Human Genetics Ch 17 Genetics of Immunity
A woman is given RhoGAM to protect future fetuses from hemolytic disease of the fetus and newborn if
**she is Rh- and the father is Rh+. she is Rh+ and the fetus is Rh-. she is Rh+ and the father is Rh-. she and the fetus are both Rh-.
Heart valve replacement in humans using a pig valve is an example of a(n)
**xenograft. autograft. allograft. isograft.
_____ is used to track the outbreak of infectious diseases.
Immunotherapy Vaccination Reverse vaccinology **Genome sequencing
An antigen is
a protein or nucleic acid. a nucleic acid only. a protective protein that the immune system produces. **a molecule that can elicit an immune response. because it is seen as "foreign."
Identifying combinations of _____ alleles is useful in tissue typing, establishing identity, and estimating disease risk.
antibody HIV erythrocyte **HLA
Monoclonal implies that the
antigens are from a single source. antibodies come from a twin. cancer cells are all of one type. **antibodies are identical.
In a less severe form of combined immune deficiency, the individual
has normal numbers of T and B cells. lacks both T and B cells. has no white blood cells. **has some T cells but lacks B cells.
Helper T cells secrete
immunoglobulins. antigens. antibodies. **cytokines.
The human leukocyte antigen genes are on the
long arm of chromosome 18. long arm of chromosome 6. **short arm of chromosome 6. short arm of chromosome 2.
The protection against a specific infectious disease that arises when all or nearly all of a population is vaccinated is termed Group of answer choices
mandatory vaccination. government-controlled health care. immune preparedness. **herd immunity.
The genes of the human leukocyte antigens (HLA) system encode cell surface
phospholipids. **glycoproteins. histamines. glycolipids.
An example of an autoimmune disorder is Group of answer choices
severe combined immune deficiency. **systemic lupus erythematosus. colon cancer. hay fever.
HIV destroys the immune system by primarily destroying
**helper T cells. erythrocytes. B cells. cytotoxic T cells.
The enzyme _____ allows HIV to make a DNA copy of its RNA genome.
**reverse transcriptase DNA transcriptase RNA polymerase DNA polymerase
In an allergic reaction, allergens bind _____, which release allergy mediators.
**IgE antibodies on mast cell surfaces histamines on mast cell surfaces IgG antibodies on B cell surfaces allergy genes on chromosome 5
The function of dendritic cells is to signal T cells, starting an immune response.
**True False
The functions of antibodies include
**activating complement, inactivating pathogens, and clumping pathogens. activating macrophages, stimulating mast cells, and increasing the white blood cell count. creating a warm and swollen area near the site of infection, which harms the pathogens. causing B cells to bind to T cells, forming clumps that are visible to the immune system.
Cytotoxic T cells target
**cancer cells and virally infected cells. bacterial cells and fungal cells. skin cells and blood cells. B cells and macrophages.
The two major types of lymphocytes are
A and B cells. cytokines and antibodies. **T and B cells. RBCs and WBCs.
In an allograft, the tissue donor is
a dizygotic twin. a monozygotic twin. **a non-relative. the recipient.
Which type of white blood cell secretes specific antibodies?
Cytokine Erythrocyte T cell **B cell
The difference between innate immunity and adaptive immunity is that
adaptive immunity attacks pathogens; innate immunity attacks microbes. adaptive immunity releases cytokines; innate immunity produces antibodies. innate immunity targets cancers and transplants; adaptive immunity targets viruses and bacteria. **innate immunity is fast and generalized; adaptive immunity is slow and specific.
One way an autoimmune disorder can arise is if
too many T cells die in the thymus. a person inhales an allergen. a person encounters an immunodeficiency virus. **a nonself antigen coincidentally resembles a self antigen.
B cells secrete antibodies when they
undergo apoptosis. bind antigens. **are stimulated by activated T cells. are engulfed by macrophages.
Severe combined immune deficiencies (SCID) affect both
white blood cells and red blood cells. helper B cells and cytotoxic B cells. mast cells and macrophages. **humoral and cellular immunity.
