Molecular diagnostics Flashcards
Name 5 characteristics of a good test
- sensitive
- specific
- high throughput
- cheap
- automation
How does FISH work?
The target sequence is labeled, denatured with the probe. Where there is binding you will see hybridization of the probe to the target DNA which gives off a fluorescent signal
For what can IVIS (intravital microscopy) be used?
To study drug behavior to help explain the different possible scenarios of a drug. e.g. localization, incomplete penetration
How does FRET work? (fluorescent resonance energy transfer) and what can it be used for?
There is a donor and acceptor, when they overlap they interact and you’ll get excitation so there will be a fluorescent signal. This can be used to study protein-protein interaction
How does competitive ELISA work?
There is an enzyme-couple antibody detector with fluorescent-labeled antibodies. If the enzyme binds then there is no competition, so you get a signal. But i the auto-antibody binds then you have 100% competition and no color emission so you can conclude whether a tumor antigen is present.
How does agglutination assay work and when?
There is a carrier molecule that you incubate with your antibody e.g. anti-BCL2. If there is no BCL2 then the antibody will bind to the carrier and there will be clumping. But if BCL2 is present then there is no clumping.
This can be used to detect tumor antigens on protein level.
What is a titer?
The maximum dilution at which visible agglutination is observed
How does EMIT work? (enzyme multiplied immunoassay technique)
There is competition between the drug and a derivative conjugated enzyme. If the antibody binds to the conjugated derivative it will result in the inactivation of the enzyme as it blocks the active site. But if there is an antigen present, then the antibody will bind to the antigen and the enzyme will be active.
How does AlphaLISA work? (amplified luminescent proximity homogeneous assay-linked immunosorbent assay)
There is a donor and acceptor. If the tumor antibody is present then there will be energy transfer that will emit a signal through oxygen channeling.
How does luminex work?
In a 96-well plate there are beads labeled with a specific infra-red and are coated with an unique antibody that will bind to a certain bead. If there are 2 signals then there is presence of an antigen (reporter molecule + bead), if not then there will be only one signal
Why is luminex a good technique?
Because it enables simultaneous detection and quantitation of multiple secreted proteins
How does SNP analysis work?
There are probes that are designed to hybridize with the mutant. Two oligos will hybridize to the target sequence on the suspected mutant. Then ligation will take place and create one continuous strand to amplify (PCR) if there is a mutant present. If not, then there will be no ligation.
How MLPA work?
The probe is built out of a primer binding sequence that is identical to each target and there are oligos that are specific to the target and a stuffer sequence which is a different length for each target. The probe will bind to the wild type and can be detected with capillary electrophoresis. So there is an absence of a probe when there is a mutant present.
How does capillary electrophoresis work?
There is an electrical field present in a narrow tube where the samples can be added. Charged molecules will migrate through the tube, the smallest fragments migrate faster compared to the bigger ones.
What are the advantages of capillary electrophoresis compared to gel electrophoresis?
There is less lateral diffusion and no temperature difference along the tube.
