Global ETD Search

11	Proteomanalyse neuronaler Stammzellen Maurer, Martin Henrik. January 2005 (has links) Heidelberg, Univ., Habil.-Schr., 2005.
12	Analyse der Molekülstrukturen und des Netzwerkaufbaus von mono- und difunktionellen Cyanaten bei Coreaktionen mit Thiolen und Alkoholen Glaser, Daniela Sibylle. Unknown Date (has links) (PDF) Brandenburgische Techn. Universiẗat, Diss., 2003--Cottbus.
13	Strategien zum Aufbau niedermolekularer GTPase-Aktivatoren und zur direkten massenspektrometrischen Reaktionskontrolle am polymeren Träger (MS-SPOS) Gerdes, Jantje Mareike. Unknown Date (has links) (PDF) Universiẗat, Diss., 2003--Dortmund.
14	Untersuchungen zur Resequenzierung von in vitro-RNA mit Matrix-unterstützter Laserdesorptions-, Ionisations-Massenspektrometrie (MALDI-MS) Spottke, Beatrice. Unknown Date (has links) (PDF) Universiẗat, Diss., 2004--Münster (Westfalen).
15	The use of analytical techniques for the rapid detection of microbial spoilage and adulteration in milk Nicolaou-Markide, Nicoletta January 2011 (has links) Milk is an important nutritious component of our diet consumed by most humans on a daily basis. Microbiological spoilage affects its safe use and consumption, its organoleptic properties and is a major part of its quality control process. European Union legislation and the Hazard Analysis and the Critical Control Point (HACCP) system in the dairy industry are therefore in place to maintain both the safety and the quality of milk production in the dairy industry. A main limitation of currently used methods of milk spoilage detection in the dairy industry is the time-consuming and sometimes laborious turnover of results. Attenuated total reflectance (ATR) and high throughput (HT) Fourier transform infrared (FTIR) spectroscopy metabolic fingerprinting techniques were investigated for their speed and accuracy in the enumeration of viable bacteria in fresh pasteurized cows' milk. Data analysis was performed using principal component-discriminant function analysis (PC-DFA) and partial least squares (PLS) multivariate statistical techniques. Accurate viable microbial loads were rapidly obtained after minimal sample preparation, especially when FTIR was combined with PLS, making it a promising technique for routine use by the dairy industry. FTIR and Raman spectroscopies in combination with multivariate techniques were also explored as rapid detection and enumeration techniques of S. aureus, a common milk pathogen, and Lactococcus lactis subsp cremoris, a common lactic acid bacterium (LAB) and potential antagonist of S. aureus, in ultra-heat treatment milk. In addition, the potential growth interaction between the two organisms was investigated. FTIR spectroscopy in combination with PLS and kernel PLS (KPLS) appeared to have the greatest potential with good discrimination and enumeration attributes for the two bacterial species even when in co-culture without previous separation. Furthermore, it was shown that the metabolic effect of L. cremoris predominates when in co-culture with S. aureus in milk but with minimal converse growth interaction between the two microorganisms and therefore potential implications in the manufacture of dairy products using LAB. The widespread and high consumption of milk make it a target for potential financial gain through adulteration with cheaper products reducing quality, breaking labeling and patent laws and potentially leading to dire health consequences. The time consuming and laborious nature of currently used analytical techniques in milk authentication enabled the study of FTIR spectroscopy and matrix-assisted laser desorption/ionisation time-of-flight mass spectrometry (MALDI-ToF-MS) as rapid analytical techniques in quantification of milk adulteration, using binary and tertiary fresh whole cows', goats' and sheep's milk mixture samples. Chemometric data analysis was performed using PLS and KPLS multivariate analyses. Overall, results indicated that both techniques have excellent enumeration and detection attributes for use in milk adulteration with good prospects for potential use in the dairy industry. 637
16	Optimizing Deposition of Matrix and Ionization Salt via Two-Step Sublimation in Sample Preparation for Surface-Layer Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass Spectrometry Imaging (SL-MALDI-TOF MSI) Huang, Huan 30 April 2021 (has links) No description available. Polymers Technology Analytical Chemistry Surface layer MALDI MS imaging Sublimation
