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BIOCHEMISTRY REVIEW Overview of Biomolecules

BIOCHEMISTRY REVIEW Overview of Biomolecules. Chapter 2 Amino Acids. Are You Getting It??. ____________________________________________________ ____________________________________________________ Which of the following is the zwitterion form of aspartic acid?

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BIOCHEMISTRY REVIEW Overview of Biomolecules

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  1. BIOCHEMISTRY REVIEWOverview of Biomolecules Chapter 2 Amino Acids

  2. Are You Getting It?? ____________________________________________________ ____________________________________________________ Which of the following is the zwitterion form of aspartic acid? a) COO¯b) COOH c) COO¯ d) COOH | | | | +NH3—CH NH2—CH +NH3—CH ¯NH—CH | | | | CH2 CH2 CH2 CH2 | | | | COO¯COOH COOH COOH2+

  3. Are You Getting It?? ____________________________________________________ ________________________Answer______________________ Which of the following is the zwitterion form of aspartic acid? a) COO¯b) COOH c) COO¯ d) COOH | | | | +NH3—CH NH2—CH +NH3—CH ¯NH—CH | | | | CH2 CH2 CH2CH2 | | | | COO¯COOH COOH COOH2+

  4. Are You Getting It?? ____________________________________________________ ____________________________________________________ Which of the following is the zwitterion form of cysteine? a) COO¯b) COOH c) COO¯ d) COO¯ | | | | +NH3—CH NH2—CH +NH3—CH NH2—CH | | | | CH2 CH2 CH2 CH2 | | | | SH SH S¯ SH2+

  5. Are You Getting It?? ____________________________________________________ _______________________Answer_______________________ Which of the following is the zwitterion form of cysteine? a) COO¯b) COOH c) COO¯ d) COO¯ | | | | +NH3—CH NH2—CH +NH3—CH NH2—CH | | | | CH2CH2 CH2 CH2 | | | | SH SH S¯ SH2+

  6. Are You Getting It?? ____________________________________________________ ____________________________________________________ Categorize the R-groups of the following amino acids: a) COOH b) COOH c) COOH d) COOH | | | | NH2―CH NH2―CH NH2―CH NH2―CH | | | | CHOH CH2 CH2 CH2 | | | | CH2 NH2―CH CH3―C―CH3 CHO | | | CH2OH CH3 CH3

  7. Are You Getting It?? ____________________________________________________ _______________________Answer_______________________ Categorize the R-groups of the following amino acids: a) COOH b) COOH c) COOH d) COOH | | | | NH2―CH NH2―CH NH2―CH NH2―CH | | | | CHOH CH2 CH2 CH2 | | | | CH2 NH2―CH CH3―C―CH3 CHO | | | CH2OH CH3 CH3 polar uncharged (+) charged non-polar polar, uncharged

  8. Are You Getting It?? ____________________________________________________ ____________________________________________________ Categorize the R-groups of the following amino acids: a) COOH b) COOH c) COOH d) COOH | | | | NH2―CH NH2―CH NH2―CH NH2―CH | | | | CH2 CH2 CH―CH2 CH2 | | | | | CH2 NH2―C CH2―CH2 CH―COOH | ║ | SH OCH3

  9. Are You Getting It?? ____________________________________________________ _______________________Answer_______________________ Categorize the R-groups of the following amino acids: a) COOH b) COOH c) COOH d) COOH | | | | NH2―CH NH2―CH NH2―CH NH2―CH | | | | CH2 CH2 CH―CH2 CH2 | | | | | CH2 NH2―C CH2―CH2 CH―COOH | ║ | SH OCH3 polar, uncharged polar, uncharged non-polar (-) charged

  10. ACID DISSOCIATION CONSTANT HA + H2O  H3O+ + A– Ka = [H3O+] [A–] [HA]

  11. BASE DISSOCIATION CONSTANT B + H2O  BH+ + OH– Kb = [BH+] [OH–] [B]

  12. pKa & pKb HA + H2O  H3O+ + A– pKa = -log Ka pKb = -log Kb pKa + pKb = 14

  13. Are You Getting It?? ____________________________________________________ ____________________________________________________ Compound X has a pKa value of 3.0 while Compound Y has a pKa value of 5.0. What characteristics do these two compounds have in water? a) X is an acid while Y is a base. b) X is a proton acceptor while Y is a proton donor. c) X and Y are both acids but X is stronger than Y. d) X and Y are both acids, but Y dissociates more than X.

