Week 2 Word Scramble
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Questions | Answers |
Q: The primary structure of a protein is its _______. | A: Sequence of amino acids. |
Q: The secondary structure of a protein is its _______. | A: Interactions between adjacent amino acids. |
Q: What are the two types of secondary structures? | A: Alpha-helix and beta-pleated sheets. |
Q: What is the tertiary structure of a protein? | A: Its 3D shape... How the protein folds upon itself. |
Q: What is the quaternary structure of a protein? | A: How a series of proteins fit together. |
Q: Give an example of a quaternary structure. | A: Hemoglobin. |
Q: What type of bonds are involved in primary structures? | A: Peptide bonds. |
Q: What type of bonds are involved in secondary structures? | A: Hydrogen bonds (between amine and carbonyl groups within the peptide backbone. |
Q: What type of bonds are involved in tertiary structures? | A: They could be covalent, ionic, hydrogen (between amino acid side chains), or hydrophobic. |
Q: What type of bonds are involved in quaternary structures? | A: They could be covalent, ionic, hydrogen (between amino acid side chains), or hydrophobic. |
Q: What are the structural classification of proteins? | A: Fibrous, globular, and transmembrane. |
Q: Give two examples of a fibrous protein. | A: Keratin and collagen. |
Q: True or false? Fibrous proteins are insoluble. | A: True! |
Q: Give two examples of a globular protein. | A: Myoglobin and hemoglobin. |
Q: Where would you find transmembrane proteins? | A: Embedded in the lipid bilayer of plasma membranes extending from one side of the membrane to the other side. |
Q: Changes in the _______ of proteins will alter function. | A: Shape. |
Q: Cystic fibrosis involves a defective _______. | A: Cl- channel. |
Q: Familial hypercholesterolemia involves a defective _______. | A: LDL receptor. |
Q: What two amino acids would you NOT see in an alpha-helix? | A: Proline and glycine. |
Q: An alpha-helix makes a complete turn every _______ amino acids. | A: 3.6 |
Q: In an alpha-helix the R-groups of the amino acids face to the _______. | A: Outside. |
Q: Is an alpha-helix a right or left handed helical shape? | A: Right-handed. (I saw an old test question that mentioned D-amino acids... remember, we are talking only about L-amino acids here) |
Q: What does a beta-sheet consist of? | A: They consist of pairs of chains lying side by side. |
Q: What stabilizes a beta-pleated sheet? | A: Hydrogen bonds between the carbonyl oxygen atom on one chain and the -NH group on the adjacent chain. |
Q: How are beta-pleated sheet arranged? | A: In an anti-parallel fashion. |
Q: What is the most common non-repetitive secondary structure? | A: The beta-turn which is a reverse turn or hairpin bend. Proline and glycine are common here. |
Q: A protein is said to be _______ when it loses its activity. | A: Denatured. |
Q: Are intracellular and extracellular domains hydrophilic or hydrophobic? | A: Hyrophilic. |
Q: True or false? The tertiary structure of transmembrane proteins often has two hydrophilic domains and one hydrophobic domain. | A: True! |
Q: The hydrophobic membrane spanning domain are typically what specific structure? | A: An alpha-helix. |
Q: What is a quaternary structure? | A: Complexes of two or more polypeptide chains held together in precise ratios and with a precise 3D configuration. |
Q: Where would you find myoglobin? | A: In muscle tissue. |
Q: What is the function of myoglobin? | A: Oxygen storage. |
Q: Myoglobin can bind to how many oxygen molecules? | A: One. |
Q: What is the structure of myoglobin? | A: A globin chain and a single heme ring. |
Q: Where would you find hemoglobin? | A: In RBCs. |
Q: What is the function of hemoglobin? | A: Oxygen transportation. |
Q: Hemoglobin can bind to how many oxygen molecules? | A: Four. |
Q: What is the structure of hemoglobin? | A: Four globin chains (2 alpha & 2 beta) and four heme rings. |
Q: What is the abbreviation for hemoglobin? | A: Hb. |
Q: Myoglobin is considered a _______ protein. | A: Monomeric. |
Q: Hemoglobin is considered a _______ protein. | A: Tetrameric. |
Q: In deoxyhemoglobin each heme residue contains the ferrous form of iron (Fe2+). What stabilizes the iron? | A: Histidine. |
Q: In O2 hemoglobin what stabilizes the oxygen? | A: A distal histidine. |
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PCC Biochemistry I
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