MASS SPECTROMETRY-BASED HIGH THROUGHPUT APPROACH FOR IDENTIFICATION OF MOLECULAR MODIFICATION OF OXIDATIVE PROCESS IN RESPIRATORY

Song, Wei

21 November 2008

No description available.

Analytical Chemistry

GC/MS

LC-MS/MS

EOSINOPHIL

OXIDATION

BROMOTYROSINE

TYROSINE

Development of a Novel Gradient Chromatofocusing Tandem Mass Spectrometry Technique for the Determination of Cationic Compounds in Biofluids; Identification of Caspase 3 Cleavage Sites of NHE-1 by High Performance Liquid Chromatography-Mass Spectrometry

Tang, Jianhua

22 July 2009

No description available.

Analytical Chemistry

gradient chromatofocsuing

LC-MS-MS

Caspase 3

cNHE1 protein

Cleavage

Development of Quantitative LC-MS/MS Methods for the Pharmacological Studies of Anti-Cancer Drugs

Li, Lan

03 March 2011

No description available.

LC-MS/MS

6BT

DNA

MX-AP

F-ARA-A

F-Ade

Role of Inner Arm Dyneins and Hydin in Ciliary Motility in Tetrahymena thermophila

KABI, AMRITA

23 April 2010

No description available.

Cellular Biology

cilia

axoneme

dynein

hydin

hydrocephalus

Tetrahymena thermophila

LC-MS/MS

High-Throughput De Novo Sequencing of Transfer RNAs Using Liquid Chromatography-Tandem Mass Spectrometry

Shi, Wunan

18 October 2013

No description available.

Chemistry

tRNA modifications placement

LC MS MS

segmented scans

gradient slopes

ナノスケール液体クロマトグラフィー/イオンモビリティスペクトロメトリー/タンデム質量分析によるリン酸化ペプチド大規模解析に関する研究

小形, 公亮

23 March 2022

京都大学 / 新制・論文博士 / 博士(薬科学) / 乙第13485号 / 論薬科博第5号 / 新制||薬科||17(附属図書館) / 京都大学大学院薬学研究科薬科学専攻 / (主査)教授 石濱 泰, 教授 松﨑 勝巳, 教授 土居 雅夫 / 学位規則第4条第2項該当 / Doctor of Pharmaceutical Sciences / Kyoto University / DFAM

