| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/S0167-7012(03)00203-3 |
| P698 | PubMed publication ID | 14607409 |
| P50 | author | Mark J. Bailey | Q57134671 |
| Andy Whiteley | Q78447269 | ||
| Jim Philp | Q108930105 | ||
| Siouxsie Wiles | Q25340744 | ||
| P2860 | cites work | Specific and quantitative assessment of naphthalene and salicylate bioavailability by using a bioluminescent catabolic reporter bacterium. | Q39893925 |
| Development of an acute and chronic ecotoxicity assay using lux-marked Rhizobium leguminosarum biovar trifolii. | Q43169591 | ||
| Rapid, sensitive bioluminescent reporter technology for naphthalene exposure and biodegradation | Q43169703 | ||
| Validation of genetically engineered bioluminescent surfactant resistant bacteria as toxicity assessment tools. | Q54270986 | ||
| Engineering theluxCDABEgenes fromPhotorhabdus luminescensto provide a bioluminescent reporter for constitutive and promoter probe plasmids and mini-Tn5constructs | Q61980088 | ||
| Lux-biosensor assessment of pH effects on microbial sorption and toxicity of chlorophenols. | Q64942524 | ||
| Improved bacterial growth test for rapid water toxicity screening | Q69637442 | ||
| Use of the Microtox assay system for environmental samples | Q70820957 | ||
| Site directed chromosomal marking of a fluorescent pseudomonad isolated from the phytosphere of sugar beet; stability and potential for marker gene transfer | Q70905933 | ||
| Comparison of three microbial toxicity screening tests with the Microtox test | Q71594084 | ||
| Toxicity assessment of xenobiotic contaminated groundwater using lux modified Pseudomonas fluorescens | Q73837247 | ||
| Assessing chemical toxicity with the bioluminescent photobacterium (Vibrio fischeri): a comparison of three commercial systems | Q74488929 | ||
| Genetically engineered whole-cell sensing systems: coupling biological recognition with reporter genes | Q77366780 | ||
| Use of an ipb-lux Fusion To Study Regulation of the Isopropylbenzene Catabolism Operon of Pseudomonas putida RE204 and To Detect Hydrophobic Pollutants in the Environment | Q28768362 | ||
| Ecological and physiological analyses of Pseudomonad species within a phenol remediation system. | Q31881747 | ||
| Development and testing of a bacterial biosensor for toluene-based environmental contaminants | Q33712437 | ||
| Bacterial community structure and physiological state within an industrial phenol bioremediation system | Q33786213 | ||
| Luminescent bacterial sensor for cadmium and lead. | Q38548649 | ||
| Recombinant luminescent bacteria for measuring bioavailable arsenite and antimonite | Q39803466 | ||
| P433 | issue | 3 | |
| P921 | main subject | bioluminescence | Q179924 |
| wastewater | Q336191 | ||
| wastewater treatment | Q20127660 | ||
| P304 | page(s) | 667-677 | |
| P577 | publication date | 2003-12-01 | |
| P1433 | published in | Journal of Microbiological Methods | Q15757129 |
| P1476 | title | Development of bespoke bioluminescent reporters with the potential for in situ deployment within a phenolic-remediating wastewater treatment system | |
| P478 | volume | 55 |
| Q58875635 | Biotreatment of Industrial Wastewaters under Transient-State Conditions: Process Stability with Fluctuations of Organic Load, Substrates, Toxicants, and Environmental Parameters |
| Q36136210 | Detection of organic compounds with whole-cell bioluminescent bioassays. |
| Q35975420 | Pseudomonas putida biofilm dynamics following a single pulse of silver nanoparticles |
| Q42322317 | Toxicity Testing of Pristine and Aged Silver Nanoparticles in Real Wastewaters Using Bioluminescent Pseudomonas putida |
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