPearson, Brooke 11 July 2017 (has links)
The increased incidence of food pathogen outbreaks placed a new emphasis on the requirement of a rapid, sensitive, and reliable detection method for pathogens in food samples. Surface-enhanced Raman spectroscopy (SERS) is a technique that tremendously enhances the weak Raman scattering of an analyte by using a metallic nano-substrate. Herein, we developed an innovative SERS sandwich assay platform which is based on 3-mercaptophenylboronic acid (3-MPBA) or aptamer as a capturer, and 3-MPBA and silver nanoparticles (AgNPs) as the reporter for non-selective and selective detection of bacteria. Both optical and chemical (SERS mapping) imaging were used as mechanisms for bacterial detection and quantification. Using Salmonella enterica and Listeria monocytogenes as the model bacteria, we have identified a unique bacterial SERS signal upon the interaction between the captured bacteria, 3-MBPA and AgNPs, which was used as the base for reliable detection of bacteria using SERS mapping. The non-specific assay also possesses unique optical properties allowing for the enhanced visualization of bacteria at low microscope magnifications (10 and 20x objective lenses). Using 3-MBPA owe achieved sensitive detection and quantification of as low as 102 CFU/mL and a capture efficiency of 92.1% for nonselective detection of Salmonella. The capability of the assay method to detect specific bacteria using an aptamer was also demonstrated. Besides the SERS applications of this assay, it was discovered that the 3-MPBA coated gold chip developed for this assay enhances the visualization of bacteria under a light microscope allowing for facile and rapid detection and quantification. In anticipation for industrial applications, sample preparation methods and strategies were developed for simple and carbohydrate food matrices.
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Developing functional peptides as synthetic receptors, binders of protein and probes for bacteria detection:Wang, Wenjian January 2021 (has links)
Thesis advisor: Jianmin Gao / Thesis advisor: Eranthie Weerapana / Nature has developed a generous number of peptides carrying out various essential functions in all living organisms. Human body produces peptides as signaling molecules, such as hormones, to transmit messages from cell to cell and regulate metabolic homeostasis. Microbes synthesize peptides as antibiotics to inhibit the growth of other microorganisms. These peptides display an exceeding diversity of amino acid composition, peptide sequence, secondary structure and post-translational modification. Inspired by nature, researchers have developed peptides as a unique modality of therapeutics, combining the best attributes of small-molecule drugs and protein-based biopharmaceuticals. This work has sought to explore the potential of peptides as synthetic receptors, binders of protein and probes for bacteria detection. The research started from a foldable cyclic peptide scaffold, prolinomycin, a proline-rich analogue of valinomycin. The peptide can chelate a potassium ion folding into a drum like structure, which provides a platform to display and preoganize functional side chains for target binding. We first investigated its folding behavior under physiological conditions. We demonstrate that the metal-assisted folding of the prolinomycin scaffold tolerates various side chain mutations. The stability of the structure can be improved by introducing crosslinking moieties. Based on this scaffold, we rationally designed synthetic receptors of various amines by utilizing iminoboronate chemistry with acetylphenyl boronic acid (APBA).
Furthermore, I pursued phage display, a powerful technique to develop high affinity peptide binders of protein targets. Proteins are the most appealing targets for drug development and disease biomarkers discovery. We chose sortase A (SrtA) as a model target protein to screen for potent peptide binders. A peptide inhibitor of sortase A with single-digit micromolar affinity was identified from a cyclic peptide library displayed by phage. In addition, from the chemically modified phage display peptide library presenting APBA motifs, peptide binders with specificity and micromolar affinity towards SrtA were discovered. Instead of binding to the active site, the peptide could recognize the surface of the protein.
Additionally, to further expand the chemical space of phage display, I constructed a phage display peptide library presenting N-terminal cysteine (NCys) which can undergo site-specific chemical modifications. Two pieces of chemistry were applied, including thiazolidino boronate (Tzb) mediated acylation reaction of NCys and 2-cyanobenzothiazole (CBT)-NCys condensation. The site-specific dual modifications on NCys and internal Cys of phage-encoded peptides were achieved. Furthermore, a strategy to N, S-doubly label NCys via an alternative pathway of CBT condensation was reported, which presents a significant addition to the toolbox for site-specific protein modifications.
Finally, by functionalizing graphene field effect transistors (G-FET) with peptide probes, we developed the first selective, electrical detection of the pathogenic bacterial species Staphylococcus aureus and antibiotic resistant Acinetobacter baumannii on a single platform.
