Specificity, Diversity, and immunoglobulin genes Flashcards
Whats the difference between a toxin and a toxoid
A toxoid is an inactivated or attenuated form of a toxin
Binding between Ag and Ab is covalent or ionic?
Trick question kind of. Its non-covalent and depends on various non-covalent interactions: ionic bonds, h bonds, van der Waals, hydrophobic interactions.
Describe cross-reactivity? Do two cross reacting epitopes always have similar AA sequences?
Sometimes Ag1 will bind to Ab1 with low affinity but Ag2 will bind with high affinity. When Ag2 is introduced in the body, it binds B cells with a great enough affinity to activate it and produce antibodies against Ag2. These antibodies have a similar epitope to Ag1 and will sometimes fit with a good enough affinity to attack Ag1 as will. Example Rheumatic Heart disease.
Why is rheumatic heart disease an example of cross-reactivity?
laminin (an antigen in heart valves) cross reacts with Group A Streptococci. Sometimes when a person gets Group A Streptococcus, the antibodies produced attack laminin in the heart by a complement-mediated, inflammatory process.
What are the two steps to produce an antibody from a B cell?
- Binding of the antigen to B Cell receptors
- If the antigen binds with high enough affinity it will activate the B cell to produce antibodies–the product of the cell.
Explain the clonal selection theory and how it differs from the instruction theory.
Clonal selection is that each cell of the immune system only makes one antibody and all these antibody-making cells pre-exist in the body. When an antigen moves around the body it bumps into these until it binds to one that fits. The B cell that it binds to then begins producing antibodies to destroy the antigen. This is Darwinian.
Instruction theory is Lamarkian and states that the antigen binds a cell and teaches it how to build antibodies to fight it. In other words, all B cells would be the same.
There was an experiment that proved Clonal selection–radioactive x antigen kills all the cells, then add non radioactive x antigen and y antigen. X should not bind but y should under selection theory. In instructional, neither would bind. Y binded, point taken.
How can body supply the diversity needed to make all the different kinds of antibodies and b cells?
V regions on H and L chains. 1000 genes for one and 1000 genes for the other could combine in all sorts of ways to make 1000000 antibodies.
What is allotypic exclusion?
This is basically gene silencing. Although we have maternal and paternal genes for an H chain and Maternal, paternal, lambda and kappa genes for an L chain, the B cell contains only one kind of each. So it contains only one H chain (maternal or paternal) one L chain (lambda or kappa from either maternal or paternal). All the other genes are silenced so the B cell only makes one kind of antibody this way.
How do variable domain genes work and how do they get so much variability?
The variable domain region is broken up into segments in the DNA, so there is not just one region. For H chains the variable domain region is composed of multiple V, multiple D, and multiple J gene segments. The V region of light chains is broken up into V and J segments.
What are the segments of an H chain Variable domain region?
V D and J gene segments (think heavy chain, so more genes required)
What are the segments of an L chain Variable domain region?
V and J
How are variable domain genes selected and spliced out?
The genes are lined up VDJC with many different options in each letter category. First a random D is brought to a random J; the intervening DNA is excised. Then a random V is brought to D-J and joined with the intervening DNA excised. A primary RNA transcript is made.
What genes are included in the primary RNA transcript?
from just Left of the chosen V and then the selected D and J (stuff in between has been excised) then all the way down through the delta CONSTANT region gene.
What antibodies can be made from a primary transcript RNA of the VDJ genes?
First RNA is spliced to make VDJ-mu (constant) messenger RNA so the cell can make IgM. Next, it is spliced to make VDJ-delta (constant) RNA so it can make IgD.
How many C domain genes do L chains have?
only one, kappa or lambda, depending on the cells choice.