Global ETD Search

51	Développement de méthodes d'analyse de l'ADN par clivage d'une chimère ARN/ADN et par spectrométrie de masse MALDI-TOF Mauger, Florence 10 July 2012 (has links) (PDF) Depuis le séquençage complet du génome humain, la génomique se focalise sur la détection des modifications de l'ADN des gènes potentiellement impliqués dans les maladies humaines. Les modifications de l'ADN sont au niveau de la séquence ou épigénétique. Ces polymorphismes, fréquents, rares, connus ou inconnus, peuvent être identifiés par le développement de nouvelles méthodes de séquençage de l'ADN pour chaque individu. Ce projet a pour but le développement de méthodes d'analyse de l'ADN par clivage d'une chimère ARN/ADN et par MALDI-TOF MS. Elle repose sur l'utilisation d'une nouvelle classe d'ADN polymérases qui peut incorporer également des ribonucléotides. La chimère ARN/ADN, simple ou double brin, contient trois bases désoxynucléotides et une quatrième base sous sa forme ribonucléotide. Elle est ensuite clivée après chaque ribonucléotide par l'hydroxyde de sodium. Les fragments de clivage se terminent par un ribonucléotide qui possède un groupement 3'- phosphate terminal. Ils sont dessalés par des billes échangeuses de cation et leurs masses sont analysées par MALDI-TOF MS. La comparaison des masses de l'individu avec celles de la séquence de référence est significative d'un changement dans la séquence d'ADN. Les fragmentations en phase gazeuse de la chimère d'ARN/ADN ont également été étudiées. Cette méthode est adaptée pour l'étude d'un grand nombre d'individus dans une région limitée du génome grâce à la capacité haut-débit du MALDI-TOF MS. Cette méthode, rapide et efficace, possède de nombreuses applications tel que: le génotypage, le génotypage allèle-spécifique en multiplex, le microhaplotypage en multiplex, l'analyse de la méthylation de l'ADN et le séquençage [SDV:GEN] Life Sciences/Genetics ADN Séquence Méthode Chimère ARN/ADN Clivage MALDI-TOF MS
52	Using mass spectrometry to rapidly detect triglycerides in plasma and glycosylated hemoglobin in whole blood Kuo, Shih-chieh 30 August 2011 (has links) Due to the technology development, the diet habit has completely changed. It accompanied by the metabolite diseases relevant to blood glucose and lipids, which are dependent with the atherosclerosis and cardiovascular disease. In this study, we using matrix assisted laser desorption ionization time of flight mass spectrometry (MALDI-TOF/MS) to characterize triglycerides in human plasma. In the other, the glycosylated hemoglobin in human whole blood was detected by liquid electrospray laser desorption ionization (Liquid ELDI/MS). Triglycerides are energy source (9 kcal/g) in human body, derived from glycerol and three fatty acids. It is a main constituent of vegetable oil and animal fats. In clinical diagnosis, human plasma was mixed with triglyceride Kit to react to the final 520 nm UV-absorbing substance, then the concentration was quantified consistent with the calibration line by UV/Visible spectrometry. By the way, it needed Kit chemicals for one trial. MALDI-TOF/MS is a simple and easy method to operate to detect complex compounds in human plasma, only need to optimize the parameters (solvent collection, sample dilution, matrix selection, sample pretreatment ) to form a homogeneous crystals. The developed ¡§seed layer¡¨ method can reduce the sweet spot effect and cause a lower with-in spot variation (RSD < 20%) compared to ¡§premix¡¨ method (RSD >30%). Combined with statistic software 2D peak distribution, a semi-quantification can be observe of 24 different triglyceride concentration human plasmas. The level of glycosylated hemoglobin (HbA1c) in whole blood is currently the most important measurement of long-term control of the glycemic state of diabetes. As a result of the interferences of high concentrations of metabolites, proteins and salts in whole blood, tedious sample cleanup procedures must be performed prior to subjecting the sample solutions to conventional LC/MS and MALDI analyses for the detection of HbA1c. Electrospray laser desorption ionization mass spectrometry (ELDI/MS), a two-step ambient ionization technique, has been developed