Improved sensitivity mass spectrometric detection of eicosanoids by charge reversal derivatization
about
Multi-dimensional mass spectrometry-based shotgun lipidomics and novel strategies for lipidomic analysesDerivatization methods for quantitative bioanalysis by LC-MS/MS.Signal enhancement of glucuronide conjugates in LC-MS/MS by derivatization with the phosphonium propylamine cation tris(trimethoxyphenyl) phosphonium propylamine, for forensic purposes.Shotgun lipidomics in substantiating lipid peroxidation in redox biology: Methods and applicationsMethod for measuring lipid mediators, proteins, and messenger RNAs from a single tissue specimenTargeted lipidomic strategies for oxygenated metabolites of polyunsaturated fatty acids.Lipidomics at the interface of structure and function in systems biologyStudy of the role of cytosolic phospholipase A2 alpha in eicosanoid generation and thymocyte maturation in the thymusCationic Xylene Tag for Increasing Sensitivity in Mass Spectrometry.Platelet microparticles are internalized in neutrophils via the concerted activity of 12-lipoxygenase and secreted phospholipase A2-IIANovel advances in shotgun lipidomics for biology and medicine.Activation of mitochondrial calcium-independent phospholipase A2γ (iPLA2γ) by divalent cations mediating arachidonate release and production of downstream eicosanoids.Myocardial regulation of lipidomic flux by cardiolipin synthase: setting the beat for bioenergetic efficiency.Accurate quantification of lipid species by electrospray ionization mass spectrometry - Meet a key challenge in lipidomics.A Randomized, Placebo-controlled Trial of Roflumilast. Effect on Proline-Glycine-Proline and Neutrophilic Inflammation in Chronic Obstructive Pulmonary Disease.Characterization of phthiocerol and phthiodiolone dimycocerosate esters of M. tuberculosis by multiple-stage linear ion-trap MSDysfunctional cardiac mitochondrial bioenergetic, lipidomic, and signaling in a murine model of Barth syndromeRegulation and function of epithelial secreted phospholipase A2 group X in asthma.Selection of internal standards for accurate quantification of complex lipid species in biological extracts by electrospray ionization mass spectrometry-What, how and why?Oxidized fatty acid analysis by charge-switch derivatization, selected reaction monitoring, and accurate mass quantitation.Fatty acidomics: global analysis of lipid species containing a carboxyl group with a charge-remote fragmentation-assisted approachLC/ESI-MS/MS detection of FAs by charge reversal derivatization with more than four orders of magnitude improvement in sensitivity.Identification and quantitation of fatty acid double bond positional isomers: a shotgun lipidomics approach using charge-switch derivatization.LC-MS/MS bioanalytical challenge: ultra-high sensitivity assays.Targeted metabolomics of the arachidonic acid cascade: current state and challenges of LC-MS analysis of oxylipins.The phospholipase iPLA2γ is a major mediator releasing oxidized aliphatic chains from cardiolipin, integrating mitochondrial bioenergetics and signaling.Recent advances in expanding the coverage of the lipidome.The evolution of lipidomics through space and time.Characterization of Hydroxyphthioceranoic and Phthioceranoic Acids by Charge-Switch Derivatization and CID Tandem Mass SpectrometryCharacterization of polar lipids of Listeria monocytogenes by HCD and low-energy CAD linear ion-trap mass spectrometry with electrospray ionization.Application of stable isotope-assisted metabolomics for cell metabolism studiesUse of isotope mass probes for metabolic analysis of the jasmonate biosynthetic pathway.A novel derivatization reagent possessing a bromoquinolinium structure for biological carboxylic acids in HPLC-ESI-MS/MS.HPLC-MRM relative quantification analysis of fatty acids based on a novel derivatization strategy.Heart failure-induced activation of phospholipase iPLA2γ generates hydroxyeicosatetraenoic acids opening the mitochondrial permeability transition pore.Enhancing the sensitivity of the LC-MS/MS detection of propofol in urine and blood by azo-coupling derivatization.Mass-spectrometry-based lipidomics.Quantification of free fatty acids in human stratum corneum using tandem mass spectrometry and surrogate analyte approach.Roles of 5-lipoxygenase and cyclooxygenase-2 in the biosynthesis of hemiketals E2 and D2 by activated human leukocytes.Mass spectrometric analysis of free fatty acids in infant milk powders by frozen pretreatment coupled with isotope-labeling derivatization.
