Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:1.14.14.3 (luciferase)
38,195 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The kinetics of the action of local anesthetics upon firefly luciferin and luciferase systems is presented. Clinical concentrations of local anesthetics inhibited this ATP-induced luminescence in a dose-dependent manner. From the effects of temperature and pH upon the inhibitory action of the local anesthetics, it is concluded that hydrophobic ligand-enzyme interaction is the predominant cause of the inhibition, but hydrophilic interaction also contributes to the inhibition to a lesser degree. A molecular theory of anesthesia is outlined which postulates that release of electrostricted water molecules from the hydrophilic parts of the enzyme due to the protein conformational changes induced by anesthetics is the cause of the decreased luminescence. A similar mechanism is expected to occur at the cell membrane, which probably dehydrates the sodium channel and suppresses the conductance of this ion across the membrane. These events lead to a volume expansion of the total system, and the system becomes reactive to a pressure which reverses the anesthesia by shifting the equilibrium to the nonanesthetized original volume. The pressure antagonism of anesthesia can be explained by this overall volume expansion and not by a mere swelling of the cell membrane.
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PMID:Molecular mechanism of inhibition of firefly luminescence by local anesthetics. 0 59

A microscopic technique utilizing dispersion of fungal hyphae in a Waring blender, filtration through membrane filters (Nucleopore Corp.), and counting on a fluorescence microscope was developed for counting fungal hyphal biomass. Nonfluorescent staining techniques of the soil-filter preparation did not give quantitative recoveries. Water-soluble aniline blue, which binds to the beta-1,3-glucans of the fungal cell wall, made visualization of the hyphae by fluorescence possible. A range of fungi added to soil were quantitatively recovered. Adenosine 5'-triphosphate (ATP) was extracted from soil by lysis of the organisms with CHCl(3) in NaHCO(3), which prevented adsorption of the organic phosphorus to the soil colloids. Centrifugation and removal of CHCl(3) was followed by dilution with pH 7.8 tris(hydroxymethyl)aminomethane buffer. ATP concentrations were measured by using the luciferase-luciferin light reaction. Since NaHCO(3) interfered to some extent with this reaction, the standards were made up in equivalent mixtures of tris(hydroxymethyl)aminomethane buffer and NaHCO(3). Recovery of ATP was rapid and quantitative in a range of soils. Measurement of the ATP and bacterial and fungal numbers in an incubated soil showed that fungal and bacterial population increases were delayed by phosphorus deficiency. Microbial populations were not affected at a later date. The ATP content of the soil system was reduced by phosphorus deficiency throughout the incubation period. This indicated that ATP could be altered without major changes in the microbial populations.
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PMID:Microscopic counting and adenosine 5'-triphosphate measurement in determining microbial growth in soils. 33 72

We optimized conditions for determination of adenosine-5'-triphosphate (ATP) and creatine phosphate from plasma extracted with ethanol/water (96/4 by vol). The procedures utilize the firefly luciferin/luciferase reaction, the bioluminescence being measured with a Du Pont Biometer. ATP is quantitated directly and creatine phosphate is quantitated by reaction with creatine kinase and ADP, after plasma ATP is removed by incubation with the enzyme apyrase. The method is applied to plasma from humans, rabbits, and rats, and possible clinical applications are discussed.
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PMID:Microdetermination of plasma ATP and creatine phosphate concentrations with a luminescence biometer. 92 76

The aim was to determine the Microtox EC50 values of some aliphatic aldehydes and carboxylic acids of normal chain length with 1-14 carbon atoms since these compounds have been detected as ozonolysis by-products in drinking water. The aqueous EC50 values decreased with increasing chain length except for formaldehyde and for the C1-C7 acids. At chain lengths above C7, where methanolic saline solutions were utilized to promote solubility, the aldehydes were more toxic than their corresponding carboxylic acids. Below a chain length of C7, the reverse situation applied. More precise and sensitive EC50 values were observed at 15 and 25 min than at 5 min. Both C14 aldehyde and acid as well as palmitoleic acid showed luminescence in methanolic saline solutions. The C14 compounds are known natural substrates for bacterial luciferase, and the present findings confirm this for Photobacterium phosphoreum. The concentrations of the aldehyde and/or carboxylic acid ozonolysis by-products reported in drinking water could not be detected by the Microtox test. This is the first report of Microtox EC50 values for these carboxylic acids and for aldehydes of chain lengths greater than C4.
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PMID:Microtox EC50 values for drinking water by-products produced by ozonolysis. 137 39

