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LEHNINGER PRINCIPLES OF BIOCHEMISTRY

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1 LEHNINGER PRINCIPLES OF BIOCHEMISTRY
David L. Nelson and Michael M. Cox LEHNINGER PRINCIPLES OF BIOCHEMISTRY Sixth Edition CHAPTER 1 The Foundations of Biochemistry © 2013 W. H. Freeman and Company

2 Pancreatic cell section

3 Universal features of living cells

4 Phylogeny of the three domains of life

5 Classification of Organisms

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10 Several functional groups in a single biomolecule

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12 Complementary fit between a macromolecule and a small molecule

13 Stereoisomers have different effects in humans

14 Many drugs are racemic mixtures

15 Energy Transformations in Living Organisms

16 The major carrier of chemical energy in all cells is adenosine triphosphate (ATP)

17 LEHNINGER PRINCIPLES OF BIOCHEMISTRY
David L. Nelson and Michael M. Cox LEHNINGER PRINCIPLES OF BIOCHEMISTRY Sixth Edition CHAPTER 2 Water © 2013 W. H. Freeman and Company

18 Water

19 Hydrogen bonding in ice

20 Common hydrogen bonds in biological systems

21 Biologically important hydrogen bonds

22 Directionality of the hydrogen bond

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24 Water as a solvent

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26 Amphipathic compounds in aqueous solution

27 Dispersion of lipids in water

28 Release of ordered water is energetically favorable

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31 Ionization of water

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33 Conjugate acid-base pairs consist of a proton donor and a proton acceptor

34 Titration curve of acetic acid

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36 H2O H2O OH- + H+ [OH-] [H+] Keq = [H2O] Kw = [OH-] [H+] = 10-14 M2
Pure H2O : [H+] = [OH-] = 10-7 M pH = - log [H+] = -log (10-7) = 7 If [H+] > 10-7 M then pH < 7 (acidic) If [H+] < 10-7 M then pH > 7 (basic) Blood: [H+] = 4 x 10-8 M Blood pH = 7.4 Equilibrium constant = = 1.8 x M Ion product of water =

37 Acids and Bases O O P OH OH
Acid (HA) - something that has a proton and is willing to give it up. Base (A-) - something that has a place to put a proton HA H+ + A HA + H2O H3O+ + A- Strong acids completely dissolve in H2O (H+Cl-). Weak acids don’t completely dissolve in H2O. [A-] [H+] K = [HA] H2PO HPO42- + H+ (acid) (base) [HPO42-] [H+] Ka = = 1.51 x 10-7 M [H2PO4-] pKa = - log (Ka) = 6.82 O O P OH OH

38 Relationship between pH and pKa
Henderson – Hasselbalch equation pH = pKa when: The molar concentration of acid and conjugate base are equal [H2PO4-] = [HPO42-] pH = pKa = 6.8

39 Physiological pH The pH in the human body needs to remain ~7. Enzyme catalysis, protein-protein interactions, receptor binding, and other biological processes are very sensitive to pH. pH balance of the blood is maintained using a CO2 - bicarbonate buffer. CO2 + H2O H2CO H+ + HCO3- pKa = 6.1 (acid) (hydrated (bicarbonate CO2) base) There is more than 10-fold more base (HCO3-) than acid (CO2) so pH > pK (pH= 7.4) CO2 is exhaled by the lungs H+ + HCO CO2 + H2O Breathing rate controls CO2 CO2 balance is controlled by the lungs, HCO3- by the kidneys

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