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%.     

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.     

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.     

The use of a triton X-100-based scintillant for counting fractions from density gradients

The properties of an aqueous scintillation mixture containing butyl-PBD as the sole scintillant and using Triton X-100 as emulsifier are described. This counting mixture, which is considerably cheaper than other published mixtures for aqueous samples, is shown to perform extremely satisfactorily with polysomes and RNA labeled by prior injection of [¹⁴C]orotic acid. When, however, this counting mixture is used with ³H-labeled samples, the density gradient solutes sucrose and cesium chloride are shown to quench the counting of RNA and polysomes but not of toluene or orotic acid.     

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.     

Bleaching of chlorophylls in alcohol extracts with benzoyl peroxide for liquid scintillation counting of C-labeled compounds

Benzoyl peroxide in toluene was used to bleach chlorophylls in alcohol extracts from plants fed with ¹⁴CO₂ for improved direct measurement by liquid seintillation counting. The 0.5% benzoyl peroxide was better than the saturated solution due to less color quenching. Increased counts occurred with all five common scintillation systems when the leaf extracts were bleached with the 0.5% benzoyl peroxide. However, the relatively colorless root extracts of ¹⁴C-labeled photosynthates in alcohol did not require the addition of benzoyl peroxide for decolorization. The addition of 0.5 ml of benzoyl peroxide solution (0.5%) to 0.5 ml of a solution of 10 ¹⁴C-labeled compounds did not induce the degradation of these compounds. In contrast, sodium hypochlorite at an equal concentration caused considerable losses of radioactivity, with an overall average of 30% reduction of the 10 ¹⁴C-labeled compounds examined.     

An improved scintillation cocktail of high-solubilizing power

A scintillation cocktail containing 25% Triton X-114 in xylene is considered for a broad range of scintillation counting applications. The cocktail gives good counting efficiencies for ³H (47%) and ¹⁴C (93%). It will accept up to 30% (v/v) aqueous sample. The scintillation fluid is also used effectively with samples which are difficult to solubilize, such as the degradation products from the solubilization of polyacrylamide gels. The cocktail can be formulated for less than $2.00 per gallon.     

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.     

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.     

Complete extraction in a form suitable for liquid scintillation counting of tritium-labeled proteins from polyacrylamide gels

Large (200 mm3) slices of polyacrylamide gels crosslinked with N,N'-diallyltartardiamide which contain tritium-labeled protein are readily solubilized in periodic acid for liquid scintillation counting of radioactivity, but the apparent recovery of label never exceeds 82%. Extraction of the slices with two commercial solubilizers at 60 degrees C gave recoveries of 82-90% which were not improved by prolonged incubation. Treatment of the slices at ambient temperature with 1.0 ml of 2% sodium periodate for 30 min followed by the addition of 0.7 ml of aqueous tetrabutylammonium hydroxide (40% w/v) gives solutions which can be immediately counted at 35% efficiency with low background and with 100% recovery of tritiated protein     

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.     

CELL CYCLE TIME DETERMINATIONS BASED ON LIQUID SCINTILLATION COUNTING OF 3H-TdR LABELED MITOTIC CELLS

Following a 10 min pulse labeling with ³H-TdR, flasks of asynchronous monolayer cultures of Chinese hamster ovary cells were subjected to mitotic selection at 2 hr intervals. The mitotic index of the selected populations was always greater than 90%. Counts per min per cell obtained by liquid scintillation counting were plotted versus time after the pulse label. Comparisons were made between cycle times obtained by the mitotic-scintillation counting method and by the standard per cent labeled mitosis technique. The resulting curves were used for calculations of the cell cycle times and the lengths of G₁, S, G₂ and M phases of the cell cycle. There was less than 2% difference in the cell cycle times obtained using the scintillation method as compared to times calculated from autoradiographic data obtained from individual petri dishes. The mitotic-scintillation counting technique is simple, accurate and rapid and allows the calculation of the cell kinetics parameters within 1 hr of the end of the experiment.     

Radioenzymatic determination of CMP-N-acetylsialic acid and free N-acetylsialic acid in biological material

Free N-acetylsialic acid (NeuNAc) and CMP-N-acetylsialic acids (CMP-NeuNAc) are extracted from freeze-clamped or liquid nitrogen-frozen biological material by sequential extraction with cold acetone and acetone/water. [¹⁴C]NeuNAc and [¹⁴C]CMP-NeuNAc (20,000 dpm each) are added to the frozen material to correct for small losses occurring during the subsequent steps. NeuNAc and CMP-NeuNAc are separated by anion-exchange chromatography. CMP-NeuNAc is hydrolyzed with formic acid and again chromatographed on an ion-exchange column. The NeuNAc-containing fractions (representing free NeuNAc and CMP-NeuNAc) are converted to [¹⁴C]CMP-NeuNAc in the presence of [¹⁴C]CTP and CMP-NeuNAc synthetase. [¹⁴C]CMP-NeuNAc is separated by paper chromatography and the radioactivity measured by liquid scintillation counting. The amount of NeuNAc is calculated from a calibration curve obtained with NeuNAc standards. The small amounts of [¹⁴C]NeuNAc and [¹⁴C]CMP-NeuNAc added initially do not interfere with the final assay. The method gives reliable values down to 50 pmol/assay, but the sensitivity can be easily increased by a factor of 10. Recoveries, with NeuNAc and CMP-NeuNAc added to biological extracts, were 98.3 and 98.5% for NeuNAc and CMP-NeuNAc, respectively. With this method values of 61.2 ± 12.8 and 24.4 ± 5.2 nmol/g wet wt were found in rat liver for free NeuNAc and CMP-NeuNAc, respectively. Values for free NeuNAc found in human blood plasma were 600 ± 476 and 373 ± 180 pmol/g plasma for healthy persons and patients with breast cancer, respectively. Free CMP-NeuNAc could not be found in plasma.     