to characterize analytes directly from the liquid sample surface. One drop of the diluted hole blood (1/10, v/v in water) was placed on the stainless steel plate. The sample droplet was irradiated with a pulse laser, the desorbed analytes were post-ionized in an electrospray (ESI) plume (ESI solution: 70% methanol in water, 0.1% acetic acid), and the analyte ions were detected by a ion trap mass analyzer. Through this study, the protocol for efficiently characterizing HbA1c present in a drop of diluted whole blood with ELDI/MS was established. We successfully detected the ion signal of HbA1c with ELDI/MS. Quantification of the level of HbA1c in the whole blood of diabetic patients was achieved by calculating the ratio of the ion peak area of the glycosylated and non-glycosylated hemoglobin ions. A linear relationship exists for the quantitative results of HbA1c in whole blood of 20 diabetic patients obtained between ELDI/MS and that through conventional spectroscopic measurement. 2D peak distribution ELDI/MS Seed layer method glycosylated hemoglobin (HbA1c) MALDI-TOF/MS Triglyceride
53	Characterization of the toxicity of Helicobacter pylori clinical isolates and the biomarker in the stools of gastric cancer patients using MALDI-TOF/MS and multivariate analysis Leung, Yun-Shiuan 06 August 2012 (has links) Chapter 1. Deciphering the toxicity of Helicobacter pylori clinical isolates from gastric diseases patients using MALDI-TOF/MS and multivariate analysis. Helicobacter pylori (H. pyloyi) infection is associated with gastric diseases such as gastric polyp, chronic gastritis, gastric ulcer, gastric cancer, etc. In fact, most of the people infected not have the symptoms of gastric diseases due to the high degree of variability of gene with H. pyloyi and the specific immune responses of the hosts. In order to investigate the relationship between H.pylori and gastric diseases, the clinical strains of H. pylori isolated from patients from nine gastric diseases were extracted from the optimized extraction and analysis by MALDI-TOF/MS, then the high reproducible spectra were combined with multivariate statistical analysis including Principal Component Analysis (PCA), Hierarchical Cluster Analysis (HCA), Discriminant Analysis (DA) . In the result of PCA, there is no specific potential marker to discriminate the clinical strains to nine gastric diseases. In the result of HCA, the strains from different gastric diseases were clustered together means they have the similarity of the protein and metabolite. In the result of DA, the strains from gastric and non-gastric cancer were discriminanted by the discriminant function composed of thirty-eight discriminant variables in the spectra. This discriminant function would be confirmed by other clinical strains isolated from gastric diseases patients in the future and then would help to predict the the similarity of the protein and metabolite of the strains isolated from the gastric diseases patients whether gastric cancer or not. Chapter 2. Biomarker discovery in the stools of gastric cancer patients using MALDI-TOF/MS. According to the statistics of Republic 100 years from the Department of Health, cancer was the first of the ten lesding to death. With the modern change of eatiog habbits, gastrointestinal cancer has increased steadily. Gastrointestinal cancer accompanied occult gastrointestinal bleeding, and it is commonly detected by the fecal occult blood test (FOB). FOB including Guaiac-based fecal occult-blood test and immunochemical tests. Guaiac-based fecal occult-blood tests make use of the pseudoperoxidase activity of heme, and the reagent turns blue after oxidation by oxidants or peroxidases in the presence of an oxygen donor such as hydrogen peroxide, so it would have the potential of false-positive result. Immunochemical tests, which use antibodies detect against human hemoglobin with great sensitivity, but the tests are limited by loss of hemoglobin antigenicity at room temperature and require processing in a laboratory. In order to decrease the false-positive of detecting heme and decreasing the cost of the detection against hemoglobin in stools, in the study, we ues the distill water to extract