17	Identification of Trypsin Digested Transferrin using HPLC and MALDI-MS / Identifiering av trypsin-klyvt transferrin med HPLC och MALDI-MS Ghebreamlak, Weyni January 2019 (has links) In this project, separation of trypsin digested transferrin (Tf) has been studied, using a RP HPLC- UV system equipped with a C18 column. 0.1% TFA/MQ-water and 90% MeOH were used as mobile phase A and mobile phase B, respectively. For economic reasons, the protein cytochrome c (cyt-C) was used to optimize the digestion procedure and LC system, before analysis of Tf. Four digestion methods were applied for analyzing cyt-C and Tf. The first method was digestion with no denaturing, reducing or alkylating agent. The other digestion methods used urea or heating as a denaturing agent, and lastly dithiothreitol (DTT) and iodoacetamide (IAA) as reducing and alkylating agent, respectively. The results from HPLC-UV showed that a gradient elution with a high concentration of organic solvent is favorable for the separation of cyt-C peptides. MALDI-MS was used to identify peptides, and the outcomes showed that denaturation by heat before digestion gave the best results. / I detta projekt har separation av trypsin-klyvt transferrin (Tf) studerats, med användning av ett RP HPLC-UV system, som bestod av en C18 kolonn. 0,1% TFA/MQ-vatten och 90% MeOH användes som mobilfas A respektive mobilfas B. Av ekonomiska skäl användes proteinet cytokrom c (cyt-C) före analys av Tf för att optimera klyvningsprocessen och LC systemet. Fyra klyvningsmetoder studerades för analysering av cyt-C och Tf. Den första metoden innehöll inget denaturerande, reducerande eller alkylerande medel. De andra klyvningsmetoderna innehöll urea eller värme som denaturerande medel, och slutligen ditiotreitol (DTT) och jodacetamid (IAA) som reducerande respektive alkylerande medel. Resultaten från HPLC-UV visade att en gradienteluering med en hög koncentration av den organiska lösningen är gynnsam för separationen av peptiderna från cyt-C. MALDI-MS användes för att identifiera peptiderna, och resultaten visade att denaturering med värme före klyvning gav bäst resultat. Transferrin Glycopeptides Digestion HPLC MALDI-MS Chemical Engineering Kemiteknik
18	Biochemical and MALDI-MS Methods for Characterization of Ribosomal Proteins Hamburg, Daisy-Malloy 22 April 2008 (has links) No description available. Analytical Chemistry Biochemistry MALDI-MS ribosome ribosomal proteins
19	Invasive \(Haemophilus\) \(influenzae\)-Isolate in Deutschland: Methodenvalidierung des VITEK MS IVD MALDI-TOF-MS und Untersuchung von Resistenzen gegen Imipenem und Cefotaxim / Invasive \(Haemophilus\) \(influenzae\) Isolates in Germany: Method Validation of the VITEK MS IVD MALDI-TOF-MS and Investigation of Imipenem and Cefotaxime Resistance Nürnberg, Sebastian January 2023 (has links) (PDF) Die Inzidenz invasiver H. influenzae-Infektionen in Deutschland steigt seit Jahren an. Die akkurate Identifizierung und Resistenztestung dieses Erregers sind von großer klinischer und epidemiologischer Bedeutung. Daher wurden im Rahmen der vorliegenden Promotionsarbeit umfangreiche Untersuchungen zur Diagnostik und zur Epidemiologie von Antibiotikaresistenzen bei H. influenzae durchgeführt. Es konnte gezeigt werden, dass die in der Routinediagnostik mittlerweile weit verbreitete MALDI-TOF-MS-Diagnostik durch das VITEK MS IVD nur eingeschränkt zur sicheren Unterscheidung von H. influenzae und H. haemolyticus einsetzbar ist. H. influenzae-Isolate erkannte das System mit einer Genauigkeit von 100 %. Bei H. haemolyticus-Isolaten wurden dagegen 42 % der untersuchten Stämme fälschlicherweise als H. influenzae erkannt. Dieser Fragestellung wurde mit der bisher umfangreichsten molekularbiologisch charakterisierten Studienpopulation beider Bakterienspezies nachgegangen. Die kalkulierte antibiotische Therapie einer Sepsis oder Meningitis erfolgt häufig mit Carbapenemen, die leitliniengerechte Therapie invasiver H. influenzae-Infektionen mit Drittgenerations-Cephalosporinen. Imipenem und Cefotaxim gehören zu den Hauptvertretern dieser Gruppen. Bezüglich der Antibiotikaresistenztestung wurde erstmalig für H. influenzae herausgefunden, dass die routinemäßig verwendete Gradientenagardiffusion (GAD) bei der Testung von Cefotaxim im Vergleich zum Goldstandard Bouillon-Mikrodilution gleichwertig und bei Imipenem sogar sensitiver in der Detektion von Heteroresistenzen ist. Die Epidemiologie dieser Resistenzen wurde in dieser Arbeit erstmalig für Deutschland systematisch erfasst, indem alle verfügbaren invasiven Isolate gemeldeter H. influenzae-Infektionen der Jahre 2016 (Imipenem) beziehungsweise 2016-2019 (Cefotaxim) untersucht wurden. Es wurde eine hohe Prävalenz einer Imipenem-Resistenz von 13,5 % festgestellt. Die Prävalenz einer Cefotaxim-Resistenz lag bei 0,9 %. Zur molekularen Typisierung wurde bei den Imipenem-resistenten Isolaten eine Multilocus-Sequenztypisierung, bei den Cefotaxim-resistenten Stämmen eine Sequenzierung des vollständigen Genoms durchgeführt. Hierbei wurde eine hohe genetische Diversität der Stämme festgestellt, was die Schlussfolgerung zulässt, dass resistente Mutanten sporadisch entstehen. Die Untersuchung möglicher spatio-temporaler Cluster führte zum Nachweis einer sehr selten vorkommenden Übertragung eines Imipenem-resistenten Stamms. Durch