In vitro inhibition of cholesterol uptake in human and animal arteries by 7-ketocholesterol

Human and pig coronary arteries and rabbit aortas were perfused with pulsatile pressure in a modified Lindbergh apparatus with blood plasma obtained from the same species. Uptake of cholesterol by the arterial wall was measured using [³H]-cholesterol as tracer. Percent distribution of synthesized lipid fractions was determined by thin-layer chromatography and liquid scintillation counting. Inhibition of cholesterol uptake by the arterial wall was studied by the addition of 7-ketocholesterol (concentrations of from 0.05 to 1 μmoles/ml in the perfusate). The addition of 7-ketocholesterol to the perfusate reduced cholesterol uptake by the vessel by an average of 90%. At concentrations of from 0.1 to 1 μmoles/ml of perfusate, 7-ketocholesterol inhibition remained unchanged. Inhibition was reduced at concentrations of ketocholesterol of 0.05 μmoles/ml. Inhibition was present in all species, and was not due to oxidation of cholesterol to 7-ketocholesterol in the perfusate. The results suggest inhibition of cholesterol uptake in the arterial wall by a competitive process.     

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%.     

Effect of pH and Chelating Agents on the Heat Resistance and Viability of Salmonella typhimurium Tm-1 and Salmonella senftenberg 775W in Egg White

Supplementation of egg white at pH 8.9 with 5 mg of disodium ethylenediaminetetraacetic acid (EDTA) per ml resulted in a kill of Salmonella typhimurium Tm-1 of greater than 10⁶ per ml after 28 days at 2 C. While at 28 C, supplementation with 7 mg of EDTA per ml resulted in approximately a 10⁶ kill in less than 24 hr. Kena supplementation at 40 mg/ml of egg white resulted in a kill of S. typhimurium Tm-1 of greater than 10⁶ after approximately 60 hr of storage at 28 C. This is in contrast to no reduction in viable count in unsupplemented egg white stored at 2 C and a 100-fold increase in viable count in that stored at 28 C. Supplementation of egg white with EDTA at 7 mg/ml or with Kena at 10 mg/ml also affected the heat resistant characteristics of the two organisms at 52.5 C, reducing the time required to kill 90% of the population (D value) at any pH by a factor of 2 to 6. There was a synergistic effect between EDTA and lactic acid when lactic acid was used to adjust EDTA-supplemented egg white to an acidic pH (5.3) which greatly decreased the heat resistance of Salmonella senftenberg 775W (from 100D to D).     

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.     

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.     

Liquid scintillation counting of aqueous samples using Triton-containing scintillants

Markedly unstable count rates were observed using a toluene-Triton (2:1, $\text{v}\text{v}$) scintillant during counting of water-soluble radioactive compounds when < 5% ($\text{v}\text{v}$) water was present, because of the separation of phases. Efficiency correction in these instances could not be made by using ³H₂O as internal standard, because under the same conditions count rates with tritiated water were stable. Increasing water to ≥6% stabilized the count rates. With toluene-Triton (2:1, $\text{v}\text{v}$) scintillant, the water level should preferably be maintained between either 6 and 12 or 18 and 24% for ¹⁴C- and ³H-labeled compounds for counting at 6°C or at ambient temperature (but only between 6 and 12% for ³H counting at room temperature). With a “Tritosol” (Anal. Biochem.63, 555 (1975) modified to contain 35 ml of ethylene glycol, 140 ml of ethanol, 250 ml of Triton X-100, 575 ml of xylene, 3 g of PPO, and ±200 mg of POPOP, water levels of up to 23% were acceptable for ¹⁴C and ³H for counting at room temperature or at 6°C. Within these limitations, with the toluene-Triton or with the modified Tritosol as scintillant, both polar and apolar radioactive compounds exhibited similar efficiencies and gave quench-correction curves, based on the external standard ratio, that were linear for both ¹⁴C and ³H-labeled compounds.     

Comparison of analytical methods for extraction of chloride from plant tissue using36Cl as tracer

Eleven published and unpublished methods for extraction of chloride from plant tissue were compared, using a homogeneous sample of dried, ground maize leaves previously labelled with³⁶Cl. The most effective method of extraction of Cl^–, estimated by liquid scintillation counting of³⁶Cl, was with hot water. However, six other methods, including either cold water extraction, or dry-ashing at 500°C of plant material previously treated to give an alkaline pH, gave³⁶Cl values that were not statistically different from that obtained with hot water extraction. The lowest estimates of³⁶Cl content were obtained either by wet digestion in nitric/acetic acid or by dry-ashing following Mg(NO₃)₂ treatment of the plant material.