scholarly article | Q13442814 |
P2093 | author name string | R. L. Bennett | |
G. R. Willsky | |||
M. H. Malamy | |||
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A possible negative feedback phenomenon controlling formation of alkaline phosphomonoesterase in Escherichia coli | Q34246459 | ||
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Positive Control of Enzyme Synthesis by Gene C in the l -Arabinose System | Q35169224 | ||
Reactivation and hybridization of reduced alkaline phosphatase | Q36395694 | ||
Genetic control of induction of alkaline phosphatase synthesis in E. coli | Q36395952 | ||
Utilization of L-alpha-glycerophosphate by Escherichia coli without hydrolysis | Q36397839 | ||
Physiological Factors in the Regulation of Alkaline Phosphatase Synthesis in Escherichia coli | Q36775457 | ||
Properties of two regulating genes for alkaline phosphatase. | Q37420810 | ||
Mutants of Escherichia coli constitutive for alkaline phosphatase. | Q37467700 | ||
Genetic mapping of regulator gene phoS for alkaline phosphatase in Escherichia coli | Q40122620 | ||
An improved method for the colorimetric determination of phosphate | Q42086047 | ||
Histidine regulation in Salmonella typhimurium. XI. The percentage of transfer RNA His charged in vivo and its relation to the repression of the histidine operon | Q50236905 | ||
Arsenate resistant mutants of Escherichia coli and phosphate transport. | Q54336758 | ||
Genetic Control of Hexose Phosphate Uptake by Escherichia coli | Q59014034 | ||
Phosphate transport in Escherichia coli | Q68638043 | ||
Genetic control of basal level of alkaline phosphatase in Escherichia coli | Q69896810 | ||
ISOLATION OF A PROTEIN SPECIFIED BY A REGULATOR GENE | Q76911352 | ||
Genetic control of repression of alkaline phosphatase in E. coli | Q78931115 | ||
Influence of inorganic phosphate in the formation of phosphatases by Escherichia coli | Q79291089 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Escherichia coli | Q25419 |
microbiology | Q7193 | ||
P304 | page(s) | 529-539 | |
P577 | publication date | 1973-02-01 | |
P1433 | published in | Journal of Bacteriology | Q478419 |
P1476 | title | Inorganic phosphate transport in Escherichia coli: involvement of two genes which play a role in alkaline phosphatase regulation | |
Inorganic Phosphate Transport in Escherichia coli : Involvement of Two Genes Which Play a Role in Alkaline Phosphatase Regulation | |||
P478 | volume | 113 |
Q81046702 | A constitutive mutation, phoT, of the repressible acid phosphatase synthesis with inability to transport inorganic phosphate in Saccharomyces cerevisiae |
Q67473141 | A mutant of Escherichia coli auxotrophic for organic phosphates: evidence for two defects in inorganic phosphate transport |
Q70404041 | A new locus in the phosphate specific transport (PST) region of Escherichia coli |
Q39504443 | Activation by gene amplification of pitB, encoding a third phosphate transporter of Escherichia coli K-12. |
Q66900225 | Analysis of the regulation of Escherichia coli alkaline phosphatase synthesis using deletions and φ80 transducing phages |
Q36289754 | Antisuppressor mutation in Escherichia coli defective in biosynthesis of 5-methylaminomethyl-2-thiouridine |
Q40802229 | Arsenate-resistant alkaline phosphatase-constitutive mutants of Escherichia coli |
Q36262693 | Bacterial alkaline phosphatase clonal variation in some Escherichia coli K-12 phoR mutant strains |
Q98564402 | Boosting toxic protein biosynthesis: transient in vivo inactivation of engineered bacterial alkaline phosphatase |
Q39971627 | Characteristics of a binding protein-dependent transport system for sn-glycerol-3-phosphate in Escherichia coli that is part of the pho regulon. |
Q30328512 | Characterization of PitA and PitB from Escherichia coli. |
Q27932223 | Characterization of a Dominant, Constitutive Mutation, PHOO , for the Repressible Acid Phosphatase Synthesis in Saccharomyces cerevisiae |
Q34159262 | Characterization of two genetically separable inorganic phosphate transport systems in Escherichia coli. |
Q36318234 | Cloning and characterization of the Escherichia coli gene coding for alkaline phosphatase |
Q39973852 | Cloning and restriction mapping of the alkaline phosphatase structural gene (phoA) of Escherichia coli and generation of deletion mutants in vitro |
Q39987836 | Cloning of and complementation tests with alkaline phosphatase regulatory genes (phoS and phoT) of Escherichia coli |
Q40335696 | Co-regulation in Escherichia coli of a novel transport system for sn-glycerol-3-phosphate and outer membrane protein Ic (e, E) with alkaline phosphatase and phosphate-binding protein. |
Q36581547 | Co-regulation of the phosphate-binding protein and alkaline phosphatase synthesis in Escherichia coli |
Q36320988 | Complementation tests between alkaline phosphatase-constitutive mutants (phoS and phoT) of Escherichia coli. |
Q40074742 | Control of the production of orthophosphate repressible extracellular enzymes in Neurospora crassa |
Q36581498 | Control of the synthesis of alkaline phosphatase and the phosphate-binding protein in Escherichia coli |
Q67269679 | Depression of alkaline phosphatase in Hfr of Escherichia coli during conjugation |
Q67522153 | Discrimination of Rhizobium japonicum, Rhizobium lupini, Rhizobium trifolii, Rhizobium leguminosarum and of bacteroids by uptake of 2-ketoglutaric acid, glutamic acid and phosphate |
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Q36321845 | Effect of cobalt on synthesis and activation of Bacillus licheniformis alkaline phosphatase |
Q36405049 | Effect of silver ions on transport and retention of phosphate by Escherichia coli. |
