Protocol for dealing with carryover contamination in PCR- enzymatic strategy. Repeated use of PCR and manipulation of its products cause aerosols that can contaminate neighboring samples and work areas. Such "carryover contamination" can be prevented by including dUTP in place of dTTP for all amplification reactions. - [Read Dealing with Carryover Contamination in PCR: An Enzymatic Strategy Protocol]
Protocol for fluorescence in situ hybridization of a repetitive DNA probe to human chromosomes in suspension. Hybridization technique which does not need formamide and dextran sulfate. As a model system, we used the repetitive
specific human DNA probe pUC 1.77, labeled it with digoxigenin-11-dUTP by nick-translation, and hybridized it to
metaphase chromosomes in suspension. These chromosomes were isolated by standard techniques from human lymphocytes. - [Read Fluorescence In Situ Hybridization of a Repetitive DNA Probe to Human Chromosomes in Suspension]
Method assesses cellular mRNA transcripts in tissue sections and cell cultures using unique short anti-sense primers directed against sequences in particular protein(s). The unlabeled synthetic cDNA oligonucleotide primers are extended complementary to a sense mRNA transcript using reverse transcriptase and labeled through incorporation of a fluorescent-labeled dUTP nucleotide base. This procedure provides rapid detection of low abundance mRNA messages that can be related to other cellular.... - [Read Fluorescent In Situ Transcription in Cells and Tissues Protocol]
Protocol for the immunoprecipitation (IP) of Homer 1a, injection of virions and in situ hybridization in the spinal cord. Includes: Immunoprecipitation (IP) of Homer1a from spinal cord; Injection of virions in the parenchyma of the spinal dorsal horn in vivo; Generation of cRNA probes; Analysis of DIG-dUTP incorporation; Tissue hybridization. - [Read Immunoprecipitation of Homer 1a, Injection of Virions and In Situ Hybridization in the Spinal Cord]
DNA microarrays are an ordered arrangement of DNA molecules complementary to genes of interest that are "spotted" by robotic equipment onto a glass slide substrate. The expression of genes in cells can be monitored with microarrays by preparing cDNA from the mRNA of cells of interest and measuring the hybridization to the microarray. This protocol describes the labeling of genomic DNA for use as a probe for hybridization to the cDNA spotted on the array.
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