Microbioassays using bacteria or enzymes are increasingly applied to measure chemical toxicity in the environment. Attractive features of these assays may include low cost, rapid response to toxicants, high sample throughput, modest laboratory equipment and space requirements, low sample volume, portability, and reproducible responses. Enzymatic tests rely on measurement of either enzyme activity or enzyme biosynthesis. Dehydrogenases are the enzymes most used in toxicity testing. Assay of dehydrogenase activity is conveniently carried out using oxidoreduction dyes such as tetrazolium salts. Other enzyme activity tests utilize ATPases, esterases, phosphatases, urease, luciferase, beta-galactosidase, protease, amylase, or beta-glucosidase. Recently, the inhibition of enzyme (beta-galactosidase, tryptophanase, alpha-glucosidase) biosynthesis has been explored as a basis for toxicity testing. Enzyme biosynthesis was found to be generally more sensitive to organic chemicals than enzyme activity. Bacterial toxicity tests are based on bioluminescence, motility, growth, viability, ATP, oxygen uptake, nitrification, or heat production. An important aspect of bacterial tests is the permeability of cells to environmental toxicants, particularly organic chemicals of hydrophobic nature. Physical, chemical, and genetic alterations of the outer membrane of E. coli have been found to affect test sensitivity to organic toxicants. Several microbioassays are now commercially available. The names of the assays and their basis are: Microtox (bioluminescence), Polytox (respiration), ECHA Biocide Monitor (dehydrogenase activity), Toxi-Chromotest (enzyme biosynthesis), and MetPAD (enzyme activity). An important feature common to these tests is the provision of standardized cultures of bacteria in freeze-dried form. Two of the more recent applications of microbioassays are in sediment toxicity testing and toxicity reduction evaluation. Sediment pore water may be assayed directly or solvents may be used to extract the toxicants. Some of the solvents used for extraction of organic chemicals are themselves toxic to bacteria (e.g., dichloromethane), requiring exchange with a less toxic solvent (e.g., ethanol, methanol, DMSO). A modification of the Microtox test allows direct assay of solid-phase samples such as sediments. The toxicity reduction evaluation (TRE) must be carried out at wastewater treatment plants whose effluents fail toxicity standards. The TREs require numerous and repeated toxicity assays, thus favoring application of microbioassays. Presently, no single microbioassay can detect all categories of environmental toxicants with equal sensitivity. Therefore, a battery of tests approach is recommended. The differential sensitivity of alternative tests may, in fact, be exploited. Further research is needed to construct strains of genetically engineered microorganisms or isolate microorganisms or enzymes that respond to specific classes of toxicants. These can be combined into batteries appropriate for different environments or test objectives.
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PMID:Bacterial and enzymatic bioassays for toxicity testing in the environment. 150 75

luxAB gene fusions in the Escherichia coli genome were used to screen for clones displaying transcriptional changes in the presence of aluminum. One clone was found that contained a luciferase gene fusion in which transcription was increased in the presence of aluminum and which was subsequently shown to be induced by copper, iron, and nickel. Cloning of the metal-regulated gene, hybridization to the ordered phage lambda bank of the E. coli chromosome, and sequencing of DNA adjacent to the luxAB fusion revealed that the insertion occurred within the fliC (hag) gene of E. coli. This gene encodes flagellin, the filament subunit of the bacterial motility organ, and is under the control of several regulatory cascades. These results suggest that environmental metals may play a role in the regulation of the motility potential of E. coli and that this bioluminescent gene fusion clone (or derivatives thereof) may be used to prepare a biosensor for the rapid detection of metal contamination in water samples.
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PMID:Transcription of the Escherichia coli fliC gene is regulated by metal ions. 176 97

The importance of hydrogen bonding in determining the potency of a general anesthetic is controversial. In order to investigate the role of hydrogen bonding further, we have used a multiple linear regression approach to quantify the relative importance of various physical properties of an anesthetic molecule (i.e., its ability to donate or accept a hydrogen bond, its dipolarity and polarizability, and its size) in determining its anesthetic potency. For comparison, we have applied the same approach to partitioning between water and three simple, but contrasting solvents (n-octanol, n-hexadecane, and N,N-dimethylacetamide) and to inhibition of an enzyme (firefly luciferase) which mimics many of the properties of general anesthetic target sites in animals. We present equations which accurately predict potencies (over many orders of magnitude) for producing general anesthesia and inhibiting the firefly luciferase enzyme. We find that the aqueous potency (defined as the reciprocal of the aqueous EC50 concentration) of a molecule as a general anesthetic or an inhibitor of luciferase is determined overwhelmingly by its size (which increases potency) and its ability to accept a hydrogen bond (which decreases potency), but only marginally by its ability to donate a hydrogen bond or by its dipolarity and polarizability. We conclude that general anesthetic target sites in animals must have, in addition to their overall hydrophobicity, a polar component which is a relatively poor hydrogen bond donor, but which can accept a hydrogen bond about as well as water.
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PMID:Role of hydrogen bonding in general anesthesia. 179 28

