Hybridization Information and Courses from MediaLab, Inc.

Blotting techniques were developed to discriminate fragments of nucleic acids. These techniques involve several processes; electrophoresis is one of the processes and is used to separate fragments of DNA and RNA. In Southern blotting (named after Edward Southern) restriction enzymes cut fragments of DNA are separated by AGE or PAGE, transferred to a membrane or blot, and visualized by hybridization with labeled probes.Northern blotting (not named after an inventor but by analogy to Southern blotting) separates RNA. RNA molecules are shorter and have defined lengths; cutting by restriction enzymes is not required. Denaturing conditions are required because of RNA secondary structures. After membrane blotting, the separated types of RNA are visualized with staining or labeled probes.Western blotting (again not named after an inventor but by analogy to Southern blotting)does not separate nucleic acids; it separates proteins in a mixture. The proteins are usually separated with PAGE, transferred to the membrane and visualized with a labeled antibody against the proteins of interest.

Term Definition Codon A three nucleotide base sequence that codes for an amino acid Genome The genetic code composed of 64 codons that code for 21 amino acids and 3 stop codons. (amino acids are the building blocks of proteins and stop codons stop the writing process much like a period at the end of a sentence) Nucleic acid Polymer made of monomers; two examples are RNA and DNA Transcription Process of transferring information from DNA into an RNA message Translation The formation of an amino acid from RNA Deoxyribonucleic Acid (DNA) A double-stranded polymer of nucleotides that houses genetic information Ribonucleic acid (RNA) Typically a single-stranded polymer that is much shorter than DNA but chemically similar with a few differences (e.g.- uracil replaces thymine). Replication Reproduction of DNA content from parent to daughter cell during cell division Amplification methods Techniques that increase the amount of the target, the detection signal, or the probe so that sequences are readily detected Fluorescence The emission of light at a longer wavelength when the light is excited at a shorter wavelength Oligonucleotide Short single-stranded nucleic acid Probe A nucleic acid used to identify a hybridization target Polymerase Chain Reaction (PCR) An amplification method performed in vitro

Hybridization is the pairing or annealing of two strands of DNA. Hybridization is therefore based on the formation of double stranded hybrids from single stranded nucleic acids. These double stranded hybrids form under precise conditions and are detected using probes. A probe is a set of nucleic acids of known identity which seeks out the target of interest. Depending on the detection technique, probes and/or targets can either be labeled or unlabeled and the reaction can take place with one attached to a matrix or in solution, thus dividing the techniques into two broad categories: Solid phase Solution phase

Southern Blot: Employs a restriction endonuclease enzyme to extract DNA from the cells. DNA detection is done using agarose gel electrophoresis.Fluorescent In Situ Hybridization (FISH): Uses RNA Northern Blot or DNA Southern Blot techniques to detect targets of interest in cytology/histology specimens or other nucleic acid variations. DNA fingerprinting: Restriction Fragment Length Polymorphism (RFLP): Cuts long DNA into shorter fragments before detection to isolate changes or polymorphisms. These can either be detected by Southern Blot or by Polymerase Chain Reaction (PCR).

The ultimate goal in measuring CYP450 function or identifying polymorphisms is to predict effective therapeutic doses and responses in patients.Polymorphisms are identified using molecular techniques (allele-specific PCR, restriction digests, sequencing, hybridization assays, bead-based systems, microarrays, pyrosequencing, et al).Although most clinical labs do not offer PGx testing, reference labs are beginning to market these tests. For example, one reference laboratory in the Midwest that offers CYP2D6 profiling measures about one dozen of the most common and significant mutation sites on this enzyme. This allows for detection of approximately 98% of the known CYP2D6 polymorphisms. The laboratory then generates a report which will advise the physician on the patient's drug-metabolizing status.Estimates show that 6-10% of the general population have a complete deficiency of CYP2D6, with the prevalence of mutations varying from <1% to as much as 21% within a given population.