Overall, peptides provide enormous opportunities for therapeutics development. Research herein demonstrated principles of peptide design for specific molecular recognition. Novel chemistry strategies have been developed to expand the molecular diversity of peptide libraries. We believed that the advances in peptide design and screening would promote peptide-based drug discovery. / Thesis (PhD) — Boston College, 2021. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Chemistry.
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A METHOD OF DETECTING TOTAL VIABLE ORGANISMS IN WATER BASED ON SOLID-PHASE MICROEXTRACTION AND FLUORESCENT SIGNAL DETECTIONZhang, MORU 02 August 2013 (has links)
Microorganisms are monitored as a key indicator of water quality. Measurement of “total viable organisms” (TVO, similar to “heterotrophic plate count”, HPC) is used to indicate the general hygiene level of the water, and is often used to assess water treatment. Automated, instrumental TVO detection in water samples using an enzyme reaction method shortens the detection time compared to conventional HPC methods. A method that can detect TVO without interference in water samples by monitoring enzyme activities through fluorescent signals in small custom sample cells was developed.
In this method, fluorogenic substrates were cleaved by specific enzymes to make fluorescent products, which then partitioned into a non-polar siloxane polymer film on the bottom of the sample cell. A miniature spectrometer monitored fluorescence in the polymer to give a present/absent result for bacteria. There is no interference from sample color and turbidity because the light never passes through the sample matrix.
Eight substrates that can be converted by six different enzymes were characterized. These had fluorescent products coupled to glucose, glucuronic acid, galactose, phosphate, sulfate and alanine. Four different products were produced, providing detection of some enzymes simultaneously but independently, depending on the substrates chosen. Candidate fluorescent products were first tested with different siloxane polymers and two dimethyl-siloxane polymers were identified to detect all the products separately.
Fifteen laboratory bacteria strains (including E. coli, Klebsiella pneumonia, and Pseudomonas aeruginosa) were added individually to a substrate solution containing minimal nutrients and incubated. All bacteria types were successfully detected by at least one substrate, with most detected by several substrates.
Sterility of water samples from lake water, treated lake water and tap water were tested with those eight substrates separately or in combination. The lake water had the highest bacteria level and included coliforms and possibly E. coli. Treated lake water and tap water were E. coli and coliforms free, and were safe for drinking. Treated lake water had higher TVO levels than tap water, indicating a lower hygiene level. The results of combined substrate tests matched the corresponding single substrate tests, suggesting specific bacteria strains can be distinguished in a single test. / Thesis (Master, Chemistry) -- Queen's University, 2013-08-01 18:03:54.111
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Development of a quantum dot based strategy for Gram-specific bacteria differentiationJahnsen, Ann-Lena January 2016 (has links)
Abstract Time-consuming diagnosis of bacterial blood stream infections and inappropriate antibiotic therapy have critical implications for patient outcome – with mortality figures rising for every hour of delayed treatment. The development of diagnostic methods that are capable of selective and rapid bacteria detection, and do not rely on preliminary blood culturing and Gram-staining procedures, is imperative in providing effective therapy and preventing multi-resistance. The aim of this dissertation was to develop a quantum dot based and Gram-specific bacteria labelling protocol. Focused on the detection of Gram-negative species, a two-step conjugation protocol was produced to functionalise quantum dots with anti-lipid A antibodies. Ionic adsorption and EDC chemistry were used to obtain oriented and covalent conjugation of antibodies to the quantum dot surface. In order to reduce non-specific binding of unreacted carboxylic groups on the conjugates to the bacterial membrane, and optimise the accuracy of detection, blocking experiments were conducted with molecules that could provide a neutral surface charge and sterically block open sites. To access lipid A on E. coli cells, three different antigen retrieval methods were tested. As a result, the developed quantum dot-anti lipid A conjugates were able to detect and specifically label Gram-negative E. coli cells after treatment with 0.6mM EDTA or acetic acid pH 3.58 at 42.5°C. 1% BSA reduced non-specific binding to untreated E. coli cells. Furthermore, in comparison to experiments performed with Tris as a blocking agent, the protein reduced non-specific binding to Gram-positive cells. The results obtained in this project are a step further in the development of a new method to rapidly detect bacteria Gram-specifically.
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Characterization of Optically Active BiopolymersFiester, Steven E. 08 April 2011 (has links)
No description available.
