scholarly article | Q13442814 |
P50 | author | Thomas J. Silhavy | Q7791145 |
Daniel Kahne | Q30158929 | ||
Natividad Ruiz | Q56152943 | ||
P2093 | author name string | Luisa S. Gronenberg | |
P2860 | cites work | Experimental Determination and System Level Analysis of Essential Genes in Escherichia coli MG1655 | Q22065459 |
The genome sequence of Blochmannia floridanus: comparative analysis of reduced genomes | Q22066232 | ||
Construction of Escherichia coli K-12 in-frame, single-gene knockout mutants: the Keio collection | Q22122301 | ||
Identification of an outer membrane protein required for the transport of lipopolysaccharide to the bacterial cell surface | Q24563106 | ||
Lipid A modification systems in gram-negative bacteria | Q24650951 | ||
Lipopolysaccharide endotoxins | Q24650970 | ||
Identification of a protein complex that assembles lipopolysaccharide in the outer membrane of Escherichia coli | Q24676474 | ||
EchoBASE: an integrated post-genomic database for Escherichia coli | Q24793655 | ||
Pfam: clans, web tools and services | Q25257103 | ||
Tight regulation, modulation, and high-level expression by vectors containing the arabinose PBAD promoter | Q27860697 | ||
One-step inactivation of chromosomal genes in Escherichia coli K-12 using PCR products | Q27860842 | ||
Transfer of palmitate from phospholipids to lipid A in outer membranes of gram-negative bacteria | Q28344828 | ||
Role of a highly conserved bacterial protein in outer membrane protein assembly | Q28492856 | ||
Characterization of lptA and lptB, two essential genes implicated in lipopolysaccharide transport to the outer membrane of Escherichia coli | Q28493151 | ||
An efficient recombination system for chromosome engineering in Escherichia coli | Q29615038 | ||
Molecular basis of bacterial outer membrane permeability revisited | Q29616208 | ||
Molecular basis of bacterial outer membrane permeability | Q29617897 | ||
Lipoprotein SmpA is a component of the YaeT complex that assembles outer membrane proteins in Escherichia coli | Q30158006 | ||
YfiO stabilizes the YaeT complex and is essential for outer membrane protein assembly in Escherichia coli | Q30159740 | ||
Chemical conditionality: a genetic strategy to probe organelle assembly | Q30160257 | ||
Sorting of lipoproteins to the outer membrane in E. coli | Q30160340 | ||
Lipid trafficking controls endotoxin acylation in outer membranes of Escherichia coli | Q30163861 | ||
Structure and function of bacterial outer membrane proteins: barrels in a nutshell | Q30168847 | ||
Lipid A modifications characteristic of Salmonella typhimurium are induced by NH4VO3 in Escherichia coli K12. Detection of 4-amino-4-deoxy-L-arabinose, phosphoethanolamine and palmitate | Q30717098 | ||
Identification and characterization of a new gene of Escherichia coli K-12 involved in outer membrane permeability | Q33955437 | ||
Global topology analysis of the Escherichia coli inner membrane proteome | Q34421914 | ||
Sec-translocase mediated membrane protein biogenesis | Q35951932 | ||
Defining the roles of the periplasmic chaperones SurA, Skp, and DegP in Escherichia coli | Q36012621 | ||
Sensing external stress: watchdogs of the Escherichia coli cell envelope | Q36085237 | ||
Identification, characterization, and mapping of the Escherichia coli htrA gene, whose product is essential for bacterial growth only at elevated temperatures | Q36175134 | ||
Advances in understanding bacterial outer-membrane biogenesis | Q36343565 | ||
Lipid trafficking to the outer membrane of Gram-negative bacteria | Q36455854 | ||
Structure and function of ABC transporters: the ATP switch provides flexible control | Q36579583 | ||
Lipopolysaccharide transport to the bacterial outer membrane in spheroplasts | Q38333619 | ||
Towards single-copy gene expression systems making gene cloning physiologically relevant: lambda InCh, a simple Escherichia coli plasmid-chromosome shuttle system | Q39498918 | ||
Deletion of lolB, encoding an outer membrane lipoprotein, is lethal for Escherichia coli and causes accumulation of lipoprotein localization intermediates in the periplasm | Q39505152 | ||