プロテオミクス

イオンモビリティ

クロマトグラフィー

質量分析

タンパク質リン酸化

LC/MS/MS

499.3

Chiral Analysis of Amino Acids in Bacterial Samples Using LC-MS/MS

Persaud, Tarlika

10 1900

An optimized method for the chiral resolution of enantiomers of amino acids in bacterial supernatants is reported. This LC-MS/MS method is performed using a chiral Teichoplanin LC column and does not require sample clean up or chemical derivitization. This method allows for the determination of the relative amounts of the D and L enantiomers of 20 proteinogenic amino acids. The detection limits and response factors for the 20 amino acids were determined. Calibrations over three orders of magnitude showed least squares coefficient values (R^2) greater than 0.996 for eighty percent of the amino acids and greater than 0.992 for the remainder. The amino acids and their enantiomers were identified based on their retention times and their unique Multiple Reaction Monitoring (MRM) transitions for each amino acid. L-Aspartic acid-2,3,3-d3 was used as the internal standard. Cultures of Sinorhizobium meliloti (a nitrogen-fixing soil bacterium) were grown on minimal media; thus, all amino acids were biosynthesized by the bacterium. After centrifugation, supernatants were freeze dried, reconstituted in a small volume of methanol/water with internal standard and injected onto the LC column. The amino acids detected in the bacterial supernatant and the concentrations of the enantiomers were reported as the L and D isomers respectively: arginine [L, 12.6 ± 3.1 μg/L; D, 10.1 ± 3.2 μg/L], serine [L, 7.2 ± 1.16 μg/L; D, n.d.], threonine [L, n.d.; D, 11.2 ± 2.7 μg/L] and valine [L, 15.5 ± 4.3 μg/L; D, 11.3 ± 3.7 μg/L], where the term n.d. means below detection limit. The limits for detection for all amino acids ranged from 1.3 μg/L - 5.1 μg/L. In media with no added phosphate, the amino acid profiles changed somewhat under these stress conditions. Arginine was no longer detected while alanine and proline were now observed; the concentrations of the amino acids were: alanine [L, 7.7 ± 1.2 μg/L; D, 13.4 ± 2.5 μg/L], proline [L, n.d.; D, 8.63 ± 1.3 μg/L], serine [L, 7.6 ± 1.2 μg/L; D, n.d.], threonine [L, n.d.; D, 10.2 ± 3.2 μg/L] and valine [L, 11.6 ± 2.3 μg/L; D, 10.1 ± 3.1 μg/L]. These data represent the mean values of three independent bacterial growth experiments conducted over a 3 month period; the data came from the analysis of five separate aliquots from each growth experiment. The percent standard deviation for these data ranged from 15% to 33% and averaged 24%. Under both the normal and stressed growth conditions of S. meliloti produced the L enantiomer of serine, the D enantiomer of threonine and racemic valine. While racemic arginine was observed under normal growth conditions, levels were below detection under stressed conditions; under stress conditions only the D enantiomer of proline was observed while alanine was found in 1:2, L:D ratio. / Thesis / Master of Science (MSc)

Optimized LC-MS/MS quantification method for the detection of piperacillin and application to the development of charged liposaccharides as penetration enhancers

Violette, A., Cortes, D.F., Bergeon, J.A., Falconer, Robert A., Toth, I.

January 2008

No / Piperacillin, a potent ß-lactam antibiotic, is effective in a large variety of Gram+ and Gram¿ bacterial infections but its administration is limited to the parenteral route as it is not absorbed when given orally. In an attempt to overcome this problem, we have synthesized a novel series of charged liposaccharide complexes of piperacillin comprising a sugar moiety derived from d-glucose conjugated to a lipoamino acid residue with varying side-chain length (cationic entity) and the piperacillin anion. A complete multiple reaction monitoring LC¿MS/MS method was developed to detect and characterize the synthesized complexes. The same method was then successfully applied to assess the in vitro apparent permeability values of the charged liposaccharide complexes in Caco-2 monolayers. / BBSRC

Glycolipid

LC¿MS/MS

Piperacillin

Charged Liposaccharide

Penetration Enhancer

Permeability

Caco-2

Entwicklung einer Multimethode zur Probenaufarbeitung und Bestimmung von gas- und flüssigkeitschromatographisch erfassbaren Pestiziden in Hühnereiern

