Equilibrium isoelectric focussing in acrylamide gel slabs--reduction of cathodic drift.

A simple, economical method for counting acrylamide gel slices on solid filter paper supports in a toluene-based scintillation cocktail is described. Major advantages of the system include no requirement for either dissolution of the gel or elution of the radioactive material prior to emulsion counting and the direct reutilization of scintillation cocktail and vials. Additionally, ³²P-labeled RNA samples can be counted with better relative efficiencies and those labeled with ¹⁴C or ³³P can be determined at equivalent efficiencies. Tritium was detected less readily, with an absolute efficiency of approximately 10%.     

Tritosol: A new scintillation cocktail based on Triton X-100

A scintillation cocktail consisting of 3.0 g PPO, 257 ml Triton X-100, 106 ml ethanol, 37 ml ethylene glycol, and 600 ml xylene is described. A linear relationship between counting efficiency and the external standard ratio could be demonstrated over a wide range of quenching. The counting efficiencies (unquenched) for³H are about 47%, for¹⁴C about 87%, and for⁴⁵Ca about 80%.     

Improvements in and Environmental Applications of Double-Vial Radiorespirometry for the Study of Microbial Mineralization

Several variations in the scintillation mixture and the filter paper arrangements for double-vial radiorespirometry were compared. Improved efficiencies (44%) and shorter response times were found by adding wetting agents and methanolic NaOH to the scintillation mixture in the filter paper. The scintillation chemicals used did not contain dioxane and were found to be nontoxic to the test microbiota in this system. Covering the inner reaction vial with aluminum foil minimized the reduction in counting efficiency when testing colored or dense environmental samples. Mineralization rates were determined with ¹⁴C-labeled glucose, acetate, and glutamate and [¹⁴C]cellulose- and [¹⁴C]lignin-labeled lignocellulose for composting cow manure, forest soil, and arctic lake sediment microbiota. This improved method can be used in a variety of procedures involving the measurement of microbial mineralizations of organic compounds. Since no liquid scintillation cocktail is used for counting, the radioactive wastes are aqueous or can be incinerated, making disposal easy.     

A water-miscible, nonhazardous liquid scintillation cocktail

The optimal way to count aqueous samples by liquid scintillation counting is in a homogeneous solution. Technical limitations have previously made this difficult. Triton X-100 is a water-miscible liquid scintillant which counts ¹⁴C with 80% efficiency and ³H with 17% efficiency. It has a high flash point (over 300°F), is nonvolatile, and does not cause swelling or leaching when used in polyethylene vials. Liquid-scintillation counting cocktail using Triton X-100 as the sole scintillant (i.e., no toluene or xylene) does not have to be disposed of as a hazardous waste. The large aqueous sample capacity of a miscible cocktail, its safety, and ease of disposal make its use highly attractive for many applications.     

Liquid scintillation counting of polyacrylamide gels crosslinked with N,N′-methylene-bis-acrylamide and N,N′-diallyltartardiamide

Tritium (³H)-labeled material within polyacrylamide gel slices is commonly quantified by four general liquid scintillation counting methods: combustion, gel solubilization, selective solubilization of modified crosslinked gels, and elution. Of these four methods examined in this study, only combustion ensured complete recovery of ³H label; however, a less expensive and more convenient elution method yielding both a high recovery and cocktail counting efficiency was the use of Soluene-350 with 0.55% Permablend III in toluene. This particular solubilizer-cocktail system eliminates almost all chemiluminescence as does combustion.     

Preparation of 14C-labeled algal samples for liquid scintillation counting

Four commonly used techniques for preparation of ¹⁴C-labeled algal samples on membranes for liquid scintillation counting were compared and a simple technique for apparent net assimilation measurement from aqueous samples was introduced. All four techniques yielded similar radioactivities from the test cultures and are thus suitable for measurements of ¹⁴C algal samples. The possibly carcinogenic solvent dioxane was not necessary with PCS scintillation cocktail for dissolving radioactivity from algae on filters.     

