scholarly article | Q13442814 |
P50 | author | David R. Zusman | Q109869240 |
P2093 | author name string | W Dowhan | |
W Shi | |||
M Bogdanov | |||
P2860 | cites work | Studies on the mechanism of formation of the pyruvate prosthetic group of phosphatidylserine decarboxylase from Escherichia coli | Q28299152 |
An apaH mutation causes AppppA to accumulate and affects motility and catabolite repression in Escherichia coli | Q34286468 | ||
Adverse conditions which cause lack of flagella in Escherichia coli | Q36098146 | ||
Mechanism of adverse conditions causing lack of flagella in Escherichia coli | Q36098168 | ||
DnaK, DnaJ, and GrpE are required for flagellum synthesis in Escherichia coli | Q36140461 | ||
The two motility systems of Myxococcus xanthus show different selective advantages on various surfaces | Q36241145 | ||
Transcriptional control of flagellar genes in Escherichia coli K-12 | Q36262495 | ||
Cardiolipin Accumulation in the Inner and Outer Membranes of Escherichia coli Mutants Defective in Phosphatidylserine Synthetase | Q36315544 | ||
Fusions of flagellar operons to lactose genes on a mu lac bacteriophage | Q36384451 | ||
Use of a computer to assay motility in bacteria | Q36428435 | ||
Flagellar formation in Escherichia coli electron transport mutants | Q36601398 | ||
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The bacterial flagellum and flagellar motor: structure, assembly and function | Q37283162 | ||
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Transposition and fusion of the lac genes to selected promoters in Escherichia coli using bacteriophage lambda and Mu | Q39605636 | ||
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Alteration of phospholipid composition by combined defects in phosphatidylserine and cardiolipin synthases and physiological consequences in Escherichia coli. | Q39966845 | ||
The role of cAMP in flagellation of Salmonella typhimurium | Q39991343 | ||
Phosphatidylserine synthetase mutants of Escherichia coli. Genetic mapping and membrane phospholipid composition | Q39995868 | ||
Envelope composition and antibiotic hypersensitivity of Escherichia coli mutants defective in phosphatidylserine synthetase | Q40084858 | ||
Phospholipid composition and membrane function in phosphatidylserine decarboxylase mutants of Escherichia coli | Q40956546 | ||
The role of cyclic AMP in chemotaxis in Escherichia coli | Q44022465 | ||
Sequence and inactivation of the pss gene of Escherichia coli. Phosphatidylethanolamine may not be essential for cell viability | Q45213873 | ||
Gene fliA encodes an alternative sigma factor specific for flagellar operons in Salmonella typhimurium. | Q50465502 | ||
Properties of Escherichia coli mutants lacking membrane-derived oligosaccharides. | Q54740295 | ||
A Method for Measuring Chemotaxis and Use of the Method to Determine Optimum Conditions for Chemotaxis by Escherichia coli | Q69383281 | ||
Chemotaxis in Bacteria | Q69987626 | ||
The effect of environmental conditions on the motility of Escherichia coli | Q69994300 | ||
Cloning of genes involved in membrane lipid synthesis. Effects of amplification of phosphatidylserine synthase in Escherichia coli | Q72879364 | ||
P433 | issue | 23 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Escherichia coli | Q25419 |
chemotaxis | Q658145 | ||
P304 | page(s) | 7711-7714 | |
P577 | publication date | 1993-12-01 | |
P1433 | published in | Journal of Bacteriology | Q478419 |
P1476 | title | The pss and psd genes are required for motility and chemotaxis in Escherichia coli | |
P478 | volume | 175 |
Q34696917 | A complex transcription network controls the early stages of biofilm development by Escherichia coli |
Q26995227 | A retrospective: use of Escherichia coli as a vehicle to study phospholipid synthesis and function |
Q38415713 | Bacterial membrane lipids: diversity in structures and pathways |
Q35107574 | Biogenesis and cellular dynamics of aminoglycerophospholipids |
Q35728329 | Characterization of unique modification of flagellar rod protein FlgG by Campylobacter jejuni lipid A phosphoethanolamine transferase, linking bacterial locomotion and antimicrobial peptide resistance |