Hildmann, Fanny

05 September 2016

Die Rückstandsanalytik tierischer Lebensmittel ist eine anspruchsvolle Aufgabe aufgrund des hohen Lipidanteils der Proben sowie des sich stetig vergrößernden Wirkstoffspektrums. Heutzutage werden für die Probenaufarbeitung die DFG S 19 Methode, mit der vorrangig unpolare Analyten nachgewiesen werden und zunehmend die QuEChERS Methode eingesetzt, die insbesondere auf die Erfassung polarer Pestizide abzielt. In dieser Arbeit wurde eine moderne Multirückstandsmethode für Hühnereier entwickelt, um sowohl gas- als auch flüssigkeitschromatographisch (GC, LC) erfassbare Wirkstoffe zu analysieren. Dazu gehören unpolare PCBs, Pyrethroide und Organochlorpestizide, aber auch polarere Organophosphate, Triazole und Carbamate. Das Verfahren basiert auf der Extraktion mittels Matrix Solid Phase Dispersion, der Reinigung auf Grundlage einer modifizierten Gelpermeationschromatographie (GPC) und zwei verschiedenen Festphasenextraktionen (SPEs) für GC- und LC-erfassbare Pestizide sowie der Quantifizierung mittels GC- und LC-MS/MS. Dünnschichtchromatographisch wurde die effektive Entfernung hochmolekularer Lipide durch die modifizierte GPC und niedrigmolekularer Fette durch die SPEs belegt. Laut der für Ei durchgeführten Validierung erfüllten 164 der 172 untersuchten Pestizide und alle sechs PCBs die Leistungskriterien für die amtliche Rückstandskontrolle - zumeist am niedrigsten validierten Level (5 µg/kg bzw. 0,5 µg/kg). Ausnahmen bildeten sehr polare LC-Pestizide (z.B. Aminopyralid, Clopyralid, MCPA, Quinmerac) und pH-Wert-abhängige GC-Analyten (Nicotin, Tolylfluanid, Dichlofluanid), die auch mit den etablierten Verfahren schwierig zu analysieren sind. Weiterhin verdeutlichte die erfolgreiche Untersuchung von verschiedenen Ringversuchsmaterialien, dass die ursprünglich für Eier entwickelte Methode auch für mageres Geflügelfleisch und Sahne genutzt werden kann. Gegenüber den etablierten Verfahren wies die neue Methode deutliche Vorzüge auf. So belegte die Dünnschichtchromatographie, dass mit der neuen Methode Cholesterin, aber auch freie Fettsäuren besser abgetrennt werden als mit den etablierten Verfahren. Die neue Methode verbrauchte im Vergleich zur DFG S 19 Methode 46 % weniger Lösungsmittel und ermöglichte eine Verdopplung des Probendurchsatzes innerhalb von 8 h. Zudem eignete sich das entwickelte Verfahren laut den Validierungsdaten für GC-Analyten deutlich besser als die QuEChERS Methode und etwas besser als die DFG S 19 Methode (v.a. für Pyrethroide). Hinsichtlich der LC-Analyten unterschieden sich die neue und die QuEChERS Methode nur bei wenigen Analyten. Mit dem neuen Verfahren konnten folglich im Gegensatz zu den etablierten Methoden sowohl unpolare GC- als auch polare LC-Analyten sicher erfasst werden.

Multirückstandsanalyse

Lebensmittel tierischen Ursprungs

GC-MS/MS

LC-MS/MS

Dünnschichtchromatographie

Zirkoniumdioxid-beschichtetes Kieselgel

multi-residue analysis method

food of animal origin

GC-MS/MS

LC-MS/MS

thin layer chromatography

Zirconium-oxide-coated SPE phase

ddc:540

rvk:VN 8107

Microextração de canabinoides em urina usando dispositivo empacotado com polímero molecularmente impresso e análise por cromatografia líquida - espectrometria de massas sequencial / Microextraction of cannabinoids in urine using device packed with molecularly imprinted polymer and analysis by liquid chromatography - sequential mass spectrometry