Transposition and fusion of the lac genes to selected promoters in Escherichia coli using bacteriophage lambda and Mu | Q39605636 | ||
GeneVenn - A web application for comparing gene lists using Venn diagrams | Q41908722 | ||
Genetic basis for activity differences between vancomycin and glycolipid derivatives of vancomycin. | Q43718660 | ||
Phospholipid flop induced by transmembrane peptides in model membranes is modulated by lipid composition | Q44270928 | ||
Genome size reduction through multiple events of gene disintegration in Buchnera APS. | Q47200218 | ||
Escherichia coli K12 regains its O antigen | Q48086956 | ||
Outer membrane of Salmonella typhimurium: accessibility of phospholipid head groups to phospholipase c and cyanogen bromide activated dextran in the external medium | Q50227422 | ||
SecG is an auxiliary component of the protein export apparatus of Escherichia coli. | Q54057946 | ||
Modification of lipopolysaccharide with colanic acid (M-antigen) repeats in Escherichia coli. | Q54448386 | ||
Sorting of lipoproteins to the outer membrane in E. coli | Q57752702 | ||
Identification of a Multicomponent Complex Required for Outer Membrane Biogenesis in Escherichia coli | Q57809995 | ||
Non-essential KDO biosynthesis and new essential cell envelope biogenesis genes in the Escherichia coli yrbG–yhbG locus | Q57834604 | ||
Meningitis bacterium is viable without endotoxin | Q59062689 | ||
Release of lipopolysaccharide by EDTA treatment of E. coli | Q70063556 | ||
Deletion of the heptosyltransferase genes rfaC and rfaF in Escherichia coli K-12 results in an Re-type lipopolysaccharide with a high degree of 2-aminoethanol phosphate substitution | Q73614583 | ||
Imp/OstA is required for cell envelope biogenesis in Escherichia coli | Q74706355 | ||
P433 | issue | 14 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Escherichia coli | Q25419 |
lipopolysaccharide | Q421804 | ||
membrane protein | Q423042 | ||
P304 | page(s) | 5537–5542 | |
P577 | publication date | 2008-04-08 | |
P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
P1476 | title | Identification of two inner-membrane proteins required for the transport of lipopolysaccharide to the outer membrane of Escherichia coli | |
P478 | volume | 105 |
Q89567919 | A cluster of residues in the lipopolysaccharide exporter that selects substrate variants for transport to the outer membrane |
Q36479175 | A comparison of the endotoxin biosynthesis and protein oxidation pathways in the biogenesis of the outer membrane of Escherichia coli and Neisseria meningitidis. |
Q50020754 | A novel inhibitor of the LolCDE ABC transporter essential for lipoprotein trafficking in Gram-negative bacteria. |
Q28828313 | A thiolate anion buried within the hydrocarbon ruler perturbs PagP lipid acyl chain selection |
Q37889037 | ABC transporters involved in the biogenesis of the outer membrane in gram-negative bacteria |
Q30153380 | Accumulation of phosphatidic acid increases vancomycin resistance in Escherichia coli |
Q57837837 | Aminoarabinose is essential for lipopolysaccharide export and intrinsic antimicrobial peptide resistance inBurkholderia cenocepacia† |
Q37194777 | An ABC transport system that maintains lipid asymmetry in the gram-negative outer membrane |
Q34426332 | Analysis of surface protein expression reveals the growth pattern of the gram-negative outer membrane |
Q99248337 | Antibiotic susceptibility signatures identify potential antimicrobial targets in the Acinetobacter baumannii cell envelope |
Q40260413 | Architectures of Lipid Transport Systems for the Bacterial Outer Membrane |
Q30155422 | Assembly of Outer Membrane β-Barrel Proteins: the Bam Complex |
Q34175962 | Bacterial cell wall. MurJ is the flippase of lipid-linked precursors for peptidoglycan biogenesis. |
Q34843809 | Bioinformatics identification of MurJ (MviN) as the peptidoglycan lipid II flippase in Escherichia coli |
Q41869207 | Biosynthesis of undecaprenyl phosphate-galactosamine and undecaprenyl phosphate-glucose in Francisella novicida |
