CHAPTER 10: HEMOGLOBIN METABOLISM Flashcards
(1) A hemoglobin molecule is composed of:
a. One heme molecule and four globin chains
b. Ferrous iron, protoporphyrin IX, and a globin chain
c. Protoporphyrin IX and four globin chains
d. Four heme molecules and four globin chains
d. Four heme molecules and four globin chains
(2) Normal adult Hb A contains which polypeptide chains?
a. α and β
b. α and δ
c. α and γ
d. α and ε
a. α and β
(3) A key rate-limiting step in heme synthesis is suppression of:
a. Aminolevulinate synthase
b. Carbonic anhydrase
c. Protoporphyrin IX reductase
d. Glucose 6-phosphate dehydrogenase
a. Aminolevulinate synthase
(4) Which of the following forms of hemoglobin molecule has the lowest affinity for oxygen?
a. Tense
b. Relaxed
a. Tense
(5) Using the normal hemoglobin-oxygen dissociation curve in the following figure for reference, predict the position of the curve when there is a decrease in pH.
https://drive.google.com/file/d/1CcTDMzGATTHzhRHjPyiBuwwXvIKihJ45/view
a. Shifted to the right of normal with decreased oxygen affinity
b. Shifted to the left of normal with increased oxygen affinity
c. Shifted to the right of normal with increased oxygen affinity
d. Shifted to the left of normal with decreased oxygen affinity
a. Shifted to the right of normal with decreased oxygen affinity
(6) The predominant hemoglobin found in a healthy newborn is:
a. Gower-1
b. Gower-2
c. A
d. F
d. F
(7) What is the normal distribution of hemoglobins in healthy adults?
a. 80% to 90% Hb A, 5% to 10% Hb A2, 1% to 5% Hb F
b. 80% to 90% Hb A2, 5% to 10% Hb A, 1% to 5% Hb F
c. >95% Hb A, <3.5% Hb A2, 1% to 2% Hb F
d. >90% Hb A, 5% Hb F, <5% Hb A2
c. >95% Hb A, <3.5% Hb A2, 1% to 2% Hb F
(8) Which of the following is a description of the structure of oxidized hemoglobin?
a. Hemoglobin carrying oxygen on heme; synonymous with oxygenated hemoglobin
b. Hemoglobin with iron in the ferric state (methemoglobin) and not able to carry oxygen
c. Hemoglobin with iron in the ferric state so that carbon dioxide replaces oxygen in the heme structure
d. Hemoglobin carrying carbon monoxide; hence “oxidized” refers to the single oxygen
b. Hemoglobin with iron in the ferric state (methemoglobin) and not able to carry oxygen
(9) In the quaternary structure of hemoglobin, the globin chains associate into:
a. α tetramers in some cells and β tetramers in others
b. A mixture of α tetramers and β tetramers
c. α dimers and β dimers
d. Two αβ dimers
d. Two αβ dimers
(10) How are the globin chain genes arranged?
a. With α genes and β genes on the same chromosome, including two α genes and two β genes
b. With α genes and β genes on separate chromosomes, including two α genes on one chromosome and one β gene on a different chromosome
c. With α genes and β genes on the same chromosome, including four α genes and four β genes
d. With α genes and β genes on separate chromosomes, including four α genes on one chromosome and two β genes on a different chromosome
b. With α genes and β genes on separate chromosomes, including two α genes on one chromosome and one β gene on a different chromosome
(11) he nature of the interaction between 2,3-BPG and hemoglobin is that 2,3-BPG:
a. Binds to the heme moiety, blocking the binding of oxygen
b. Binds simultaneously with oxygen to ensure that it stays bound until it reaches the tissues, when both molecules are released from hemoglobin
c. Binds to amino acids of the globin chain, contributing to a conformational change that inhibits oxygen from binding to heme
d. Oxidizes hemoglobin iron, diminishing oxygen binding and promoting oxygen delivery to the tissues
c. Binds to amino acids of the globin chain, contributing to a conformational change that inhibits oxygen from binding to heme