the heme (m/z 616) and hemoglobin in stools and analysis with the reflectron and linear mode of MALDI-TOF/MS. In this study, at first, we used the stimulated stomach acid decomposing the hemoglobin to release the heme, to stimulate the gastrointestinal bleeding. Second, we used the distill water to extract the hemoglobin in stools, and detected by the linear mode of MALDI-TOF/MS, and the detection limit of MALDI-TOF/MS against hemoglobin in stool was better than the immunochemical tests. Third, the same strategy was applied to fifty-nine patients (including nineteen esophageal cancer patients, twenty gastric cancer patients and colorectal cancer patients) stools to detect heme and hemoglobin by MALDI-TOF/MS and the results were compared with the fecal occult blood test. In the detection of heme, MALDI-TOF/MS had not detect heme, but the Guaiac-based fecal occult-blood test had detected, it would be that the stools had the oxidants (not heme) to react the reagent. In addition, MALDI-TOF/MS had detected heme, but the Guaiac-based fecal occult-blood test had no results, those cases would be catched up in the future. In the detection of hemoglobin, using immunochemical tests to be the reference index, MALDI-TOF/MS had the false-negative result might come from the complicated matrix effect of stools, so that the hemoglobin could not form the good crystalline with matrix CHCA. The false-positive results of MALDI-TOF/MS might come from the criteria of hemoglobin signal. hemoglobin heme fecal occult blood test upper gastrointestinal bleeding Discriminant Analysis MALDI-TOF/MS Helicobacter pylori
54	Towards Whole Cell Immunoproteome And Subproteomes Of Bordetella Pertussis Tefon, Burcu Emine 01 February 2012 (has links) (PDF) Bordetella pertussis is a gram-negative, human pathogen and etiologic agent of whooping cough (pertussis), a highly contagious, acute respiratory illness. In this study, the analysis of whole immunproteome and subproteomes of this microorganism was performed. The soluble cytoplasmic proteomes of B. pertussis Tohama I strain and a local isolate Saadet were separated by 2DE. By Western blot analysis, we identified 25 immunogenic proteins of three categories. In the first group, there were well-known proteins of the pathogen The second group comprised proteins which were already shown antigenic in certain pathogenic bacteria, but not in B. pertussis before. The third group of proteins were those which have not been shown to be immunogenic in any pathogen till the present study such as putative chromosome partition protein, preprotein translocase SecA subunit, carbamoyl-phosphate synthase large chain, PRP synthase, putative substrate-CoA ligase, lysyl-tRNA synthetase, fumaryl acetoacetase, putative peptidyl-prolyl cis-trans isomerase, aspartate-semialdehyde dehydrogenase, putative DNA-binding protein and a putative outer membrane protein. In our surfaceome study, surface proteins of two strains were identified by 2DE followed by MALDI-TOF-MS/MS analysis and also geLC-MS/MS. With these techniques 45 proteins were identified by 2DE and 226 proteins by geLC-MS/MS. The immunogenicity of surface proteins on 2DE gels were analyzed by Western blotting and among 11 identified immunogenic proteins glutamine-binding periplasmic protein, leu/ile/val-binding protein, one putative exported protein, and iron-superoxide dismutase were found to be immunogenic for the first time in Bordetella. It was also found that 16 proteins were differentially expressed in B. pertussis Saadet and Tohama I. Five proteins were expressed only in Saadet (adhesin, chaperone protein DnaJ, fimbrial protein FimX, putative secreted protein Bsp22 and putative universal stress protein), and two (ABC transporter substrate-binding protein and a putative binding protein-dependent transport periplasmic protein) only in Tohama I. In the secretome study, we identified 40 proteins by 2DE and 357 proteins by geLC-MS/MS. It was found that 12 proteins were immunogenic by Western blot analysis and the immunogenicity of putative secreted protein (BP1047) was shown for the first time in this study. In our study, PT subunit 2 and putative outer protein D (BopD) were more abundant in