Microextraction of bacterial lipid A: easy and rapid method for mass spectrometric characterization.
about
Naturally occurring lipid A mutants in neisseria meningitidis from patients with invasive meningococcal disease are associated with reduced coagulopathyA divergent Pseudomonas aeruginosa palmitoyltransferase essential for cystic fibrosis-specific lipid A.Genotypic and phenotypic analyses of a Pseudomonas aeruginosa chronic bronchiectasis isolate reveal differences from cystic fibrosis and laboratory strains.Characterization of the AggR regulon in enteroaggregative Escherichia coli.Microwave-assisted sample preparation for rapid and sensitive analysis of H. pylori lipid A applicable to a single colony.A rapid, small-scale procedure for the structural characterization of lipid A applied to Citrobacter and Bordetella strains: discovery of a new structural element.A Francisella mutant in lipid A carbohydrate modification elicits protective immunity.Glucosamine found as a substituent of both phosphate groups in Bordetella lipid A backbones: role of a BvgAS-activated ArnT orthologStudy of matrix additives for sensitive analysis of lipid A by matrix-assisted laser desorption ionization mass spectrometry.Dissection of host cell signal transduction during Acinetobacter baumannii-triggered inflammatory responseBordetella holmesii: Lipid A Structures and Corresponding Genomic Sequences Comparison in Three Clinical Isolates and the Reference Strain ATCC 51541.Substitution of the Bordetella pertussis lipid A phosphate groups with glucosamine is required for robust NF-kappaB activation and release of proinflammatory cytokines in cells expressing human but not murine Toll-like receptor 4-MD-2-CD14Phosphoethanolamine modification of lipid A in colistin-resistant variants of Acinetobacter baumannii mediated by the pmrAB two-component regulatory system.A new rapid and micro-scale hydrolysis, using triethylamine citrate, for lipopolysaccharide characterization by mass spectrometry.A transposon site hybridization screen identifies galU and wecBC as important for survival of Yersinia pestis in murine macrophagesThe lipopolysaccharide core of Brucella abortus acts as a shield against innate immunity recognitionStructural characterization of bacterial lipopolysaccharides with mass spectrometry and on- and off-line separation techniques.Characterization of WRSs2 and WRSs3, new second-generation virG(icsA)-based Shigella sonnei vaccine candidates with the potential for reduced reactogenicity.Deciphering the acylation pattern of Yersinia enterocolitica lipid A.Global and Targeted Lipid Analysis of Gemmata obscuriglobus Reveals the Presence of Lipopolysaccharide, a Signature of the Classical Gram-Negative Outer MembraneLipopolysaccharides belonging to different Salmonella serovars are differentially capable of activating Toll-like receptor 4.A rapid one-step method for the characterization of membrane lipid remodeling in Francisella using matrix-assisted laser desorption ionization time-of-flight tandem mass spectrometry.Bordetella pertussis naturally occurring isolates with altered lipooligosaccharide structure fail to fully mature human dendritic cellsAnalysis of the networks controlling the antimicrobial-peptide-dependent induction of Klebsiella pneumoniae virulence factorsExpression of the lipopolysaccharide biosynthesis gene lpxD affects biofilm formation of Pseudomonas aeruginosa.Colistin-resistant Acinetobacter baumannii: beyond carbapenem resistanceBurkholderia cenocepacia and Salmonella enterica ArnT proteins that transfer 4-amino-4-deoxy-l-arabinose to lipopolysaccharide share membrane topology and functional amino acids.Role of Francisella lipid A phosphate modification in virulence and long-term protective immune responses.Direct detection of lipid A on intact Gram-negative bacteria by MALDI-TOF mass spectrometry.Norharmane Matrix Enhances Detection of Endotoxin by MALDI-MS for Simultaneous Profiling of Pathogen, Host, and Vector Systems.Site-specific activity of the acyltransferases HtrB1 and HtrB2 in Pseudomonas aeruginosa lipid A biosynthesisDeciphering tissue-induced Klebsiella pneumoniae lipid A structure.Micromethods for Isolation and Structural Characterization of Lipid A, and Polysaccharide Regions of Bacterial Lipopolysaccharides.Mass Spectrometry for Profiling LOS and Lipid A Structures from Whole-Cell Lysates: Directly from a Few Bacterial Colonies or from Liquid Broth Cultures.Modification of the 1-Phosphate Group during Biosynthesis of Capnocytophaga canimorsus Lipid A.Activities of vancomycin-containing regimens against colistin-resistant Acinetobacter baumannii clinical strains.Minor modifications to the phosphate groups and the C3' acyl chain length of lipid A in two Bordetella pertussis strains, BP338 and 18-323, independently affect Toll-like receptor 4 protein activationStructural characterization of Bordetella parapertussis lipid A.Identification of a novel lipopolysaccharide core biosynthesis gene cluster in Bordetella pertussis, and influence of core structure and lipid A glucosamine substitution on endotoxic activity.Unique structural modifications are present in the lipopolysaccharide from colistin-resistant strains of Acinetobacter baumannii.