die Sequenzierung von Resistenzgenen wurde die Epidemiologie und Relevanz bekannter Aminosäuresubstitutionen beleuchtet. Unter anderem wurde für die PBP3-Substitutionen L389F und Y557H eine hochsignifikante Korrelation mit dem Auftreten von Cefotaxim-Resistenzen nachgewiesen. Die gewonnenen Genomdaten bieten die Grundlage für die Forschung an weiteren Antibiotikaresistenzdeterminanten von H. influenzae. / Haemophilus influenzae is a fastidious, facultative anaerobic, Gram-negative bacillus that colonizes the respiratory tract and can cause respiratory and invasive infection such as meningitis and sepsis. Invasive H. influenzae infections are potentially life-threatening and incidence rates have been increasing for years. Therefore, fast and accurate diagnostics, reliable testing of antibiotic resistance and a successful antibiotic treatment is of great importance. Therefore, the objective of the first part of this thesis was to evaluate the diagnostic and discriminative potential of the MALDI-TOF-MS system VITEK® MS regarding H. influenzae and H. haemolyticus. H. influenzae can cause invasive infections, whereas H. haemolyticus is mostly apathogenic. The system showed excellent accuracy for the identification of H. influenzae isolates, as 100 % of the 236 isolates were correctly identified. When testing 50 H. haemolyticus strains, however, the system showed significant limitations, since 42 % of these strains were misidentified as H. influenzae. According to the current German guidelines for the treatment of sepsis and meningitis, treatment of invasive H. influenzae infections is carried out using carbapenems, such as imipenem, or third-generation cephalosporins, such as cefotaxime. Therefore, the prevalence of antibiotic resistances to these substances was investigated and possible resistance mechanisms were examined. The two antibiotic susceptibility testing methods Gradient agar diffusion (GAD) and broth microdilution (BMD) were compared. As a result, for the determination of the cefotaxime MIC, the two methods showed an excellent correlation, whereas for imipenem there were significant differences in the measured MIC values. Since strains tested by GAD often showed double or fuzzy inhibition zones, heteroresistances may be more apparent using this method and GAD may be more sensitive at detecting imipenem resistance. The prevalence of imipenem resistance was determined for the year 2016. The analysis of 474 different invasive isolates showed a high prevalence of 5.5 %. If including all resistant isolates according to GAD, the prevalence would be even as high as 13.5 %. MLST was performed on all isolates to investigate the genetic relationship. As a result, however, some sequence types were observed more frequently, it revealed a significant diversity. Both the analysis of ftsI and acrR showed previously described amino acid substitutions. Cefotaxime resistance was investigated for all 2432 invasive H. influenzae for the years 2016-2019. The low prevalence of 0.9 % shows that cefotaxime is still well suited for the treatment of invasive H. influenzae infections. For the investigation of the genetic relationship and possible causes of cefotaxime resistance whole genome sequencing (WGS) was performed on all resistant isolates. The strains showed high genetic diversity and the geographic analysis also showed that the resistant strains were evenly spread throughout the population in Germany. This led to the conclusion that cefotaxime resistance is more likely caused by sporadic mutation events rather than by specific clones spreading in certain areas. The analysis of the ftsI gene showed that the amino acid substitutions L389F and Y557H are significantly associated with elevated cefotaxime MICs. This dissertation provides comprehensive data regarding diagnostics, antimicrobial susceptibility testing and the epidemiology of antibiotic resistances of invasive H. influenzae. It could be shown that the VITEK MS IVD, although established in the routine diagnostics, can only be used to a limited extent for reliably differentiating H. influenzae and H. haemolyticus isolates. Regarding antibiotic susceptibility testing, it was found that GAD showed similar results compared to the gold standard BMD when testing cefotaxime. When testing imipenem, this method was even more sensitive in detecting heteroresistances compared to the gold standard. For the first time, the epidemiology of antibiotic resistance against cefotaxime and imipenem was carried out using a large set of precisely defined invasive H. influenzae isolates to obtain representative data for the prevalence of imipenem and cefotaxime resistance in Germany. By investigating amino acid substitutions in the ftsI and acrR gene the epidemiology and relevance of these substitutions could be shown. A well-founded statement on the relationship of the resistant strains could be made using the state-of-the-art typing methods MLST and whole genome sequencing. The genome data also offers the possibility of examining other genes of these strains in more detail. Haemophilus influenzae MALDI-MS Antibiotikum Cefotaxim Imipenem ddc:610