Saadet while one protein, glutamate synthase subunit beta was expressed at a higher level in Tohama I. Four proteins were expressed only in Saadet (two capsular polysaccharide biosynthesis protein, protein FimX and putative outer membrane permeability protein). The present study comprehensively covered almost the entire proteome of a crucial pathogen, demonstrated many novel antigens and identified hundreds of membrane-bound proteins, cell surface-associated and extracellular proteins. Thus, it is anticipated to greatly aid in a better understanding of pathogen-host relations, rational design of novel drugs and developing new generation vaccines against B. pertussis. QR Microbiology 1-502
55	Development of a method to generate a soluble substrate for lytic transglycosylases Mark, Adam L. 18 April 2011 (has links) Peptidoglycan, the major component of the bacterial cell wall, is essential for cell viability. Several important antibiotics disrupt peptidoglycan metabolism, including the β-lactams and vancomycin. There are several bacterial enzymes involved in peptidoglycan metabolism that are not yet the target of antibiotics, such as the lytic transglycosylases (LTs). Relatively little experimental characterization has been done on LTs, due largely to the difficulties of working with insoluble, heterogeneous, and highly variable peptidoglycan. This research develops a method for the generation of a soluble, homogeneous oligosaccharide substrate that can be used to study LTs. The approach taken was based on the enzymatic degradation of peptidoglycan into fragments of a specific nature, and their separation by HPLC. This work identifies the challenges associated with this approach, and discusses the potential flaws in the 'top-down' generation of a soluble substrate. / This thesis was typeset with LaTeX using Minion Pro and Myriad Pro typefaces. Peptidoglycan Lytic transglycosylase HPAEC-PAD MALDI-TOF MS Oligosaccharide Bacterial cell wall
56	Oral brush biopsy analysis by MALDI-ToF Mass Spectrometry for early cancer diagnosis Maurer, Katja 27 June 2013 (has links) (PDF) Objectives: Intact cell peptidome profiling (ICPP) with MALDI-ToF Mass-Spectrometry holds promise as a non invasive method to detect head and neck squamous cell carcinoma (HNSCC) objectively, which may improve the early diagnosis of oral cancer tremendously. The present study was designed to discriminate between tumour samples and non-cancer controls (healthy mucosa and oral lesions) by analysing complete spectral patterns of intact cells using MALDI-ToF MS. Material and Methods: In the first step, a data base consisting of 26 patients suffering from HNSCC was established by taking brush biopsy samples of the diseased area and of the healthy buccal mucosa of the respective contralateral area. After performing MALDI-ToF MS on these samples, classification analysis was used as a basis for further classification of the blind study composed of additional 26 samples including HNSCC, oral lesions and healthy mucosa. Results: By analyzing spectral patterns of the blind study, all cancerous lesions were defined accurately. One incorrect evaluation (false positive) occurred in the lesion cohort, leading to a sensitivity of 100%, a specificity of 93% and an overall accuracy of 96.5%. Conclusion: ICPP using MALDI-ToF MS is able to distinguish between healthy and cancerous mucosa and between oral lesions and oral cancer with excellent sensitivity and specificity, which may lead to a more impartial early diagnosis of HNSCC. Mundhöhlenkarzinom MALDI-ToF MS Bürstenbiopsie oral cancer brush biopsy early cancer detection ddc:610
