Transcription Information and Courses from MediaLab, Inc.
These are the MediaLab courses that cover Transcription and links to relevant pages within the course.
Learn more about laboratory continuing education for medical technologists to earn CE credit for AMT, ASCP, NCA, and state license renewal and recertification. Or get information about laboratory safety and compliance courses that deliver cost-effective OSHA safety training and continuing education to your laboratory's employees.
| Semi-Automated Instruments Several manufacturers offer semi-automated instruments (dipstick readers) for reading reagent strips. Use of an instrument removes the subjectivity of visually interpreting color changes on reagent strips, and assures that tests will be read at the correct time. Transcription errors will also be avoided if the instrument is interfaced with the laboratory information system. The technology employed is based on the principle of reflectance, with the amount of light reflected being inversely related to the concentration of substances present. An example of reflectance is the light which is scattered after light strikes an unpolished surface. Since each component on the dipstick produces a different color reaction, the light source for each test must be at the appropriate wavelength. This is accomplished either by using filters or monochromatic light sources. The percent reflectance is determined by dividing the test reflectance by the calibration reflectance and multiplying by 100. Algorithms are used to change the results obtained into a linear relationship with concentration of analyte. | View Page |
| Writing the Code Every time a cell divides, the hereditary information must be passed from the parent cell to the daughter cells. This is called replication.Transcription is the copying of the DNA to RNA and translation is the ordering of the amino acid sequences in correct order to make proteins.For these events to occur, the double stranded helix that DNA exists in must be separated. | View Page |
| Terms and Definitions 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 | View Page |
| Match the following terms with the most appropriate response: | View Page |
| Amplified Nucleic Acid Testing Some methodologies include: Polymerase Chain Reaction (PCR) Ligase Chain Reaction (LCR) Transcription Mediated (TMA) Transcription Based (TAS) Strand Displacement (SDA) Branched DNA (bDNA) Loop mediated (LAMP) Nucleic acid sequence based (NASBA) | View Page |
| Analytic Medical Errors Medical errors also occur in the analytic processes and systems of patient care.
Analytic errors begin with problems in the transportation of medical samples for testing. These occur between the patient's location and the testing facility. They happen during the time between specimen collection and arrival in the testing facility.
The possibility for analytic medical error continues through the analytic processes and procedures of medical testing.
Analytic medical error also includes systems, processes, and procedures involved in the transmission and reporting of test results.
These medical errors occur during the time the laboratory is directly involved in receiving, analyzing, and reporting test samples.
Examples:
Wrong transport storage or temperature
Delay in transport
Sample mixup during transport
Acceptance of unacceptable samples that are insufficient, hemolyzed, or clotted
Centrifugation, mixing, and other test sample preparation errors
Wrong test procedures
Test control errors
Sample mixup during testing
Outdated reagents
Wrong reagents
Test result mixup
Transcription errors
Data reporting process errors
Result report delays | View Page |