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Forensic and Proteomic Applications of Thermal Desorption Ion Mobility Spectrometry and Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass SpectrometryOchoa, Mariela L. 19 April 2005 (has links)
No description available.
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IMMOBILIZATION AND CHARACTERIZATION OF FLEXIBLE DNAzyme-BASED BIOSENSORS FOR ON-THE SHELF FOOD MONITORINGYousefi, Hanie 11 1900 (has links)
While the Canadian food supply is among the healthiest in the world, almost 4 million (1
in 8) Canadians are affected by food-borne illnesses, resulting in 11,600 hospitalizations
and 238 deaths per year. Microbial pathogens are one of the major causes of foodborne
sicknesses that can grow in food before or following packaging. Food distribution is an
important part of the food processing chain, in which food supplies are at a higher risk of
contamination due to lack of proper monitoring. Among myriad of research around
biosensors, current devices focusing on packaged food monitoring, such as leakage
indicators or time temperature sensors are not efficient for real-time food monitoring
without separating the sample from the stock. Packaged food such as meat and juice are
directly in touch with the surface of their containers or covers. Therefore, real-time sensing
mechanisms, installed inside the food packaging and capable of tracing the presence of
pathogens, are of great interest to ensure food safety. This work involves developing thin,
transparent, flexible and durable sensing surfaces using DNA biosensors, which report the
presence of a target bacterium in food or water samples by generating a fluorescence signal
that can be detected by simple fluorescence detecting devices. The covalently-attached
DNA probes generate the signal upon contact with the target bacteria with as low as 103
CFU/mL of Escherichia coli in meat and apple juice. The fabricated sensing surfaces
remained stable up to several days under varying pH conditions (pH 5 to 9). In addition to
detecting pathogens on packaged food or drinking bottles, these surfaces have the potential
to be used for a variety of other applications in health care settings, environmental
monitoring, food production chain, and biomaterials like wound dressing. / Thesis / Master of Science (MSc) / Microbial pathogens can grow in food following packaging and preceding consumption.
Current biosensors are not efficient for post-packaging real-time food monitoring without
separating the sample from the stock. Packaged food such as meat and juice are directly in
touch with the surface of their containers or covers. Therefore, real-time sensing
mechanisms, installed inside the food packaging, tracing the presence of pathogens, are
much useful to ensure the food safety. Here we report on developing thin, transparent,
flexible and durable sensing surfaces using DNA biosensors, which generate a fluorescence
signal in the presence of a target bacterium in food or water samples. The covalentlyattached
DNA probes can detect as low as 103 CFU/mL of Escherichia coli in meat, sliced
apple and apple juice. The fabricated sensing surfaces remained stable up to several days
under varying pH conditions (pH 5 to 9). In addition to pathogen monitoring in packaged
food or drinking bottles, these surfaces are promising for a variety of other applications in
health care settings, environmental monitoring, and biomaterials like wound dressing.
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Isothermal Micro(bio-)calorimetry - Method Optimization and Instrument Development for a Rapid and Reliable Detection of BacteriaFricke, Christian 30 November 2021 (has links)
Early detection of pathogenic bacteria in food, drinking water and medicine products is one of the essential tasks of routine microbiological analysis. Through analytics, outbreaks can be discovered and consequently, countermeasures can be initiated to minimize health and economic damage. Cultivation of pathogens from contaminated specimens is routinely performed in microbiological laboratories worldwide. The procedure is easy to perform, requires little equipment and provides simple quantitative data in colony-forming units (CFUs) per sample volume. Only the time between preparation and confirmation of a positive (contaminated) sample usually extends over several days. The desired goal should be a technique that can retain the simplicity of cultivation while providing real-time information about the sample under investigation for early detection of potential contamination. Therefore,
in the framework of this thesis, systematic heat flow measurements were performed on two model strains, Lactobacillus plantarum DSM 20205 and Pseudomonas putida mt-2 KT2440. The influence of cultivation techniques (in liquid, on solid and membrane filter placed onto solid medium) in static ampoule systems on calorimetric detection was investigated. In particular, the effect of contamination level (initial bacterial cell number), substrate amount (nutrients and oxygen), and detection limits were systematically evaluated. In addition, microcalorimetric measurements of Legionella pneumophila ATCC 33152, a waterborne pathogen, were conducted for the first time. Heat flow profiles demonstrated that high contamination levels (> 1000 CFU) were detected within 24 h. Compared to detection times of up to 10 days by ISO 11731:2017, calorimetric detection can serve as an early warning system.
