Fundamentals of Liquid Scintillation Counting ARTICLES
Proteins Like nucleic acids, proteins are polymers. While with nucleic acids the repeating unit is the nucleotide, with proteins, the analogous repeating unit is the amino acid. Amino acids consist of a central carbon that…
Nucleic Acids Like many biological molecules nucleic acids are polymers, long molecules formed of repeating units. With nucleic acids, the repeating unit is the nucleotide. A nucleotide consists of a five carbon sugar, a nitrogen…
By eliminating the combustion steps needed for gas phase analysis, the introduction of liquid scintillation counting (LSC) reduced the time required to analyze radioactive samples from hours to minutes. For low energy (“soft”) β emitters,…
In their native form, proteins fold into a variety of shapes, some compact, some elongated. The rate of migration of native proteins through a sieving medium is therefore more a reflection of their relative compactness,…
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- Waste Disposal Issues in Scintillation Counting
- The Complete Scintillation Cocktail
- Radioactive Emissions and the Use of Isotopes in Research
- Preparing Tissue Samples for Scintillation Counting
- Preparing Samples in PAGE Gels for LSC
- Mechanism of Liquid Scintillation Counting
- Measurement of Radiation and Isotope Quantitation
- Liquid Scintillation Signal Interpretation
- Liquid Scintillation and Radiation Safety
- HPLC Flow Counting
- Counting Samples on Cellulose-Ester Filters
- Counting Samples from TLC Plates by LSC
- Counting Efficiency and Quenching
- Counting Carbon Dioxide by LSC
- Chemiluminescence and Static Electricity
- Assaying Discrete Samples by Liquid Scintillation Counting