radiolabeling Protocols

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Metabolic Labeling & Immunoprecipitation Protocols - http://www.cbrinstitute.org/labs/springer/protocols/jun_35Slabeling_IP.html

Category: Immunology: Immunoprecipitation Protocols: Immunoprecipitation of Radiolabeled Cells Protocols

Cells incorporate 35S-methionine or cysteine during the protein synthesis. Thus it is essential to use Met,Cys-free medium and dialyzed FCS during the labeling. Short period of incubation with 35S-methionine or cysteine will result in radiolabeling (pulse), and additional incubation with excess concentration of unlabeled Met+Cys (chase) is needed for complex glycoproteins like integrins to get expressed as a maturated form. - [Read Metabolic Labeling & Immunoprecipitation Protocols]

Radiolabeling of DNA by Extension of Random Oligonucleotides in the Presence of Melted Agarose - http://www.cshprotocols.org/cgi/content/extract/2006/2/pdb.prot3543

Category: Nucleic Acid Modification Protocols: Nucleic Acid Radiolabeling Protocols

Protocol for radiolabeling of DNA by extension of random oligonucleotides in the presence of melted agarose. - [Read Radiolabeling of DNA by Extension of Random Oligonucleotides in the Presence of Melted Agarose]

Radiolabeling of DNA Probes by the Polymerase Chain Reaction Protocol - http://www.cshprotocols.org/cgi/content/extract/2006/2/pdb.prot3848

Category: Nucleic Acid Modification Protocols: Nucleic Acid Radiolabeling Protocols

In this protocol, double-stranded DNA probes, labeled in each strand, are produced in conventional PCRs containing equal concentrations of two primers, a double-stranded DNA template, three unlabeled dNTPs at concentrations exceeding the Km, and one [{alpha}-32P]dNTP at a concentration at or slightly above the Km (2-3 µm) for a thermostable DNA polymerase such as Taq. - [Read Radiolabeling of DNA Probes by the Polymerase Chain Reaction Protocol]

Radiolabeling of DNA Probes by the Polymerase Chain Reaction Protocol - http://www.cshprotocols.org/cgi/content/extract/2006/2/pdb.prot3848

Category: PCR Protocols

Protocol describes how double-stranded DNA probes, labeled in each strand, are produced in conventional PCRs containing equal concentrations of two primers, a double-stranded DNA template, three unlabeled dNTPs at concentrations exceeding the Km, and one [{alpha}-32P]dNTP at a concentration at or slightly above the Km (2-3 µm) for a thermostable DNA polymerase such as Taq. - [Read Radiolabeling of DNA Probes by the Polymerase Chain Reaction Protocol]

Radiolabeling of Probes for Electrophoretic Mobility Shift Assay - http://faculty.virginia.edu/mirmira/resources_files/Protocols/Radiolabeling.htm

Category: DNA Protocols: EMSA DNA-Protein Protocols

Creation of Probe for EMSA using Oligonucleotide annealing, p-32, and T4 Polynucleotide Kinase. - [Read Radiolabeling of Probes for Electrophoretic Mobility Shift Assay]

Radiolabeling of Probes for Electrophoretic Mobility Shift Assays Protocol - http://faculty.virginia.edu/mirmira/resources_files/Protocols/Radiolabeling.htm

Category: DNA Protein Interactions Protocols: Electrophoretic Mobility Shift Assays EMSA Protocols

Protocol for radiolabeling of probes for electrophoretic mobility shift assays. - [Read Radiolabeling of Probes for Electrophoretic Mobility Shift Assays Protocol]

Radiolabeling of Subtracted cDNA Probes by Random Oligonucleotide Extension Protocol - http://www.cshprotocols.org/cgi/content/extract/2006/2/pdb.prot3860

Category: Nucleic Acid Modification Protocols: Nucleic Acid Radiolabeling Protocols

In this procedure, synthesis of cDNA is carried out in the presence of saturating concentrations of all four dNTPs and trace amounts of a single radiolabeled dNTP. After subtraction hybridization, the enriched single-stranded cDNA is radiolabeled to high specific activity in a second synthetic reaction by extension of random oligonucleotide primers using the Klenow fragment of E. coli DNA polymerase. - [Read Radiolabeling of Subtracted cDNA Probes by Random Oligonucleotide Extension Protocol]