With this knowledge, a uniquely manufactured micro(bio-)calorimetric test system was designed to meet the requirements for detecting bacterial contaminations. In particular, the sample vessel geometry and the operating temperature perfectly matched the microbiological analysis. Within this development work, numerical models were established to investigate the temperature distribution of
selected compounds as well as the complete calorimetric system. Based on these models, modifications to the test system were numerically simulated in advance to improve the instrument's performance stepwise. This thesis presents the methodological principles and a calorimetric test system designed as an early warning and detection tool for microbiological samples.
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Detecção e identificação de Xanthomonas citri subsp. malvacearum em sementes de algodoeiro por meio de técnicas moleculares / Detection and identification of Xanthomonas citri subsp. malvacearum on cotton seeds by means of molecular techniquesDenise Moedim Balani 09 February 2010 (has links)
Xanthomonas citri subsp. malvacearum é o agente causal da mancha angular do algodoeiro, uma importante doença reportada em áreas de produção no Brasil e em todo o mundo. A partir da análise comparativa de sequências parciais do gene rpoB de linhagens de X. citri subsp. malvacearum, X. campestris pv. campestris, X. axonopodis pv. axonopodis e X. citri subsp. citri, desenhou-se o par de primers xam1R/2R. Foram testadas 19 espécies pertencentes ao gênero Xanthomonas, além de bactérias dos gêneros Acidovorax, Burkholderia, Erwinia, Pseudomonas e Ralstonia, e o produto de PCR específico de aproximadamente 560 pares de bases foi observado apenas para linhagens de X. citri subsp. malvacearum. Os primers desenhados mostraram-se altamente sensíveis, apresentando níveis de detecção de 8 ufc/ 5,0 L para suspensões da cultura pura da bactéria e 1,0 ng de DNA genômico de X. citri subsp. malvacearum. No isolamento, a partir de amostras de sementes sabidamente contaminadas, foram obtidas colônias bacterianas com características de morfologia e coloração semelhantes à X. citri subsp. malvacearum. Esses isolados foram submetidos a testes de coloração de Gram, hidrólise de amido, reação de hipersensibilidade (HR) em folhas de fumo e tomateiro, testes de patogenicidade em plantas de algodoeiro, amplificação com os primers específicos desenhados e sequenciamento do fragmento obtido e os resultados obtidos confirmaram a identificação dos mesmos como X. citri subsp. malvacearum. Experimentos combinados de BIO-PCR/nested-PCR foram realizados a partir do material obtido do processo de extração do patógeno das sementes contaminadas utilizando-se na primeira etapa de amplificação os primers correspondentes à parte do gene rpoB e na segunda etapa o produto da primeira amplificação e os primers específicos xam1F/2R. O resultado foi a observação de uma banda de aproximadamente 560 pb correspondente ao fragmento específico de X. citri subsp. malvacearum para todas as amostras testadas. Neste trabalho foi desenvolvido um teste de PCR específico para a detecção e identificação rápida e precisa dessa bactéria em amostras de sementes de algodoeiro. / Xanthomonas citri subsp. malvacearum is the causal agent of angular leaf spot of cotton an important disease reported in production areas in Brazil and worldwide. From the comparative analysis of partial rpoB gene sequences of X. citri subsp. malvacearum, X. campestris pv. campestris, X. axonopodis pv. axonopodis and X. citri subsp. citri strains, the pair of primers xam1F/2R was designed. Nineteen species of the genus Xanthomonas and isolates of the genera Acidovorax, Burkholderia, Erwinia, Pseudomonas and Ralstonia were tested and the specific PCR product of about 560 base pairs was observed only for strains of X. citri subsp. malvacearum. The primers were highly sensitive, with detection levels of 8 cfu/ 5.0 L for suspensions of pure culture of bacteria and 1.0 ng of genomic DNA of X. citri subsp. malvacearum. From contaminated seed samples, bacterial colonies were obtained with characteristic morphology and coloration similar to X. citri subsp. malvacearum. These isolates were tested for Gram stain, starch hydrolysis, hypersensitivity reaction (HR) on tobacco and tomato leaves, pathogenicity tests on cotton plants, amplification with the specific primers designed and sequencing of the fragment obtained. The results confirmed their identification as X. citri subsp. malvacearum. PCR experiments in combination of BIOPCR/ nested-PCR were performed with the material obtained from the extraction process of pathogen from seeds using in the first step of amplification primers corresponding to part of the rpoB gene and the second step the product of the first amplification and the specific primers xam1F/2R. The result was a band of approximately 560 bp corresponding to the specific fragment of X. citri subsp. malvacearum for all samples tested. In this work, a PCR test for the quick detection and accurate identification of this bacterium in seed samples of cotton were developed.
