Alleles Information and Courses from MediaLab, Inc.
These are the MediaLab courses that cover Alleles and links to relevant pages within the course.
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| The H gene Three separate loci (ABO, Hh, and Se) contain the genes that control the location and occurrence of the A and B antigens. Hh and Se genes are closely linked on chromosome 19. The precursor substance is acted upon by the H gene and is converted to H substance. The product of the H gene is an enzyme fucosyltransferase, responsible for attaching fucose to the terminal galactose of the precursor substance on the RBC membrane and thus forming H substance. There are only two recognized alleles at this locus: the active form, H, and an amorph, h. The H gene is a high-incidence gene. People who inherit hh are extremely rare. Since the h gene is amorphic, it does not act on the precursor substance. | View Page |
| Inherited Antigens A subgroup antigens are inherited, as are other ABO antigens with A1 being dominant over A2. A phenotypically A1 individual may be genotypically A1O, A1A1, or A1A2. A phenotypically A2 individual may be genotypically A2A3. These alleles are passed to offspring in the same manner as other ABO antigens. Weak variant forms of the B antigen (B3, Bx, and Bel) exist but are so rare that they do not warrant discussion here. | View Page |
| Warfarin cont. The genes involved in warfarin metabolism are CYP2C9 and vitamin K epoxide reductase complex subunit 1 (VKOR). Warfarin owes its anticoagulant action to its inhibition of VKOR. This enzyme recycles vitamin K, a critical element for the clotting factors II, VII, IX, and X, as well as for proteins C, S, and Z. There are six CYP2C9 alleles that are known to cause prolonged metabolism of warfarin: CYP2C9 *2, *3, *4, *5, *6, and *11. (Polymorphisms in CYP450 genes are denoted with asterisks.)One-third of the patients that receive warfarin metabolize it differently than expected and experience a higher risk of bleeding.Genetic testing for the two most common polymorphisms (CYP2C9*2 and *3) as well as for VKOR may be able to reduce the variability associated with warfarin dosing response. Labs performing PGx testing can provide general warfarin dosing recommendations based on the patient's genotype analysis. The lab report will indicate whether a patient has a normal, mild, moderate, high, or very high sensitivity to warfarin. For example, a patient who has one CYP2C9 normal wild-type allele (CYP2C9 *1), one polymorphism (CYP2C9*3), and also a VKOR polymorphism is predicted to have a moderate sensitivity to warfarin. This patient should have frequent INR monitoring and possible warfarin dose reduction. It is important to recognize that knowing a genotype does not necessarily guarantee accurate dose prediction; other drugs and/or environmental or disease factors can also alter CYP2C9 activity. Therefore, monitoring the INR is still very important. | View Page |