P2860
Q28475336-D7448D62-8E65-48AD-B901-233F32CBD68CQ30153476-58006F56-451E-448A-A57D-D4F8A31DBE78Q30278439-80532EF1-0E55-4657-B013-E57DFE1A077DQ30418503-E7CEC23A-556E-4490-8B25-3D81CA850FAAQ30862776-D5D26D7D-DCA9-451E-84E6-02C8A07572E9Q33294337-869D99A7-13CA-4025-A79E-1F9E3056106FQ33319275-2FE4F87D-6BB6-470C-9D12-64BEFD21A3D5Q33329463-5021AC18-80D5-4188-91F6-72A6F0907D7CQ33552151-6F25F3D3-E10C-4FF8-A4A5-DC30ADE80101Q33552294-A5635C31-B8FD-4F62-A554-F2402CF99C4FQ33755402-10E4D42E-BA2D-4B42-B42E-1097DD9ADEC8Q33825974-AB419511-5C4D-495F-A9C9-570AB1887337Q33901939-3A1FABE3-2E2A-4BA4-8602-25DDBEC69092Q33941425-3CC666CC-04C8-4B2B-AB01-29358D92D5F9Q34090477-05054890-0EE5-401A-8183-4D764580A912Q34270392-46F7AACD-CB33-4830-8627-5726BDB3166AQ34312726-3E672F83-B527-4420-923D-78EBDDBC024AQ34394744-179707DC-FED1-4B59-8BF2-8089CB14AC86Q34468935-4B0CD7EB-BA56-422E-9442-032CF2A009B5Q34498653-5A7EA435-3B7D-4789-8883-F2F1C665705AQ34596093-83F85C9C-37E1-40D8-88E4-6B9F569A7314Q34711643-1A227D90-36B2-480B-80A9-759F451F4F50Q34889754-6B1EFB34-F12A-46B8-BEA7-392A408E7B90Q35191878-D921FC00-9BFC-4C75-AEA5-A43C16B97452Q35235560-E8BD9780-E17C-4D1F-B4A4-193DE7324409Q35551122-DD0F4384-BDE6-4DD9-A645-19CE71CE4D32Q35647818-E7504F04-4AEC-428A-B0CC-6382D4FC45F6Q35805338-DFE5B3E1-DC08-4B66-AFA1-259CE7F492C3Q35865963-CC0D696D-B0A6-4191-B677-6E3EFE88BCA8Q36138907-F25FC161-DF26-4D62-BC05-8FB4CAA8631EQ36226493-097FB2BB-680B-4AB5-8323-98A0A879424CQ36306056-D4ADA3AB-8846-4233-A952-70CE5DA59F1CQ36365050-433E20F6-BEF7-4E00-B54E-181A5C45CA12Q36365055-C0F5388B-8443-4452-8495-0E09810C7BA1Q36513466-B932A4AE-A129-46F3-AB91-FCA4A000F529Q36785869-BDB5ECB6-7805-49F6-8BA8-D18FCC032328Q36796799-3CA82FA7-9442-4BC0-853A-CD0B46F93345Q37151829-EBE01547-AD8A-442F-9444-BDE85A3A8BFDQ37256450-5BF49584-E285-4A94-9ADB-95A35E35ABF1Q37263796-0A15A5D5-4BD0-4F56-AA72-BF8DDD77E23F
P2860
Microextraction of bacterial lipid A: easy and rapid method for mass spectrometric characterization.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh-hant
name
Microextraction of bacterial l ...... pectrometric characterization.
@en
Microextraction of bacterial l ...... pectrometric characterization.
@nl
type
label
Microextraction of bacterial l ...... pectrometric characterization.
@en
Microextraction of bacterial l ...... pectrometric characterization.
@nl
prefLabel
Microextraction of bacterial l ...... pectrometric characterization.
@en
Microextraction of bacterial l ...... pectrometric characterization.
@nl
P2093
P2860
P1476
Microextraction of bacterial l ...... pectrometric characterization.
@en
P2093
Ahmed Hussein
Alexey Novikov
Alina Tirsoaga
Asmaa El Hamidi
Martine Caroff
P2860
P304
P356
10.1194/JLR.D500014-JLR200
P577
2005-06-01T00:00:00Z