Sartore, Douglas Morisue

30 July 2018

O preparo da amostra é uma das etapas mais importantes em toda a análise química. O isolamento e a concentração dos componentes da amostra são cruciais e busca-se sempre que essas etapas sejam as mais simples e consumam o mínimo possível de tempo e reagentes. Nos últimos anos, um tipo de material tem se mostrado bastante útil para análises químicas a partir de fluidos biológicos, os polímeros molecularmente impressos (MIPs). Os MIPs são sintetizados por reações de polimerização, na presença de uma molécula molde (template). A molécula molde se liga aos monômeros funcionais do polímero durante a reação de polimerização e permanece ligada à superfície das cadeias poliméricas quando a reação se completa. Terminada a polimerização, realiza-se a completa lavagem das moléculas molde, assim, restam na superfície polimérica cavidades tridimensionais complementares à molécula empregada como molde. Essas cavidades permitem a ligação reversível e preferencial da molécula molde ou outras com estrutura química semelhante. A Cannabis sativa é a droga ilícita mais consumida em todo o mundo e nos últimos anos muita atenção tem se voltado a seus efeitos toxicológicos no corpo humano e a aplicações medicinais. Nesta dissertação, foi sintetizado um MIP com a molécula molde catequina para a extração e posterior análise por LC-MS/MS dos canabinóides Δ9-tetrahidrocanabinol (THC), 11-hidroxi-Δ9-tetrahidrocannabinol (THC-OH) e 11-nor-Δ9-tetrahidrocannabinol-9-ácido carboxílico (THC-COOH) em amostras de urina. O MIP produzido foi empacotado em microdispositivo e empregado no preparo das amostras de urina por microextração por sorvente empacotado (MEPS). O método desenvolvido apresentou boa linearidade (valores de r de 0,977 para o THC e 0,994 para THC-OH e THC-COOH). Os limites de detecção e de quantificação foram respectivamente de 5 ng mL-1 e 20 ng mL-1, para os compostos THC e THC-OH, na faixa linear de 25 a 250 ng mL-1. Para o composto THC-COOH os limites de detecção e quantificação alcançados foram de 1 ng mL-1 e 5 ng mL-1, respectivamente, na faixa linear de 5 a 170 ng mL-1. O método apresentou valores razoáveis de precisão entre 3,2% (THC-COOH) e 25,1% (THC) e de exatidão, que variou entre -18,4 e 17,4 (ambos para o THC). O MIP empregado no preparo da amostra mostrou-se mais seletivo e específico do que materiais normalmente empregados para a extração dos canabinoides das amostras de urina, além de a técnica de extração por MEPS apresentar baixo consumo de solventes e amostra para a extração dos analitos e posterior análise por LC-MS/MS. / The sample preparation is one of the most important steps in every chemical analysis. The isolation and concentration of the sample components are crucial and it is always sought that these steps are simple and consume the lowest amount of time and reagents. In the recent years, a type of material has proved to be very useful for chemical analyzes of biological fluids, the molecularly imprinted polymers (MIPs). MIPs are synthesized by polymerization reactions in the presence of a template molecule. The template molecule binds to the functional monomers of the polymer during the polymerization reaction and remains bonded to the surface of the polymeric chains after the reaction is complete. After the polymerization is finished, the complete washing of the template molecules is carried out, thus, three-dimensional cavities, complementary to the molecule used as a template, remain on the polymer surface. These cavities allow the reversible and preferential bonding of the template molecule or others with similar chemical structure. Cannabis sativa is the most commonly consumed illicit drug in the world and in recent years much attention has focused on its toxicological effects on human body and for medical applications. In this master dissertation, a MIP was synthesized with the catechin molecule as template, for extraction and subsequent analysis by LC-MS/MS of the cannabinoids Δ9-tetrahydrocannabinol (THC), 11-hydroxy-Δ9-tetrahydrocannabinol (THC-OH), and 11-nor-Δ9-tetrahydrocannabinol-9-carboxylic acid (THC-COOH) in urine samples. The MIP produced was packed in a microdevice and used in the preparation of the urine samples by microextraction by packed sorbent (MEPS). The developed method showed good linearity (r values of 0.977 for THC and 0.994 for THC-OH and THC-COOH). The detection and quantification limits were respectively 5 ng mL-1 and 20 ng mL-1 for THC and THC-OH in the linear range from 25 to 250 ng mL-1. For the compound THC-COOH the limits of detection and quantification achieved were 1 ng mL-1 and 5 ng mL-1, respectively, in the linear range from 5 to 170 ng mL-1. The method presented reasonable values of precision, between 3.2% (for THC-COOH) and 25.1% (for THC) and displayed accuracy ranging from -18.4 to 17.4 (both for THC). The MIP used in the sample preparation was more selective and specific than other materials usually employed for the extraction of the cannabinoids from the urine samples. The MEPS technique also showed low consumption of solvents and sample for sample preparation, extraction of analytes and subsequent analysis by LC-MS/MS.

biological fluids

canabinoides

cannabinoids

fluidos biológicos

LC-MS/MS

LC-MS/MS

microextraction by packed sorbent (MEPS)

molecularly imprinted polymer (MIP)

polímero molecularmente impresso (MIP)