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Q36369347 | Excretion of alkaline phosphatase by Escherichia coli K-12 pho constitutive mutants transformed with plasmids carrying the alkaline phosphatase structural gene. |
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Q36320462 | Genetic and physiological tests of three phosphate-specific transport mutants of Escherichia coli |
Q40337206 | Genetic characterization of a filament-forming, lipoprotein-deficient mutant of Escherichia coli |
Q70241153 | Hyperproduction of Phosphate‐Binding Protein, phoS, and pre‐phoS Proteins in Escherichia coli Carrying a Cloned phoS Gene |
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Q35943211 | Induction of the Pho regulon suppresses the growth defect of an Escherichia coli sgrS mutant, connecting phosphate metabolism to the glucose-phosphate stress response |
Q36418098 | Involvement of inner and outer membrane components in the transport of iron and in colicin B action in Escherichia coli |
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Q34026034 | Life and death with arsenic. Arsenic life: an analysis of the recent report "A bacterium that can grow by using arsenic instead of phosphorus". |
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Q39989471 | Low-temperature conditional cell division mutants of Escherichia coli |
Q39971633 | Mapping of two ugp genes coding for the pho regulon-dependent sn-glycerol-3-phosphate transport system of Escherichia coli |
Q36804404 | Modulation of hexa-acyl pyrophosphate lipid A population under Escherichia coli phosphate (Pho) regulon activation |
Q36425698 | Molecular cloning of the phosphate (inorganic) transport (pit) gene of Escherichia coli K12. Identification of the pit+ gene product and physical mapping of the pit-gor region of the chromosome. |
Q24533511 | Mutants affected in alkaline phosphatase, expression: evidence for multiple positive regulators of the phosphate regulon in Escherichia coli. |
Q36258835 | Nucleotide sequence of the phoM region of Escherichia coli: four open reading frames may constitute an operon |
Q39968007 | Nucleotide sequence of the phoS gene, the structural gene for the phosphate-binding protein of Escherichia coli |
Q40335704 | Outer membrane protein e of Escherichia coli K-12 is co-regulated with alkaline phosphatase. |
Q34304715 | Pathways of arsenic uptake and efflux. |
Q36311508 | Phosphate exchange in the pit transport system in Escherichia coli. |
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Q36289345 | Phosphate-specific transport system of Escherichia coli: nucleotide sequence and gene-polypeptide relationships |
Q36309522 | Phospholipase C regulatory mutation of Pseudomonas aeruginosa that results in constitutive synthesis of several phosphate-repressible proteins. |
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Q36759122 | Pleiotropic effects of mutations involved in the regulation of Escherichia coli K-12 alkaline phosphatase |
Q69243305 | Production of acid and alkaline phosphatases by Myxococcus coralloides |
Q37427039 | Proteus mirabilis genes that contribute to pathogenesis of urinary tract infection: identification of 25 signature-tagged mutants attenuated at least 100-fold |
Q36260132 | Purification of the phoU protein, a negative regulator of the pho regulon of Escherichia coli K-12. |
Q34071116 | Recalibrated linkage map of Escherichia coli K-12 |
Q44043625 | Regulation of Escherichia coli K10 Aminoendopeptidase Synthesis. Effects of Mutations Involved in the Regulation of Alkaline Phosphatase |
Q36312016 | Regulation of Phosphate Accumulation in the Unicellular Cyanobacterium Synechococcus |
Q39969487 | Regulation of the phosphate regulon in Escherichia coli K-12: regulation of the negative regulatory gene phoU and identification of the gene product |
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Q36721456 | Responses of phosphate transporter gene and alkaline phosphatase in Thalassiosira pseudonana to phosphine |
Q36603135 | Restoration of phosphate transport by the phosphate-binding protein in spheroplasts of Escherichia coli |
Q34009747 | Streptococcus pneumoniae PstS production is phosphate responsive and enhanced during growth in the murine peritoneal cavity |
Q36297928 | Structural gene for the phosphate-repressible phosphate-binding protein of Escherichia coli has its own promoter: complete nucleotide sequence of the phoS gene |
Q39942973 | Structure and function of the cell envelope of gram-negative bacteria |
Q39834666 | Tellurite susceptibility and non-plasmid-mediated resistance in Escherichia coli |
Q69355753 | The biological function of the R2a regulatory gene for alkaline phosphatase in Escherichia coli |
Q34214482 | The mechanism of action of fosfomycin (phosphonomycin) |
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Q35744917 | The nudeotide sequence of the promoter and the ammo-terminal region of alkaline phosphatase structural gene (phoA) of Escherichia coli |
Q39505087 | The phosphate-binding protein of Escherichia coli is not essential for P(i)-regulated expression of the pho regulon |
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Q36319426 | Use of bacteriophage transposon Mu d1 to determine the orientation for three proC-linked phosphate-starvation-inducible (psi) genes in Escherichia coli K-12 |
Q36324869 | Vanadate uptake in Neurospora crassa occurs via phosphate transport system II |
Q34155020 | tonB-independent ferrichrome-mediated iron transport in Escherichia coli spheroplasts. |
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