mastering a&p 2 ch. 17 group 2 modules 17.4-17.8 DSM
Circulating mature RBCs lack __________. All of the listed responses are correct. ribosomes nuclei mitochondria
all of the listed responses are correct.
During RBC recycling, each heme unit is stripped of its iron and converted to __________. biliverdin urobilin transferrin ferritin
biliverdin
What is the primary site of erythropoiesis in an adult? Bone marrow Kidney Liver Heart
bone marrow
What is jaundice? A yellowing of the skin and eyes A decrease in the level of bilirubin in the blood An increase in the recycling of red blood cells An infection in the spleen
A yellowing of the skin and eyes
Agglutinogens are contained on the __________, whereas the agglutinins are found in the __________. cell membrane of the RBC; plasma nucleus of the RBC; mitochondria plasma; cell membrane of the RBC mitochondria; nucleus of the RBC
cell membrane of the PBC; plasma
If a person has type A blood, Rh surface antigens on the blood cells, and anti-B antibodies in the plasma, what is that person's blood type? A-positive A-negative B-positive B-negative
A-positive
What of the following types of blood would cause a cross-reaction when given to a person with type A-positive blood? B-positive A-positive O-positive O-negative
B-positive
Which of the following is NOT a surface antigen that is used in determining blood type? C A B Rh
C
Signs of iron-deficiency anemia include __________. decrease in hematocrit, hemoglobin content, and O2-carrying capacity increase in hematocrit, decrease in hemoglobin, and decrease in O2-carrying capacity increase in hematocrit, hemoglobin, and O2-carrying capacity decrease in hematocrit and hemoglobin and increase in O2-carrying capacity
decrease in hematocrit, hemoglobin content, and O2-carrying capacity.
Reticulocytes are nucleated immature cells that develop into mature __________. erythrocytes platelets leukocytes lymphocytes
erythrocytes
What is the specific term for the production of red blood cells? Erythropoiesis Leukopoiesis Hemopoiesis Thrombopoiesis
erythropoiesis
What type of molecules are the antigens found on our blood cells? Glycoproteins and glycolipids Proteins only Steroids Carbohydrates
glycoproteins and glycolipids
Which of the following is NOT a benefit of the unusual shape of the red blood cell? Greater hemoglobin carrying capacity Increased surface-to-volume ratio Red blood cells can stack up on each other. They are flexible.
greater hemoglobin carrying capacity
Which part of hemoglobin binds oxygen? Heme Alpha chain Beta chain Transferrin
heme
If agglutinogen B meets with agglutinin anti-A, what is the result? No agglutination occurs. A cross-reaction occurs. The patient becomes comatose. The patient dies.
no agglutination occurs
In which pregnancy are an Rh-positive mom and an Rh-positive child at risk of developing erythroblastosis fetalis? No pregnancy Second or later pregnancies All pregnancies First pregnancy
no pregnancy
Protein synthesis in a mature RBC occurs primarily __________. nowhere; mature red blood cells cannot synthesize proteins in mitochondria in the nucleus in ribosomes
nowhere; mature red blood cells cannot synthesize proteins
The primary function of a mature red blood cell is which of the following? Transport of respiratory gases Delivery of enzymes to target tissues Defense against toxins and pathogens All of the listed responses are correct.
transport of respiratory gases
Which blood type can safely be transfused into a person with type O blood? Type O Type A Type B Type AB
type O
What type of blood is considered to be the "universal donor"? Type O negative Type AB positive Type A negative Type B negative
type O negative
Where are red blood cells produced in an adult? Red bone marrow Yellow bone marrow Liver Lungs
red bone marrow
Red blood cells have a limited lifespan and then are phagocytized by macrophages in the liver, spleen and red bone marrow. What happens to the iron in the heme group of RBCs? The iron will be either stored in the liver or transported back to the red bone marrow to be incorporated into new hemoglobin. The iron is converted into biliverdin. The iron becomes part of bile and is excreted into the digestive tract. The iron is excreted by the kidneys as urobilins in the urine.
the iron will be either stored in the liver or transported back to the red bone marrow to be incorporated into new hemoglobin.