  14. Are You Getting It?? ____________________________________________________ ______________________Answer________________________ Compound X has a pKa value of 3.0 while Compound Y has a pKa value of 5.0. What characteristics do these two compounds have in water? a) X is an acid while Y is a base. b) X is a proton acceptor while Y is a proton donor. c) X and Y are both acids but X is stronger than Y. d) X and Y are both acids, but Y dissociates more than X.

  15. Are You Getting It?? ____________________________________________________ ____________________________________________________ At the pKa value of the weak acid HA, a) all the molecules will be protonated. b) all the molecules will be deprotonated. c) there will be an equivalence point in the titration curve. d) there will be equal amounts of acid and conjugate base.

  16. Are You Getting It?? ____________________________________________________ _______________________Answer_______________________ At the pKa value of the weak acid HA, a) all the molecules will be protonated. b) all the molecules will be deprotonated. c) there will be an equivalence point in the titration curve. d) there will be equal amounts of acid and conjugate base.

  17. ISOIONIC POINT (pI) pI = pKa1 + pKa2 2

  18. Are You Getting It?? ____________________________________________________ ____________________________________________________ What properties will be observed during the titration of an amino acid with 2 pKa values? (multiple answers) a) There will be a pKa value close to pH = 2. b) There will be an isoionic point close to pH = 9-10. c) The amino acid can have a charge of +1, 0, or -1. d) There will be two half-equivalence points in the titration curve. e) There will be a mixture of two forms of the amino acid at each equivalence point.

  19. Are You Getting It?? ____________________________________________________ ______________________Answer________________________ What properties will be observed during the titration of an amino acid with 2 pKa values? a) There will be a pKa value close to pH = 2. b) There will be an isoionic point close to pH = 9-10. c) The amino acid can have a charge of +1, 0, or -1. d) There will be two half-equivalence points in the titration curve. e) There will be a mixture of two forms of the amino acid at each equivalence point.

  20. Are You Getting It?? ____________________________________________________ ____________________________________________________ What will be the charge on these amino acids at high pH? a) COOH b) COOH c) COOH | | | NH2―CH NH2―CH NH2―CH | | | CH2 CH2 CH2 | | | CH―CH3 CH―CH3 CH―CH3 | | | CH3 COOH SH

  21. Are You Getting It?? ____________________________________________________ ______________________Answer________________________ What will be the charge on these amino acids at high pH? a) COOH b) COOH c) COOH | | | NH2―CH NH2―CH NH2―CH | | | CH2 CH2 CH2 | | | CH―CH3 CH―CH3 CH―CH3 | | | CH3 COOH SH -1 -2 -2

  22. Are You Getting It?? ____________________________________________________ ____________________________________________________ What will be the charge on these amino acids at low pH? a) COOH b) COOH c) COOH | | | NH2―CH NH2―CH NH2―CH | | | CH2 CH2 CH2 | | | CH2 NH2―C NH2―CH | ║ | CH2OH OCH3

  23. Are You Getting It?? ____________________________________________________ ______________________Answer________________________ What will be the charge on these amino acids at low pH? a) COOH b) COOH c) COOH | | | NH2―CH NH2―CH NH2―CH | | | CH2 CH2 CH2 | | | CH2 NH2―C NH2―CH | ║ | CH2OH OCH3 +1 +1 +2

  24. SANGER’S REAGENT NO2 O NO2 + NH3+CHCOO–  F R NO2 O NO2 NHCHCOO– + HF R

  25. DANSYL CHLORIDE SO2Cl + NH3+CHCOO–  O O R N(CH3)2 SO2NHCHRCOO– + HCl O O N(CH3)2

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