The ATP content of viable cells in a single lot of freeze-dried Tice-substrain Mycobacterium bovis-BCG vaccine was determined after washing of organisms with isotonic buffer, using four extraction methods: boiling in 0.2 M potassium phosphate buffer at pH 7.4 for 12 min; boiling in 0.1 M Tris-EDTA buffer at pH 7.75 for 2 min; n-butanol/1.9% sodium glutamate-0.01 M sodium arsenate buffer, pH 7.0; and n-butanol/0.01 M Tris-EDTA buffer, pH 7.0. Liberated ATP was assayed with a Lumac biocounter by integrated measurement of light produced by firefly luciferin/luciferase. The dose response of internal standards paralleled that of ATP standards in water, and the response of endogenous ATP in BCG was not significantly different from a composite linear internal standard curve above 10 pg ATP (corresponding to about 10(5) viable organisms per ml), the sensitivity of the assay. When the ATP content of BCG was calculated from the composite curve, the n-butanol/Tris-EDTA method was found to be the most precise (CV less than 10%). Butanol extraction procedures were about twice as efficient as boiling methods and yielded an ATP value of about 3.4 fg/CFU, similar to ATP/CFU factors previously reported for other BCG substrains. However, when results were corrected for quench and ATP recovery, which varied with extraction method, the conversion factor increased nearly threefold.
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PMID:Viability of freeze-dried Tice-substrain BCG by bioluminescent measurement of adenosine triphosphate. 268 47

The susceptibility to cerebral ischemia was studied in stroke-resistant spontaneously hypertensive rats (SHRSR) treated by a long-term antihypertensive treatment, and compared with untreated SHRSR and Wistar rats (WR). Male SHRSR, aged 8 weeks, were divided into two groups and a long-term antihypertensive treatment for 4-6 weeks was started on one group (treated SHRSR: T-SHR) while the other group was left untreated as control (untreated SHRSR: U-SHR). The changes of blood pressure were checked on these rats. The prior treatment of hypertension was achieved by administration of hydroflumethiazide (120 mg/kg/day) and captopril (15-30 mg/kg/day) orally for 4-6 weeks by mixing in drinking water. All the experiments were performed at the age of 12-16 weeks and WR of similar age served as normotensive untreated control. Cerebral ischemia was induced by bilateral common carotid artery ligation (BLCL) and blood pressure was always checked before BLCL. The survival ratio was observed from 1 hour to 24 hours after BLCL. The regional cerebral blood flow (rCBF) were measured before and 4 hours after BLCL periodically. The brain energy metabolites were measured 4 hours after BLCL. rCBF were measured at the thalamus by the hydrogen clearance method. ATP concentrations were determined by luciferine-luciferase method, c-AMP was measured by RIA and lactate by enzymatic method. The brain water content was measured by freeze-dry method.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Effect of long-term prior antihypertensive treatment on cerebral ischemia induced by bilateral common carotid artery ligation in SHRSR]. 300 93

There are few explanations which account for the manner in which the catastrophic physiological consequences of anaesthesia, cold narcosis or, for the matter, a short, sharp upper-cut, come about. Most studies terminate with the presentation of ever-better correlations between an end-point in a model system (dough consistency, rubber elasticity, bacterial, protozoal or animal mobility, liposome permeability, luciferase activity, etc.) and oil/water partition coefficients or with some arbitrary biological end-point. From what is currently known about the permeating pathways of non-electrolytes, ions and protons across membranes e.g. liposomes, the effect of anaesthetics on such pathways and the effect of temperature and pressure on both liposomes and whole animals, it is possible to develop a testable hypothesis. It is called the 'proton pump-leak' hypothesis and involves a number of linked biophysical and biochemical processes. It assumes that a living animal or plant is in a steady-state regarding all concentration gradients; passive leaks across membranes are balanced by temperature, pressure, and energy dependent ion/ion and/or proton/ion pumps (enzyme), working within an aqueous phase. Consciousness is dependent upon inter-neuronal communication via release of transmitter substances. Transmitter substances, characteristically either weak bases or weak acids e.g. catecholamines, accumulate passively in vesicles rich in acid-buffer, held to a low pH by the activity of H+/K+ energy-driven pumps. Interference with this finely-balanced system either by changing the chemical potential of the hydrophobic (membrane) phase at NTP (with anaesthetics), or by changing the chemical potential of both hydrophobic and aqueous (pump) phases by hyperbaric, hypothermic, or anoxic conditions imposed (inevitably) on the whole animal, would result in the resetting of the steady-state parameters.
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PMID:The proton pump/leak mechanism of unconsciousness. 301 92


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