Q30918003 | Completion of the hook-basal body complex of the Salmonella typhimurium flagellum is coupled to FlgM secretion and fliC transcription |
Q34010272 | Coupling of flagellar gene expression to flagellar assembly in Salmonella enterica serovar typhimurium and Escherichia coli |
Q39734749 | DNA microarray analyses of the long-term adaptive response of Escherichia coli to acetate and propionate. |
Q43564865 | Depletion of phosphatidylethanolamine affects secretion of Escherichia coli alkaline phosphatase and its transcriptional expression |
Q39694522 | Effects of lipoprotein biogenesis mutations on flagellar assembly in Salmonella |
Q35600293 | Escherichia coli fliAZY operon |
Q77521453 | Genetic analysis of lipid-protein interactions in Escherichia coli membranes |
Q33994555 | H-NS-Dependent regulation of flagellar synthesis is mediated by a LysR family protein |
Q33570986 | Identifying essential genes in bacterial metabolic networks with machine learning methods |
Q37596086 | Increased motility of Escherichia coli by insertion sequence element integration into the regulatory region of the flhD operon |
Q38364145 | LrhA as a new transcriptional key regulator of flagella, motility and chemotaxis genes in Escherichia coli. |
Q39837971 | Modulation of flagellar expression in Escherichia coli by acetyl phosphate and the osmoregulator OmpR. |
Q26850418 | Molecular genetic and biochemical approaches for defining lipid-dependent membrane protein folding |
Q33682035 | Molecular inroads into the regulation and metabolism of fatty acids, lessons from bacteria |
Q37545605 | Moraxella catarrhalis expresses a cardiolipin synthase that impacts adherence to human epithelial cells |
Q33993289 | Multiple control of flagellum biosynthesis in Escherichia coli: role of H-NS protein and the cyclic AMP-catabolite activator protein complex in transcription of the flhDC master operon |
Q54520719 | New members of the Escherichia coli sigmaE regulon identified by a two-plasmid system. |
Q38718587 | Phosphatidylethanolamine Deficiency Impairs Escherichia coli Adhesion by Downregulating Lipopolysaccharide Synthesis, Which is Reversible by High Galactose/Lactose Cultivation |
Q40634250 | Phosphatidylethanolamine is not essential for growth of Sinorhizobium meliloti on complex culture media |
Q36994370 | Phosphatidylethanolamine synthesis is required for optimal virulence of Brucella abortus |
Q38302059 | Positive regulation of motility and flhDC expression by the RNA-binding protein CsrA of Escherichia coli |
Q54457592 | Repressive effect of imbalance in the phospholipid composition and total charge of membranes of Escherichia coli on the phoA gene transcription. |
Q39847851 | Rhizobium meliloti mutants deficient in phospholipid N-methyltransferase still contain phosphatidylcholine. |
Q43195128 | Sinorhizobium meliloti mutants deficient in phosphatidylserine decarboxylase accumulate phosphatidylserine and are strongly affected during symbiosis with alfalfa |
Q63359756 | Synthetic Minimal Cell: Self-Reproduction of the Boundary Layer |
Q39694510 | The ClpXP ATP-dependent protease regulates flagellum synthesis in Salmonella enterica serovar typhimurium. |
Q35974947 | The H-NS protein is involved in the biogenesis of flagella in Escherichia coli |
Q39846736 | The Helicobacter pylori gene encoding phosphatidylserine synthase: sequence, expression, and insertional mutagenesis |
Q34484938 | The Rcs Signal Transduction Pathway Is Triggered by Enterobacterial Common Antigen Structure Alterations inSerratia marcescens |
Q35621759 | The flk gene of Salmonella typhimurium couples flagellar P- and L-ring assembly to flagellar morphogenesis |
Q37670415 | Transcriptomic Analysis of Thermally Stressed Symbiodinium Reveals Differential Expression of Stress and Metabolism Genes. |
Q39845489 | Unbalanced membrane phospholipid compositions affect transcriptional expression of certain regulatory genes in Escherichia coli |
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