P2860
Q28732813-0DB7EF35-B513-406A-A50D-4106825B3651Q33452833-2AE13FB7-187B-42CE-9315-58FAED7F18DBQ33461386-19CDF530-FF14-4842-9A6C-DE6B5B6EB317Q33652547-04E390D8-15B5-47AE-A0D9-00CA5F441366Q34641960-95E463DE-4485-4953-854B-FAF67EFA08C3Q35070934-980B81E4-4CC5-49DE-8DAC-5BD614C13A07Q35095381-053AEAA9-AA42-471F-ADC4-0A907137F6A0Q35630273-07511238-35DD-4EC7-8AC9-2432A9417C98Q35676029-27AA1701-9ECA-495A-8FAC-29836CF84A62Q35845952-443A4204-4BCE-47D4-8F81-EBA9AA27296CQ35878177-E3BBD22A-7426-4178-8D9C-4111FDB76F1AQ35922450-D6312AC0-E2DB-4D7E-A659-3B24A56FDA84Q36127040-5D912BF7-6292-4FB0-B444-E500325F222BQ36168194-994A4A6F-1DAE-41E7-88D0-2154D8169300Q36272434-8C483387-1B95-4E60-8DCE-799E2AC0C879Q36399224-636A77C6-3283-453C-8981-F40B57742AD9Q36754802-B291C820-327A-4C7D-A28B-3EA74CBD81DBQ37074836-645A56AB-3C19-4796-8840-35C7F7955339Q37099149-C07FF6EE-8449-4A89-A924-C52F65BC2348Q37296539-9172D6B9-2C11-44C2-B04E-EBCA16CE56CDQ37304755-EC486723-B9E5-45F4-8067-109159D0905EQ37305436-B0E201D1-E7F5-4A35-86CA-07332652440DQ37334873-D0495531-B16D-4A4E-A98F-7A6301554351Q37923935-15683013-76F4-41D7-A33A-045244658C89Q38313787-176DDF7F-EBBC-4B30-8B69-ED97C9B5700BQ38403536-F27E727A-7ED1-4477-9BF1-DE8FFE41B132Q39028561-1F1E7673-8FC1-4734-8A0E-4CECAAEEA268Q39273619-0D247099-3167-4E8D-AD5A-026910D09702Q40352560-47768808-96E8-40C5-8E74-6DCE0324735FQ41499950-973A67E3-CD6D-4B7B-82E7-F57BCC5ECEFEQ42738201-2ADDA5F6-2573-410A-93B0-2A685616CE52Q43474288-8281C3B5-2B39-46DC-B739-13D59E1B6175Q44803930-6F30CF65-C4F3-4F00-BE36-7ED9F4FC363DQ46825206-36835B0A-0C50-43AC-A468-DEF87C18B531Q47381689-AFB644B9-DD10-4B55-98C6-EBBA85A532E3Q47925831-8680835D-9926-4DE0-8F7D-A827A0F07A22Q48054989-A40D680B-1D57-463D-B739-AC3AD2F6C136Q48326072-244166BC-FE8C-4B52-80B3-662CF3CFB00CQ50949041-84D72CD6-30C4-48B1-846D-28E84906C6AFQ51581867-0047A56E-162E-45B1-A1EC-B2B5E27A77F4
P2860
Improved sensitivity mass spectrometric detection of eicosanoids by charge reversal derivatization
description
2010 nî lūn-bûn
@nan
2010 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Improved sensitivity mass spec ...... charge reversal derivatization
@ast
Improved sensitivity mass spec ...... charge reversal derivatization
@en
Improved sensitivity mass spec ...... charge reversal derivatization
@nl
type
label
Improved sensitivity mass spec ...... charge reversal derivatization
@ast
Improved sensitivity mass spec ...... charge reversal derivatization
@en
Improved sensitivity mass spec ...... charge reversal derivatization
@nl
prefLabel
Improved sensitivity mass spec ...... charge reversal derivatization
@ast
Improved sensitivity mass spec ...... charge reversal derivatization
@en
Improved sensitivity mass spec ...... charge reversal derivatization
@nl
P2093
P2860
P356
P1433
P1476
Improved sensitivity mass spec ...... charge reversal derivatization
@en
P2093
Frantisek Turecek
James G Bollinger
Martin Sadilek
Michael H Gelb
Rob C Oslund
Wallace Thompson
P2860
P304
P356
10.1021/AC100720P
P407
P577
2010-08-01T00:00:00Z