scholarly article | Q13442814 |
P2093 | author name string | J. Kondo | |
T. Morita | |||
T. Miki | |||
H. Shinagawa | |||
T. Horiuchi | |||
F. Sakiyama | |||
S. Tsunasawa | |||
N. Otsuji | |||
M. Amemura | |||
K. Magota | |||
P2860 | cites work | A simple method for displaying the hydropathic character of a protein | Q26778481 |
57 Sequencing end-labeled DNA with base-specific chemical cleavages | Q27860479 | ||
A mechanism of protein localization: the signal hypothesis and bacteria | Q28756497 | ||
Improved Estimation of Secondary Structure in Ribonucleic Acids | Q29616525 | ||
Linkage map of Escherichia coli K-12, edition 7 | Q33627756 | ||
Inorganic Phosphate Transport in Escherichia coli : Involvement of Two Genes Which Play a Role in Alkaline Phosphatase Regulation | Q33781332 | ||
Genetic analysis of regulatory mutants of alkaline phosphatase of E. coli | Q33990940 | ||
Complementation test between alkaline phosphatase regulatory mutations phoB and phoRc in Escherichia coli | Q33991838 | ||
Conversion of beta-galactosidase to a membrane-bound state by gene fusion | Q35029597 | ||
GENAS: a database system for nucleic acid sequence analysis | Q35532991 | ||
The nudeotide sequence of the promoter and the ammo-terminal region of alkaline phosphatase structural gene (phoA) of Escherichia coli | Q35744917 | ||
Genetic analysis of mutants affected in the Pst inorganic phosphate transport system. | Q36308170 | ||
Signal sequence of alkaline phosphatase of Escherichia coli | Q36310932 | ||
Genetic and physiological tests of three phosphate-specific transport mutants of Escherichia coli | Q36320462 | ||
Complementation tests between alkaline phosphatase-constitutive mutants (phoS and phoT) of Escherichia coli. | Q36320988 | ||
Genetic control of induction of alkaline phosphatase synthesis in E. coli | Q36395952 | ||
Control of the synthesis of alkaline phosphatase and the phosphate-binding protein in Escherichia coli | Q36581498 | ||
Two systems for the uptake of phosphate in Escherichia coli | Q36603120 | ||
Properties of two regulating genes for alkaline phosphatase. | Q37420810 | ||
Stability of ribonucleic acid double-stranded helices | Q38361108 | ||
Regulatory sequences involved in the promotion and termination of RNA transcription | Q39512868 | ||
Compilation and analysis ofEscherichia colipromoter DNA sequences | Q39512880 | ||
Phenylglyoxal modification of cardiac myosin S-1. Evidence for essential arginine residues at the active site | Q39899803 | ||
Cloning of and complementation tests with alkaline phosphatase regulatory genes (phoS and phoT) of Escherichia coli | Q39987836 | ||
Complete amino acid analysis of proteins from a single hydrolysate | Q39990159 | ||
Genetic mapping of regulator gene phoS for alkaline phosphatase in Escherichia coli | Q40122620 | ||
PHO-regulon of Escherichia coli K12: a minireview. | Q40331344 | ||
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. | Q40335696 | ||
Outer membrane protein e of Escherichia coli K-12 is co-regulated with alkaline phosphatase. | Q40335704 | ||
Further procedures for sequence analysis by computer | Q40572935 | ||
The binding and release of phosphate by a protein isolated from Escherichia coli | Q47781450 | ||
Complete nucleotide sequence of phoE, the structural gene for the phosphate limitation inducible outer membrane pore protein of Escherichia coli K12 | Q48400068 | ||
A new type of alkaline phosphatase-negative mutants in Escherichia coli K12 | Q54292838 | ||
Arsenate resistant mutants of Escherichia coli and phosphate transport. | Q54336758 | ||
Strand and site specificity of the relaxation event for the relaxation complex of the antibiotic resistance plasmid R6K. | Q54632316 | ||
A mutant of Escherichia coli auxotrophic for organic phosphates: evidence for two defects in inorganic phosphate transport | Q67473141 | ||
Rapid analysis of amino acid phenylthiohydantoins by high-performance liquid chromatography | Q67554419 | ||
The relationship between the phosphate-binding protein and a regulator gene product from Escherichia coli | Q69351149 | ||