Q88918474 | Cell-Wall Recycling of the Gram-Negative Bacteria and the Nexus to Antibiotic Resistance |
Q47662599 | Characterization of and lipopolysaccharide binding to the E. coli LptC protein dimer |
Q30157308 | Characterization of the role of the Escherichia coli periplasmic chaperone SurA using differential proteomics |
Q33777610 | Characterization of the two-protein complex in Escherichia coli responsible for lipopolysaccharide assembly at the outer membrane. |
Q34593511 | Charge requirements of lipid II flippase activity in Escherichia coli |
Q60044653 | Clinical, immunological and bacteriological characteristics of H7N9 patients nosocomially co-infected by Acinetobacter Baumannii: a case control study |
Q92734641 | Combining Mutations That Inhibit Two Distinct Steps of the ATP Hydrolysis Cycle Restores Wild-Type Function in the Lipopolysaccharide Transporter and Shows that ATP Binding Triggers Transport |
Q37248350 | Computational and experimental approaches to chart the Escherichia coli cell-envelope-associated proteome and interactome |
Q31042088 | Concentration-dependent oligomerization and oligomeric arrangement of LptA. |
Q90283552 | Countering Gram-Negative Antibiotic Resistance: Recent Progress in Disrupting the Outer Membrane with Novel Therapeutics |
Q90100582 | Cryo-EM structures of lipopolysaccharide transporter LptB2FGC in lipopolysaccharide or AMP-PNP-bound states reveal its transport mechanism |
Q28492823 | Cytoplasmic ATP hydrolysis powers transport of lipopolysaccharide across the periplasm in E. coli |
Q27682277 | Decoupling catalytic activity from biological function of the ATPase that powers lipopolysaccharide transport |
Q37382721 | Defining the mode of action of tetramic acid antibacterials derived from Pseudomonas aeruginosa quorum sensing signals |
Q30153460 | DegP primarily functions as a protease for the biogenesis of β-barrel outer membrane proteins in the Gram-negative bacterium Escherichia coli. |
Q33529806 | Development of an activity assay for discovery of inhibitors of lipopolysaccharide transport |
Q34599513 | Discovery of new biosynthetic pathways: the lipid A story. |
Q57789790 | Disrupting Gram-Negative Bacterial Outer Membrane Biosynthesis through Inhibition of the Lipopolysaccharide Transporter MsbA |
Q37318789 | Disruption of LptA oligomerization and affinity of the LptA-LptC interaction |
Q36710418 | Disruption of lipid homeostasis in the Gram-negative cell envelope activates a novel cell death pathway |
Q52315526 | Disruption of the E. coli LptC dimerization interface and characterization of lipopolysaccharide and LptA binding to monomeric LptC. |
Q35195501 | Dissecting Escherichia coli outer membrane biogenesis using differential proteomics |
Q30155150 | Dominant negative lptE mutation that supports a role for LptE as a plug in the LptD barrel |
Q46509256 | EchoLOCATION: an in silico analysis of the subcellular locations of Escherichia coli proteins and comparison with experimentally derived locations |
Q39006920 | Envelope Stress Responses: An Interconnected Safety Net. |
Q93001418 | Evidence for phospholipid export from the bacterial inner membrane by the Mla ABC transport system |
Q34056879 | Folding LacZ in the periplasm of Escherichia coli |
Q90682005 | Function and Biogenesis of Lipopolysaccharides |
Q39720829 | Functional Interaction between the Cytoplasmic ABC Protein LptB and the Inner Membrane LptC Protein, Components of the Lipopolysaccharide Transport Machinery in Escherichia coli. |
Q24646865 | Functional analysis of the protein machinery required for transport of lipopolysaccharide to the outer membrane of Escherichia coli |
Q38308149 | Functional characterization of E. coli LptC: interaction with LPS and a synthetic ligand. |
Q34281598 | Functional equivalence and evolutionary convergence in complex communities of microbial sponge symbionts |
Q28478052 | Genetic interaction maps in Escherichia coli reveal functional crosstalk among cell envelope biogenesis pathways |
Q38654112 | Genetic, Biochemical, and Structural Analyses of Bacterial Surface Polysaccharides |