Problem in liquid scintillation counting: adsorption of (14-C)pholyethylene glycol in dilute solutions.

[¹⁴C]polyethylene glycol is the method of choice for quantitating changes in intestinal water flux during drug absorption experiments in animals and man. This study points out some of the problems which can be encountered in using this method and provides ways to minimize these problems. Polyethylene glycol selectively binds to the glass wall of scintillation vials during counting and results in a decrease in counting efficiency as a function of time. The results obtained when using this method are determined by the choice of scintillation vial, scintillation cocktail, concentration of polyethylene glycol and the time period over which the samples are counted.     

An improved toluene-triton-based liquid scintillation system for counting 14C-labeled compounds at ambient temperature

With respect to counting rate and stability, the standard toluene/Triton X-100 (2:1, v/v) scintillation system was neither adequate for assaying trichloro[¹⁴C]acetic acid in ethanol solution or in ethanol extracts from shoots and roots of wheat seedlings, nor appropriate for counting [¹⁴C]dicamba in ethanol extracts from roots of barley and oats seedlings. The counting rates decreased rapidly during the first 10 hr, followed by a further decline at slower rates. The addition of NCS (3.3%, v/v) made the system suitable for measuring a number of ¹⁴C-labeled compounds (3-amino-s-triazole, 2,4-dichlorophenoxyacetic acid, 3,6-dichloro-o-anisic acid, [(4-chloro-o-tolyl)oxy]acetic acid, and trichloroacetic acid) either dissolved in ethanol or extracted from seedlings of cereal crops.     

Liquid scintillation counting of radioactive monomeric and polymeric carbohydrates on paper chromatograms

A simple, improved scintillation counting procedure was developed for the assay of radioactive mono- and polysaccharides on paper chromatograms. Segments of chromatograms are placed in scintillation vials and soaked in water to completely elute the carbohydrate before addition of Aquasol, a xylene-based scintillation fluid. The resulting water-Aquasol solution is counted in a liquid scintillation counter. Evaluation of numerous experimental variables revealed optimal conditions for complete elution of mono- and polysaccharides with water before counting in Aquasol.The water elution-Aquasol procedure allows water-soluble substances (¹⁴C- and ³H-labeled) on paper to be assayed with increased accuracy and sensitivity (three- to fivefold improvement in counting efficiency of tritiated samples). The simplicity of the procedure allows entire radiochromatograms to be assayed readily.     

Direct counting of tissues containing radioactive cholesterol by a two-phase liquid scintillation method

A rapid and simple method for counting radioactivity in tissue samples containing [³H]- or [¹⁴C]-cholesterol is described.Up to 500 μl of the specimen to be counted (plasma, tissue homogenate) is measured into a counting vial. The lipids of the tissue are extracted into 15 ml of a toluene-based scintillation mixture containing 37.5% ethylene glycol monomethyl ether that is added to the same vial. With the addition of 1 ml water, two phases form: the upper toluene phase containing all cholesterol together with the scintillating phosphor and the lower water phase containing most of the quenching material. Bleaching to reduce color quenching is not necessary. Chemiluminescence is negligible. The counting efficiencies are appreciably higher than those obtained in aqueous one-phase scintillation systems but lower than those obtained with pure standards in one-phase pure toluene scintillation systems.     

Agarose-DTNB column for binding sulfhydryl-containing proteins and peptides.

The counting rate of [1-¹⁴C]trichloroacetic acid (TCA) was not stable in a standard toluene/Triton X-100 liquid scintillation solution because this compound becomes partially degraded to ¹⁴CO₂ and CHCl₃. Both toluene and Triton were contributing factors in causing this degradation. The NCS solubilizer added to the toluene/Triton scintillation solution trapped ¹⁴CO₂ and stabilized counting rates of [1-¹⁴C]TCA. When [2-¹⁴C]TCA was used, ¹⁴CHCl₃ remained in the scintillation solution resulting in stable counting rates without the addition of NCS.     