20	Click Chemistry on DNA and Targeting RNA structure with Peptide Boronic Acids Crumpton, Jason B. 30 May 2012 (has links) The utilization of click chemistry to perform inter- and intramolecular ligation on DNA has become ubiquitous in the literature. Advances in copper (I) stabilizing ligands that prevent DNA degradation via redox pathways have provided nucleic acid researchers access to the efficiency and quantitative nature of the click reaction. The majority of ligation procedures in the literature are performed in solution after DNA assembly and modification with alkyne reporter groups. However, without specialty alkyne reagents that can be sequentially and selectively deprotected, the solution phase method requires that the click reaction be performed on all DNA-attached alkynes simultaneously. Therefore, the variability of the azide reagent is limited to a singular R group. However, performing the click reaction on DNA during synthetic elongation (immediately after each alkyne installation) allows for the possibility of performing multiple click reactions with variable azide reagents. Unfortunately, most solid phase click procedures require long reaction times or the utilization of microwave irradiation to accelerate the reaction. The development of methods for the ligation of azides to alkynes without the use of microwave irradiation on solid phase is potentially very useful. Herein, we report a simple, efficient, and robust solid phase synthetic method for the ligation of azido-diamondoids to the alkyne-modified phosphate backbone of DNA with click chemistry using [Cu(CH₃CN)₄]PF₆ without stabilizing ligand. Interestingly, it was found that as the size of diamondoid increased, a corresponding increase in melting temperature of hybridized duplexes was observed. The developed method has the potential to complement existing DNA ligation procedures for applications in biotechnology and diagnostics. Interest in peptides incorporating boronic acid moieties is increasing due to their potential as therapeutics/diagnostics for a variety of diseases such as cancer. The utility of peptide boronic acids may be expanded with access to vast libraries that can be deconvoluted rapidly and economically. Unfortunately, current detection protocols using mass spectrometry are laborious and confounded by boronic acid trimerization, which requires time consuming analysis of dehydration products. These issues are exacerbated when the peptide sequence is unknown, as with de novo sequencing, and especially when multiple boronic acid moieties are present. Thus, a rapid, reliable and simple method for peptide identification is of utmost importance. Herein, we report the identification and sequencing of linear and branched peptide boronic acids containing up to five boronic acid groups by matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS). Protocols for preparation of pinacol boronic esters were adapted for efficient MALDI analysis of peptides. Additionally, a novel peptide boronic acid detection strategy was developed in which 2,5-dihydroxybenzoic acid (DHB) served as both matrix and derivatizing agent in a convenient, in situ, on-plate esterification. Finally, we demonstrate that DHB-modified peptide boronic acids from a single bead can be analyzed by MALDI-MSMS analysis, validating our approach for the identification and sequencing of branched peptide boronic acid libraries. It is well known that RNA ligands incorporating basic and intercalating moieties display high RNA affinity. Unfortunately, these ligands are also often plagued by promiscuous binding to off-target substrates. Due to the potential utility of RNA ligands in biology and medicine, it is imperative to elucidate RNA binders which display high specificity as well as affinity. Boronic acid peptides promise unique RNA binding motifs through the interaction between the empty p-orbital of boron and the 2'-hydroxyl group of RNA. Herein, we describe the incorporation of lysine and phenylalanine boronic acid analogues into a branched peptide combinatorial library in an effort to impart increased selectivity towards the HIV-1 Rev Response Element (RRE). We were able to easily select and deconvolute 6 resulting "hit" peptides from 65,536 unique library members by high throughput screening and de novo sequencing. Although we were unable to evaluate peptide selectivity towards RRE due to general insolubility in aqueous media, we demonstrated the efficient deconvolution of a branched peptide library that incorporates boronic acids. / Ph. D. click chemistry DNA matrix peptide sequencing MALDI-MS

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