Q41903270 | Ght protein of Neisseria meningitidis is involved in the regulation of lipopolysaccharide biosynthesis |
Q50050835 | High-pressure EPR spectroscopy studies of the E. coli lipopolysaccharide transport proteins LptA and LptC. |
Q37371821 | Identification of Residues in the Lipopolysaccharide ABC Transporter That Coordinate ATPase Activity with Extractor Function |
Q64273901 | Improper Coordination of BamA and BamD Results in Bam Complex Jamming by a Lipoprotein Substrate |
Q92919416 | In-silico Prediction of Synergistic Anti-Cancer Drug Combinations Using Multi-omics Data |
Q38602993 | Interaction of lipopolysaccharides at intermolecular sites of the periplasmic Lpt transport assembly |
Q30153408 | Involvement of Neisseria meningitidis lipoprotein GNA2091 in the assembly of a subset of outer membrane proteins |
Q35468441 | Kdo2 -lipid A: structural diversity and impact on immunopharmacology |
Q37735992 | Lipid outward translocation by ABC proteins |
Q92668069 | Lipid trafficking across the Gram-negative cell envelope |
Q92867196 | Lipopolysaccharide Biosynthesis and Transport to the Outer Membrane of Gram-Negative Bacteria |
Q49959526 | Lipopolysaccharide is transported to the cell surface by a membrane-to-membrane protein bridge |
Q37077552 | Lipopolysaccharide transport and assembly at the outer membrane: the PEZ model |
Q36247124 | Lipopolysaccharide transport to the cell surface: biosynthesis and extraction from the inner membrane |
Q30155881 | Lipoprotein LptE is required for the assembly of LptD by the beta-barrel assembly machine in the outer membrane of Escherichia coli |
Q27684372 | LptE binds to and alters the physical state of LPS to catalyze its assembly at the cell surface |
Q30152715 | Making a membrane on the other side of the wall |
Q83232167 | Massive antibody discovery used to probe structure-function relationships of the essential outer membrane protein LptD |
Q41620361 | Massive formation of intracellular membrane vesicles in Escherichia coli by a monotopic membrane-bound lipid glycosyltransferase |
Q38856661 | Mechanistic diversity in ATP-binding cassette (ABC) transporters |
Q30157115 | Molecular mechanism for lateral lipid diffusion between the outer membrane external leaflet and a beta-barrel hydrocarbon ruler |
Q38367630 | Mutant Alleles of lptD Increase the Permeability of Pseudomonas aeruginosa and Define Determinants of Intrinsic Resistance to Antibiotics |
Q47434103 | Mutation and Suppressor Analysis of the Essential Lipopolysaccharide Transport Protein LptA Reveals Strategies To Overcome Severe Outer Membrane Permeability Defects in Escherichia coli. |
Q34888328 | Mutational analysis of the Shigella flexneri O-antigen polymerase Wzy: identification of Wzz-dependent Wzy mutants. |
Q42706787 | New insights into the Lpt machinery for lipopolysaccharide transport to the cell surface: LptA-LptC interaction and LptA stability as sensors of a properly assembled transenvelope complex |
Q33982252 | Nonconsecutive disulfide bond formation in an essential integral outer membrane protein |
Q57831037 | Novobiocin Enhances Polymyxin Activity by Stimulating Lipopolysaccharide Transport |
Q37682305 | On the essentiality of lipopolysaccharide to Gram-negative bacteria |
Q57284388 | Outer Membrane Translocon Communicates with Inner Membrane ATPase To Stop Lipopolysaccharide Transport |
Q47786390 | Outer membrane lipid homeostasis via retrograde phospholipid transport in Escherichia coli |
Q64935177 | Outer-membrane protein LptD (PA0595) plays a role in the regulation of alginate synthesis in Pseudomonas aeruginosa. |
Q64274658 | Peptidoglycan Remodeling Enables Escherichia coli To Survive Severe Outer Membrane Assembly Defect |
Q36893539 | Periplasmic orientation of nascent lipid A in the inner membrane of an Escherichia coli LptA mutant |
Q91741548 | Predicting ATP-Binding Cassette Transporters Using the Random Forest Method |
Q30153518 | Protease homolog BepA (YfgC) promotes assembly and degradation of β-barrel membrane proteins in Escherichia coli |
Q40875352 | Proteins required for lipopolysaccharide assembly in Escherichia coli form a transenvelope complex. |