57	A comparative proteomic analysis of two contrasting Salvia hispanica L. genotypes under salinity stress Williams, Achmat January 2016 (has links) >Magister Scientiae - MSc / Salvia hispanica L. is an annual pseudocereal food crop, locally known as chia that has the ability to grow in water stress environments. The importance of chia dates back to the pre-columbian era where it was consumed as staple food by the indigenous South Americans due to its high nutritional and medicinal benefits. A single chia plant produces two seed variants: white seed genotype (denoted as WSG) and black seed genotype (denoted as BSG). Chia seeds have been proven to have a huge potential as a healthy food source and contained various medicinal properties. However, these plants are still prone to environmental stress conditions such as salinity that is one of the major abiotic stresses that influence crop production and yield worldwide. Despite the nutritional impact of the chia seeds, limited information regarding their molecular responses to abiotic stress conditions are known. This study was divided into two distinct parts. Firstly, the study comparatively analysed the leaf proteomes of two chia genotypes using gelbased proteomic analysis coupled with mass spectrometry. Total soluble proteins were extracted from chia leaves and subjected to 2-D PAGE analysis. Proteins were visualized by CBB and identified by MALDI-TOF MS/MS. A total of 284 and 209 spots were detected in WSG and BSG, respectively. Using mass spectrometry, 36 differentially expressed protein spots were successfully identified based on their protein abundance using homology database searches. Interestingly, two defensive-related proteins (osmotin-like protein and the chalcone isomerase) were only present in WSG and absent in BSG. In light of previous information regarding the nutritional profiles (no significant difference) of these two genotypes, this study has shown that there are distinct molecular differences between these genotypes. Therefore, WSG will be used in further downstream analysis. The second part of this study focused on the influence of salt stress (imposed by 100 mM NaCl) on the leaf proteome of WSG. Using gel-based proteomic analysis, 61 differentially expressed proteins were identified and classified into nine functional categories. Most of the proteins identified in this study were upregulated by salt stress. Interesting to note, 12 proteins identified in this study were only present in response to salt stress but were absent in the control. These proteins include ATP-dependent zinc metalloprotease FTSH 2 (spot 48), HSP70 proteins (spots 46 and 47), superoxide dismutases (spots 10, 41 and 42) and an ascorbate peroxidase (spot 56). All these proteins are important antioxidants that play a significant role in scavenging reactive oxygen species (ROS). Previous studies have shown that these antioxidants play vital roles in stress tolerance. These proteins could serve as potential biomarkers that could be used to enhance salt stress tolerance in pseudocereals and cereal food crops. / National Research Foundation (NRF) and Agricultural Research Council Proteomics Salvia hispanica L. MALDI-TOF MS/MS Western Blot Heat shock proteins
58	Microarrays on gold : new applications for biocatalysis and proteomics Castangia, Roberto January 2012 (has links) Microarrays on gold have been used to develop new methodologies for biocatalysis and proteomic applications. The technology applies the logic of solid phase supported chemistry using self-assembled monolayers (SAMs) on a gold chip. The advantages of this technology are: i) an easy to handle platform, ii) parallel screening (64 reactions at once), iii) microliter scale reactions (1µL per sample), iv the use of mild conditions (buffers and t=37 °C), v) the absence of purification steps (only chip washing is required), vi) quick and accurate analysis by MALDI ToF MS.The metallopeptidase thermolysin was studied in peptide-coupling reactions to profile reactivity and specificity (Chapter 2). Reactivity was further investigated in transpeptidation reactions. Comparing the serine peptidase chymotrypsin with the zinc dependent thermolysin, it was found that transpeptidations proceed via N-transacylation reactions independent of a specific enzymatic catalytic mechanism (Chapter 3). These transacylations may be exploited for modifications of biocompatible and selective surfaces in ‘bottom-up’ bionanofabrication technologies. Selected peptidases with different catalytic mechanism were also arrayed to investigate polymerisation ability of dipeptides (Chapter 4). It was shown that oligomerisation can be obtained under mild conditions and a set of peptides was synthesised. Chapter 5 describes a new chemical methodology by which crude tryptic peptide digests can be trapped on chip and analysed by MALDI ToF MS without further purification steps. This dramatically improves time and cost efficiency.Finally, a new stepwise native chemical ligation methodology is proposed for amino acids, and peptides containing N-terminal cysteine residues (Chapter 6). 553.4