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Detecção e identificação de Xanthomonas citri subsp. malvacearum em sementes de algodoeiro por meio de técnicas moleculares / Detection and identification of Xanthomonas citri subsp. malvacearum on cotton seeds by means of molecular techniquesBalani, Denise Moedim 09 February 2010 (has links)
Xanthomonas citri subsp. malvacearum é o agente causal da mancha angular do algodoeiro, uma importante doença reportada em áreas de produção no Brasil e em todo o mundo. A partir da análise comparativa de sequências parciais do gene rpoB de linhagens de X. citri subsp. malvacearum, X. campestris pv. campestris, X. axonopodis pv. axonopodis e X. citri subsp. citri, desenhou-se o par de primers xam1R/2R. Foram testadas 19 espécies pertencentes ao gênero Xanthomonas, além de bactérias dos gêneros Acidovorax, Burkholderia, Erwinia, Pseudomonas e Ralstonia, e o produto de PCR específico de aproximadamente 560 pares de bases foi observado apenas para linhagens de X. citri subsp. malvacearum. Os primers desenhados mostraram-se altamente sensíveis, apresentando níveis de detecção de 8 ufc/ 5,0 L para suspensões da cultura pura da bactéria e 1,0 ng de DNA genômico de X. citri subsp. malvacearum. No isolamento, a partir de amostras de sementes sabidamente contaminadas, foram obtidas colônias bacterianas com características de morfologia e coloração semelhantes à X. citri subsp. malvacearum. Esses isolados foram submetidos a testes de coloração de Gram, hidrólise de amido, reação de hipersensibilidade (HR) em folhas de fumo e tomateiro, testes de patogenicidade em plantas de algodoeiro, amplificação com os primers específicos desenhados e sequenciamento do fragmento obtido e os resultados obtidos confirmaram a identificação dos mesmos como X. citri subsp. malvacearum. Experimentos combinados de BIO-PCR/nested-PCR foram realizados a partir do material obtido do processo de extração do patógeno das sementes contaminadas utilizando-se na primeira etapa de amplificação os primers correspondentes à parte do gene rpoB e na segunda etapa o produto da primeira amplificação e os primers específicos xam1F/2R. O resultado foi a observação de uma banda de aproximadamente 560 pb correspondente ao fragmento específico de X. citri subsp. malvacearum para todas as amostras testadas. Neste trabalho foi desenvolvido um teste de PCR específico para a detecção e identificação rápida e precisa dessa bactéria em amostras de sementes de algodoeiro. / Xanthomonas citri subsp. malvacearum is the causal agent of angular leaf spot of cotton an important disease reported in production areas in Brazil and worldwide. From the comparative analysis of partial rpoB gene sequences of X. citri subsp. malvacearum, X. campestris pv. campestris, X. axonopodis pv. axonopodis and X. citri subsp. citri strains, the pair of primers xam1F/2R was designed. Nineteen species of the genus Xanthomonas and isolates of the genera Acidovorax, Burkholderia, Erwinia, Pseudomonas and Ralstonia were tested and the specific PCR product of about 560 base pairs was observed only for strains of X. citri subsp. malvacearum. The primers were highly sensitive, with detection levels of 8 cfu/ 5.0 L for suspensions of pure culture of bacteria and 1.0 ng of genomic DNA of X. citri subsp. malvacearum. From contaminated seed samples, bacterial colonies were obtained with characteristic morphology and coloration similar to X. citri subsp. malvacearum. These isolates were tested for Gram stain, starch hydrolysis, hypersensitivity reaction (HR) on tobacco and tomato leaves, pathogenicity tests on cotton plants, amplification with the specific primers designed and sequencing of the fragment obtained. The results confirmed their identification as X. citri subsp. malvacearum. PCR experiments in combination of BIOPCR/ nested-PCR were performed with the material obtained from the extraction process of pathogen from seeds using in the first step of amplification primers corresponding to part of the rpoB gene and the second step the product of the first amplification and the specific primers xam1F/2R. The result was a band of approximately 560 bp corresponding to the specific fragment of X. citri subsp. malvacearum for all samples tested. In this work, a PCR test for the quick detection and accurate identification of this bacterium in seed samples of cotton were developed.
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