Q30409962 | Proteins that bind and move lipids: MsbA and NPC1. |
Q57795017 | Pseudomonas aeruginosa LptE is crucial for LptD assembly, cell envelope integrity, antibiotic resistance and virulence |
Q42068544 | Regulated assembly of the transenvelope protein complex required for lipopolysaccharide export |
Q36280073 | Regulation of cell size in response to nutrient availability by fatty acid biosynthesis in Escherichia coli |
Q42667309 | Replacement of lipopolysaccharide with free lipid A molecules in Escherichia coli mutants lacking all core sugars |
Q30152790 | Structural and Functional Characterization of the LPS Transporter LptDE from Gram-Negative Pathogens |
Q41309993 | Structural and functional insights into the lipopolysaccharide ABC transporter LptB2FG. |
Q50922953 | Structural basis for lipopolysaccharide extraction by ABC transporter LptB2FG. |
Q28493206 | Structural basis for lipopolysaccharide insertion in the bacterial outer membrane |
Q92512789 | Structural basis of unidirectional export of lipopolysaccharide to the cell surface |
Q28385813 | Structural insights into cardiolipin transfer from the Inner membrane to the outer membrane by PbgA in Gram-negative bacteria |
Q27664087 | Structure and Functional Analysis of LptC, a Conserved Membrane Protein Involved in the Lipopolysaccharide Export Pathway in Escherichia coli |
Q27677157 | Structure ofNeisseria meningitidislipoprotein GNA1162 |
Q24643436 | Structure, function, and evolution of bacterial ATP-binding cassette systems |
Q34363302 | Structure-function analysis of MurJ reveals a solvent-exposed cavity containing residues essential for peptidoglycan biogenesis in Escherichia coli |
Q49790599 | Substrate binding to BamD triggers a conformational change in BamA to control membrane insertion |
Q41958187 | The ABC transporters in Candidatus Liberibacter asiaticus |
Q48307993 | The Antibiotic Novobiocin Binds and Activates the ATPase That Powers Lipopolysaccharide Transport. |
Q30155481 | The Bam machine: a molecular cooper |
Q27675763 | The Escherichia coli Lpt Transenvelope Protein Complex for Lipopolysaccharide Export Is Assembled via Conserved Structurally Homologous Domains |
Q54413248 | The Klebsiella pneumoniae O2a antigen defines a second mechanism for O antigen ATP-binding cassette transporters. |
Q36104976 | The Lack of the Essential LptC Protein in the Trans-Envelope Lipopolysaccharide Transport Machine Is Circumvented by Suppressor Mutations in LptF, an Inner Membrane Component of the Escherichia coli Transporter |
Q40088576 | The LptA protein of Escherichia coli is a periplasmic lipid A-binding protein involved in the lipopolysaccharide export pathway |
Q38672707 | The LptD chaperone LptE is not directly involved in lipopolysaccharide transport in Neisseria meningitidis |
Q37546476 | The Vps/VacJ ABC transporter is required for intercellular spread of Shigella flexneri |
Q30603684 | The antimicrobial mechanism of action of epsilon-poly-l-lysine |
Q33800394 | The bacterial cell envelope |
Q37036234 | The immunomodulatory lipoglycans, lipoarabinomannan and lipomannan, are exposed at the mycobacterial cell surface |
Q38189243 | The lipopolysaccharide export pathway in Escherichia coli: structure, organization and regulated assembly of the Lpt machinery |
Q40063918 | The lipopolysaccharide transport (Lpt) machinery: a non-conventional transporter for lipopolysaccharide assembly at the outer membrane of Gram-negative bacteria. |
Q41198856 | The reconstituted Escherichia coli MsbA protein displays lipid flippase activity |
Q24644820 | Transport of lipopolysaccharide across the cell envelope: the long road of discovery |
Q38514161 | Transport of lipopolysaccharide to the Gram-negative bacterial cell surface |
Q34715492 | Validation of inhibitors of an ABC transporter required to transport lipopolysaccharide to the cell surface in Escherichia coli |
Q58707790 | Whole-genome sequencing and comparative analysis of two plant-associated strains of Rhodopseudomonas palustris (PS3 and YSC3) |
Search more.