59	JÄMFÖRELSE MELLAN PREPARATIONSMETODER AV POSITIV BLODODLING INFÖR DIREKT IDENTIFIERING MED MALDI-TOF MASS SPEKTROFOTOMETRI Matti, Reman January 2020 (has links) Abstrakt: Sepsis (blodförgiftning) är ett livshotande tillstånd som innebär att bakterier eller svampar tar sig in i blodbanan. Det sker ofta genom njurarna, lungorna eller sår i skadad hud. Symptom innefattar feber och allmän sjukdomskänsla. Positiva blododlingar prepareras och analyseras med Matrix assisted laser desorption ionisation time-of-flight (MALDI-TOF MS) där blandas preparerade prov med matrix och bestrålas sedan med en laser. Bestrålningen medför att proteinerna i provet joniseras och rör sig mot en detektor. Proteinerna detekteras som ett spektrum som i sin tur jämförs med ett referensspektrum av en känd bakterie/svamp som finns lagrat i en databas. Dessutom erhålls ett score-värde över hur väl provet liknar ett referensprov. Arbetets syfte var att se vilken provberedningsmetod som gav ett tillförlitligt resultat i MALDI-TOF och ett bra score-värde för identifiering av bakterier till art-nivå på kortast tid. Preparationsmetoderna innefattar rening av blod från röda blodkroppar och andra partiklar som stör MALDI TOF-instrument. Metoderna jämfördes med nuvarande Saponinmetod. Två av metoderna (Ferroni och Huang) gav dåliga resultat och jämförelsen avbröts efter två försök. Ett kommersiellt kit Sepsityper extraktion gav bra resultat där 79 % av analyserna gav identifiering till art-nivå. Motsvarande resultat med saponin-metoden var 33 %. Slutsatsen är att Sepsityper-extraktion-metoden gav betydligt bättre resultat än nuvarande Saponin-metod. Metoden var robust, användarvänlig, snabb och gav bra resultat både för gramnegativa och grampositiva bakterier. / Abstract: Sepsis (blood poisoning) is a life-threatening condition caused by bacteria or fungi entering the bloodstream. Pathogens often again access through the kidneys, lungs or wounds in damaged skin. Symptoms include fever, chills and general feeling of illness. Positive blood cultures are prepared and analyzed with Matrix assisted laser desorption ionization time-of-flight (MALDI-TOF MS) prepared samples are mixed with matrix and then irradiated with laser beam. The laser beam will be directed to each position in the MALDI plate that causes the proteins in the sample to ionize and move towards a detector. The protein pattern is presented in a spectrum that is compared with a reference spectrum of known bacteria / fungi, stored in a database. In addition, a score value was obtained on how well the sample is aligned to the reference sample. The aim of this study was to compare three methods in order to achieve the best score value for identification to species level. The time factor was also important. The preparation methods include purification of blood removing red blood cells and other particles that interfere with MALDI analysis. The methods were compared with the current Saponinmethod. The results of two methods (Ferroni and Huang) were not satisfactory and further comparison was interrupted after two experiments. A commercial kit Sepsityper with extraction gave good results with 79 % identification to species level. Corresponding results for the current Saponin-method was 33 %. In conclusion, the Sepsityper-extraction-method was superior to the current Saponin-method. The method was robust, user-friendly, rapid and gave good results from both gramnegative and grampositive bacteria. blododlingar gramnegativa bakterier grampositiva bakterier MALDI-TOF MS sepsis Medical and Health Sciences Medicin och hälsovetenskap
60	Differenzierung aviärer Brachyspiren mit PCR-basierten Methoden und MALDI-TOF-MS Harms, Monika 14 May 2018 (has links) Differenzierung aviärer Brachyspiren mit PCR-basierten Methoden und MALDI-TOF-MS info:eu-repo/classification/ddc/636.089 ddc:636.089

Search results