| scholarly article | Q13442814 |
| P2093 | author name string | G. D. Hegeman | |
| C. F. Feist | |||
| P2860 | cites work | Protein measurement with the Folin phenol reagent | Q20900776 |
| Replica plating and indirect selection of bacterial mutants | Q24676225 | ||
| METAPYROCATECHASE. I. PURIFICATION, CRYSTALLIZATION AND SOME PROPERTIES | Q28156025 | ||
| The aerobic pseudomonads: a taxonomic study | Q29615280 | ||
| Genetic control of the beta-ketoadipate pathway in Pseudomonas aeruginosa | Q35152706 | ||
| Synthesis of the Enzymes of the Mandelate Pathway by Pseudomonas putida I. Synthesis of Enzymes by the Wild Type | Q35176602 | ||
| Replacement of a phosphoenolpyruvate-dependent phosphotransferase by a nicotinamide adenine dinucleotide-linked dehydrogenase for the utilization of mannitol. | Q37394380 | ||
| Oxidation of phenol and benzoic acid by some soil bacteria | Q41839692 | ||
| Oxidative metabolism of naphthalene by soil pseudomonads. The ring-fission mechanism | Q42049423 | ||
| Catechol oxygenase induction in Pseudomonas aeruginosa | Q42172380 | ||
| Oxoenoic acids as metabolites in the bacterial degradation of catechols | Q42938020 | ||
| THE BACTERIAL DEGRADATION OF CATECHOL. | Q42975079 | ||
| The metabolism of p-hydroxybenzoate by Rhodopseudomonas palustris and its regulation | Q45219186 | ||
| New Pathways in the Oxidative Metabolism of Aromatic Compounds by Micro-Organisms | Q59050207 | ||
| Mutation of Bacteria at High Levels of Survival by Ethyl Methane Sulphonate | Q59090905 | ||
| Induction of 1,2- and 2,3-diphenol oxygenases in Pseudomonas desmolyticum | Q72162130 | ||
| Bacterial degradation of naphthalene | Q72627146 | ||
| A new metabolic pathway of catechol | Q79033125 | ||
| P433 | issue | 2 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | microbiology | Q7193 |
| Pseudomonas putida | Q2738168 | ||
| P304 | page(s) | 869-877 | |
| P577 | publication date | 1969-11-01 | |
| P1433 | published in | Journal of Bacteriology | Q478419 |
| P1476 | title | Phenol and benzoate metabolism by Pseudomonas putida: regulation of tangential pathways | |
| Phenol and Benzoate Metabolism by Pseudomonas putida: Regulation of Tangential Pathways | |||
| P478 | volume | 100 |
| Q59100533 | Activity of a carboxyl-terminal truncated form of catechol 2,3-dioxygenase from Planococcus sp. S5 |
| Q52972982 | Aromatic catabolic pathway selection for optimal production of pyruvate and lactate from lignin. |
| Q39862382 | Bacterial Metabolism of Arylsulfonates: Role of meta Cleavage in Benzene Sulfonate Oxidation by Pseudomonas testosteroni |
| Q36759901 | Bacterial degradation of 4-hydroxyphenylacetic acid and homoprotocatechuic acid |
| Q36076458 | Bacterial metabolism of 2,6-xylenol |
| Q67683727 | Bacterial metabolism of substituted phenols. Oxidation of 4-(methylmercapto)-and 4-(methylsulfinyl)-phenol by Nocardia spec. DSM 43251 |
| Q40092577 | Benzoate Metabolism in Pseudomonas putida ( arvilla ) mt-2: Demonstration of Two Benzoate Pathways |
| Q44363066 | Biodegradation of dimethylphenols by bacteria with different ring-cleavage pathways of phenolic compounds |
| Q63203928 | Biodegradation of phenols in a sandstone aquifer under aerobic conditions and mixed nitrate and iron reducing conditions |
| Q73426940 | Biodegradation of the mixtures of 4-chlorophenol and phenol by Comamonas testosteroni CPW301 |
| Q40009267 | Catabolism of aromatic compounds by micro-organisms. |
| Q40025406 | Catechol oxygenases of Pseudomonas putida mutant strains |
| Q40034097 | Characterization of a spontaneously occurring mutant of the TOL20 plasmid in Pseudomonas putida MT20: possible regulatory implications |
| Q42279332 | Characterization of dioxygenases and biosurfactants produced by crude oil degrading soil bacteria |
| Q40079300 | Clinical isolate of Pseudomonas aeruginosa that degrades salicylate by the ortho pathway |
| Q68211590 | Combined chromosomal and plasmid encoded control for the degradation of phenol in Pseudomonas putida |
| Q52758585 | Cometabolic Degradation of Dibenzofuran and Dibenzothiophene by a Naphthalene-Degrading Comamonas sp. JB. |
| Q36330624 | Common induction and regulation of biphenyl, xylene/toluene, and salicylate catabolism in Pseudomonas paucimobilis |
| Q36789125 | Community Analysis and Recovery of Phenol-degrading Bacteria from Drinking Water Biofilters |
| Q39914442 | Comparative biochemical and genetic analysis of naphthalene degradation among Pseudomonas stutzeri strains. |
| Q30386433 | Degradation kinetics and pathway of phenol by Pseudomonas and Bacillus species |
| Q40843029 | Degradation of Phenol via Meta Cleavage Pathway by Pseudomonas fluorescens PU1. |
| Q39950272 | Degradation of phenol and m-toluate in Pseudomonas sp. strain EST1001 and its Pseudomonas putida transconjugants is determined by a multiplasmid system |
| Q67528869 | Degradation of phenol and phenolic compounds by Pseudomonas putida EKII |
| Q42937237 | Degradation of toluene by ortho cleavage enzymes in Burkholderia fungorum FLU100. |
| Q36773320 | Dissimilation of Aromatic Compounds byAlcaligenes eutrophus |