High-efficiency liquid-scintillation counting of 14C-labelled material in aqueous solution and determination of specific activity of labelled proteins

1. Inexpensive scintillation mixtures are described which enable the detection of as little as 40μμc of ¹⁴C in aqueous solution with an efficiency of counting of over 80%. 2. A rapid method for the counting of alkaline, acidic and neutral aqueous solutions of up to 1ml. volume is described. Ethanol or 2-ethoxyethanol is used as blending agent. 3. The scintillation counting of alkaline solutions is applied to the accurate determination of the specific activity of ¹⁴C-labelled proteins from plant tissues. 4. Attention has been paid to the importance of a standardized washing procedure for the removal of all traces of radioactive material from glassware.     

A simple method for the liquid scintillation counting of precipitated protein from red blood cells

A method for the liquid scintillation counting of precipitated protein from red cells in 0.1–1.0 ml of blood is described. Precipitate is incubated for 0.5 hr at 100°C with equal volumes of acetic acid, ethyl acetate, and hydrogen peroxide; an equal volume of hydrochlorie acid is then added, followed by a toluene/Triton X-100 scintillation mixture containing primary and secondary scintillators. Maximum counting efficiencies with precipitate from 0.2 ml of blood were 90% for ¹⁴C and 35% for ³H. Recovery of labeled amino acid was not less than 90%. Chemiluminescence decayed to not more than 15 cpm above background in 45 min.     

Import of 14C-Photosynthate by Developing Leaves of Sugarcane

Sink-to-source transition was studied in developing sugarcane (Saccharum interspecific variety L62–96) leaves. Fully-expanded, mature sugarcane leaves were fed ¹⁴CO₂ for 20 minutes, incorporating about 617 Bq. After five hours the leaves of each plant were cut into 1-cm-length segments that were weighed and then placed in scintillation cocktail for counting. All leaves younger than the leaf fed ¹⁴CO₂ imported labeled photoassimilate. Three to four leaves had both importing and non-importing regions within the blade and a distinct transition region between them. A transition region was observed in leaves which had expanded to between 30 and 90 % of final blade length. Radioactivity per gram fresh weight was calculated as a measure of sink strength. Sink strength was greatest in the youngest leaf and declined with leaf age. The results of this study indicate that 1) import of photosynthate by developing sugarcane leaves occurs over a longer span of developmental ages than in dicotyledonous leaves and 2) the actual tissue region undergoing transition within such a leaf can be resolved as narrow zone between the importing and non-importing regions.     

Effects of Calcium on Sugar Transport in Azotobacter vinelandii

A fast and environmentally safe procedure was used to study sugar uptake by Azotobacter vinelandii. Transport experiments were performed in a 24-well plate and aerated by rapid oscillatory vibration. Samples were washed by centrifugation and dissolved in biodegradable scintillation cocktail for counting. At cell concentrations up to 6 × 10⁸ cells per ml, the uptake of sucrose was a function of time and was proportional to the cell concentration. This modified uptake assay was used to test the effect of cations on sugar uptake in A. vinelandii. Results showed that Ca²⁺ at 1 to 2 mM stimulated sucrose uptake by decreasing the apparent K_m of sucrose transport. Higher Ca²⁺ concentrations inhibited sucrose uptake in this organism.     

The determination of the radioactivity of 14C samples adsorbed on glass vials by direct liquid scintillation counting

A method for obtaining the true activity and counting efficiency of a ¹⁴C sample partially or completely adsorbed on the walls of a counting vial by liquid scintillation counting is presented.     