Regulation of the pho regulon in Escherichia coli K-12. Genetic and physiological regulation of the positive regulatory gene phoB | Q70159573 | ||
Hyperproduction of Phosphate‐Binding Protein, phoS, and pre‐phoS Proteins in Escherichia coli Carrying a Cloned phoS Gene | Q70241153 | ||
Partial proteolysis of the natural ATPase inhibitor from beef heart mitochondria. Isolation and characterization of an active cleavage product | Q70556264 | ||
Modification of the phosphatidylcholine-transfer protein from bovine liver with butanedione and phenylglyoxal. Evidence for one essential arginine residue | Q71064584 | ||
Expression of outer membrane protein e of Escherichia coli K12 by phosphate limitation | Q72132658 | ||
Studies on (K+ + H+)-ATPase. I. Essential arginine residue in its substrate binding center | Q72848581 | ||
ISOLATION OF A PROTEIN SPECIFIED BY A REGULATOR GENE | Q76911352 | ||
Genetic control of repression of alkaline phosphatase in E. coli | Q78931115 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | microbiology | Q7193 |
Escherichia coli | Q25419 | ||
bacterial genes | Q66684857 | ||
P304 | page(s) | 909-917 | |
P577 | publication date | 1984-03-01 | |
P1433 | published in | Journal of Bacteriology | Q478419 |
P1476 | title | Nucleotide sequence of the phoS gene, the structural gene for the phosphate-binding protein of Escherichia coli | |
P478 | volume | 157 |
Q30760706 | A Network Biology Approach to Decipher Stress Response in Bacteria Using Escherichia coli As a Model |
Q48076710 | A homolog of anEscherichia coliphosphate-binding protein gene fromXanthomonas oryzaepv. oryzae |
Q39956885 | Beta-glucoside (bgl) operon of Escherichia coli K-12: nucleotide sequence, genetic organization, and possible evolutionary relationship to regulatory components of two Bacillus subtilis genes |
Q44967259 | Characterization of the Salmonella typhimurium phoE gene and development of Salmonella-specific DNA probes |
Q40183120 | Compilation of published signal sequences |
Q36232486 | Conditions leading to secretion of a normally periplasmic protein in Escherichia coli |
Q36639569 | Construction of a fluorescent biosensor family |
Q42113169 | DNA sequence around the Escherichia coli unc operon. Completion of the sequence of a 17 kilobase segment containing asnA, oriC, unc, glmS and phoS. |
Q36369347 | Excretion of alkaline phosphatase by Escherichia coli K-12 pho constitutive mutants transformed with plasmids carrying the alkaline phosphatase structural gene. |
Q43043688 | Identification of cognate ligands for the Escherichia coli phnD protein product and engineering of a reagentless fluorescent biosensor for phosphonates |
Q36424642 | Isolation and sequence analysis of the gene (cpdB) encoding periplasmic 2',3'-cyclic phosphodiesterase |
Q37056213 | Linkage map of Escherichia coli K-12, edition 8 |
Q36289345 | Phosphate-specific transport system of Escherichia coli: nucleotide sequence and gene-polypeptide relationships |
Q24634755 | Protein phosphorylation and regulation of adaptive responses in bacteria |
Q36260132 | Purification of the phoU protein, a negative regulator of the pho regulon of Escherichia coli K-12. |
Q39969487 | Regulation of the phosphate regulon in Escherichia coli K-12: regulation of the negative regulatory gene phoU and identification of the gene product |
Q42644387 | Regulation of the phosphate regulon of Escherichia coli: characterization of the promoter of the pstS gene |
Q36186283 | Sequence requirements of Escherichia coli attTn7, a specific site of transposon Tn7 insertion |
Q33928982 | Signal peptide amino acid sequences in Escherichia coli contain information related to final protein localization. A multivariate data analysis |
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Q35100568 | Structure and mapping of antigenic domains of protein antigen b, a 38,000-molecular-weight protein of Mycobacterium tuberculosis |
Q69905788 | The effect of the locus pstB on phosphate binding in the phosphate specific transport (PST) system of Escherichia coli |
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