| Q55517656 | Enumerating all possible biosynthetic pathways in metabolic networks. |
| Q39929885 | Gene components responsible for discrete substrate specificity in the metabolism of biphenyl (bph operon) and toluene (tod operon). |
| Q40119211 | Genetic Basis of the Biodegradation of Salicylate in Pseudomonas |
| Q35101286 | Genetic Regulation of Octane Dissimilation Plasmid in Pseudomonas |
| Q39932756 | Genetic and Phenetic Classification of Bacteria |
| Q28327234 | Genetic organization and regulation of a meta cleavage pathway for catechols produced from catabolism of toluene, benzene, phenol, and cresols by Pseudomonas pickettii PKO1 |
| Q52732605 | Genomic insights of aromatic hydrocarbon degrading Klebsiella pneumoniae AWD5 with plant growth promoting attributes: a paradigm of soil isolate with elements of biodegradation. |
| Q36316692 | Isolation and characterization of spontaneously occurring TOL plasmid mutants of Pseudomonas putida HS1 |
| Q39990331 | Isolation of TOL and RP4 recombinants by integrative suppression |
| Q33384904 | Isolation of the phe-operon from G. stearothermophilus comprising the phenol degradative meta-pathway genes and a novel transcriptional regulator |
| Q98224686 | Kinetics of Phenol Biodegradation by Heavy Metal Tolerant Rhizobacteria Glutamicibacter nicotianae MSSRFPD35 From Distillery Effluent Contaminated Soils |
| Q39918854 | Metabolism of 2,6-dimethylnaphthalene by flavobacteria |
| Q36760222 | Metabolism of benzoate and the methylbenzoates by Pseudomonas putida (arvilla) mt-2: evidence for the existence of a TOL plasmid |
| Q36608354 | Metabolism of naphthalene, 2-methylnaphthalene, salicylate, and benzoate by Pseudomonas PG: regulation of tangential pathways |
| Q40120099 | Metabolism of phenol and cresols by mutants of Pseudomonas putida |
| Q40737333 | Microbial community development of biofilm in Amaranth decolourization technology analysed by FISH |
| Q37261584 | Microbial transformations of herbicides and pesticides. |
| Q39923832 | Microbiological Degradation of Malodorous Substances of Swine Waste under Aerobic Conditions. |
| Q40053086 | Modulation of affinity of a marine pseudomonad for toluene and benzene by hydrocarbon exposure. |
| Q36255933 | Molecular cloning, characterization, and regulation of a Pseudomonas pickettii PKO1 gene encoding phenol hydroxylase and expression of the gene in Pseudomonas aeruginosa PAO1c |
| Q36094239 | New naphthalene-degrading marine Pseudomonas strains. |
| Q36834239 | Oxidation of Nicotinic Acid by a Bacillus Species: Regulation of Nicotinic Acid and 6-Hydroxynicotinic Acid Hydroxylases |
| Q87106628 | Oxidative bioconversion of toluene to 1,3-butadiene-1,4-dicarboxylic acid (cis,cis-muconic acid) |
| Q36604507 | Pathways for the degradation of m-cresol and p-cresol by Pseudomonas putida |
| Q39033551 | Phenol degradation and genotypic analysis of dioxygenase genes in bacteria isolated from sediments |
| Q40089902 | Pseudomonas putida mutants defective in the metabolism of the products of meta fission of catechol and its methyl analogues |
| Q39679806 | Reactivity of toluate dioxygenase with substituted benzoates and dioxygen |
| Q37199068 | Regulation of catabolic pathways in Pseudomonas |
| Q70962029 | Regulation of phenol degradation in Pseudomonas putida |
| Q67051104 | Regulation of the 4-hydroxyphenylacetic acid meta-cleavage pathway in an Acinetobacter sp |
| Q36820084 | Regulation of the meta cleavage pathway for benzoate oxidation by Pseudomonas putida |
| Q36613111 | Role and regulation of the ortho and meta pathways of catechol metabolism in pseudomonads metabolizing naphthalene and salicylate |
| Q40094516 | Role of Catechol and the Methylcatechols as Inducers of Aromatic Metabolism in Pseudomonas putida |
| Q39955682 | Roles of the divergent branches of the meta-cleavage pathway in the degradation of benzoate and substituted benzoates |
| Q40744051 | Simultaneous degradation of atrazine and phenol by Pseudomonas sp. strain ADP: effects of toxicity and adaptation |
| Q39622828 | The Evolution of Induction Mechanisms in Bacteria: Insights Derived from the Study of the β-Ketoadipate Pathway |
| Q67259203 | The Microbial Breakdown of Pesticides |
| Q36071711 | The TOL (pWW0) catabolic plasmid. |
| Q42922838 | The coexistence of two metabolic pathways in the meta cleavage of catechol by Pseudomonas putida N.C.I.B. 10105. |
| Q71613120 | The metabolic versatility of pseudomonads |
| Q41889274 | The physiologic significance of the two divergent metabolic steps in the meta cleavage of catechols by Pseudomonas putida N.C.I.B. 10105 |
| Q39926029 | Toluene induction and uptake kinetics and their inclusion in the specific-affinity relationship for describing rates of hydrocarbon metabolism |
| Q33784915 | Transmissible Plasmid Coding Early Enzymes of Naphthalene Oxidation in Pseudomonas putida |
| Q68814359 | Transmissible plasmid coding for the degradation of benzoate and m-toluate in Pseudomonas arvilla mt-2 |
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