Comparative study of the efficacies of nine assay methods for the dextransucrase synthesis of dextran

A comparative study of nine assay methods for dextransucrase and related enzymes has been made. A relatively widespread method for the reaction of dextransucrase with sucrose is the measurement of the reducing value of d-fructose by alkaline 3,5-dinitrosalicylate (DNS) and thereby the amount of d-glucose incorporated into dextran. Another method is the reaction with ¹⁴C-sucrose with the addition of an aliquot to Whatman 3MM paper squares that are washed three times with methanol to remove ¹⁴C-d-fructose and unreacted ¹⁴C-sucrose, followed by counting of ¹⁴C-dextran on the paper by liquid scintillation counting (LSC). It is shown that both methods give erroneous results. The DNS reducing value method gives extremely high values due to over-oxidation of both d-fructose and dextran, and the ¹⁴C-paper square method gives significantly low values due to the removal of some of the ¹⁴C-dextran from the paper by methanol washes. In the present study, we have examined nine methods and find two that give values that are identical and are an accurate measurement of the dextransucrase reaction. They are (1) a ¹⁴C-sucrose/dextransucrase digest in which dextran is precipitated three times with three volumes of ethanol, dissolved in water, and added to paper and counted in a toluene cocktail by LSC; and (2) precipitation of dextran three times with three volumes of ethanol from a sucrose/dextransucrase digest, dried, and weighed. Four reducing value methods were examined to measure the amount of d-fructose. Three of the four (two DNS methods, one with both dextran and d-fructose and the other with only d-fructose, and the ferricyanide/arsenomolybdate method with d-fructose) gave extremely high values due to over-oxidation of d-fructose, d-glucose, leucrose, and dextran.     

A thermostable cocktail for the liquid scintillation counting of heterogeneous media

Considerable analytical errors arise in the liquid scintillation counting of heterogeneous media as a consequence of gel instability. With large sample numbers, a major causative factor of this instability is temperature changes during the counting period. An emulsifier-scintillation cocktail has been designed to provide stable counting conditions for heterogeneous media over a temperature range of 10–30°C, i.e., the wide range of temperature likely to be encountered in liquid scintillation counters lacking sample cooling facilities. A comparison was made with a conventional commercially available emulsifier-scintillator.     

Continuous monitoring of rhizosphere respiration after labelling of plant shoots with 14CO2

The present work describes an original method to follow rate of ¹⁴CO₂ and total CO₂ production from rhizosphere respiration after plant shoots had been pulse-labelled with ¹⁴CO₂. We used a radioactivity detector equipped with a plastic cell for flow detection of beta radiation by solid scintillation counting. The radioactivity detector was coupled with an infrared gas analyser. The flow detection of ¹⁴CO₂ was compared to trapping of ¹⁴CO₂ in NaOH and counting by liquid scintillation. First, we demonstrated that NaOH (1 M) trapped 95% of the CO₂ of a gaseous sample. Then, we determined that the counting efficiency of the radioactivity flow cell was 41% of the activity of gaseous samples as determined by trapping in NaOH (1 M) and by counting by static liquid scintillation. The sensitivity of the ¹⁴CO₂- flow detection was 0.08 Bq mL⁻¹ air and the precision was 2.9% of the activity measured compared to 0.9% for NaOH trapping method. We presented two applications which illustrate the relevance of ¹⁴CO₂-flow detection to investigations using 14C to trace photoassimilates within the plant-soil system. First, we examined the kinetics of 14CO₂ production when concentrated acid is added to NaH¹⁴CO₃. This method is the most commonly used to label photoassimilates with ¹⁴C. Then, we monitored ¹⁴CO₂ activity in rhizosphere respiration of 5-week old maize cultivated in soil and whose shoots had been pulse-labelled with ¹⁴CO₂. We conclude that alkali traps should be used for a cumulative determination of ¹⁴CO₂ because they are cheap and accurate. On the other hand, we demonstrated that the flow detection of ¹⁴CO₂ had a finer temporal resolution and was consequently a relevant tool to study C dynamics in the rhizosphere at a short time scale. This revised version was published online in June 2006 with corrections to the Cover Date.     

Increased scintillation counting of 3H-amino acids bound to transfer RNA.

Approximately a threefold higher tritium scintillation counting efficiency was observed for the ³H-labeled amino acids covalently bound to tRNA, compared to the nonbound ³H-amino acids used as counting efficiency standards.