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2: Water and its Role in Life

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    Return to Fundamentals of Biochemistry     Search Fundamentals of Biochemistry

    • 2.1: The multiple roles of water
      This page provides an in-depth exploration of water's unique role in biochemistry, highlighting its importance as a solvent, reactant, and participant in molecular interactions. It discusses water's polarity, hydrogen bonding, and solvent properties, emphasizing its ability to dissolve solutes and form micelles. The page also covers water's role in acid-base chemistry, nucleophilic/electrophilic reactions, and as an oxidizing/reducing agent.
    • 2.2: Weak Acids and Bases, pH and pKa
      This page discusses fundamental concepts of biochemistry, focusing on acids, bases, and pKa. It outlines the properties and significance of strong and weak acids and bases in biochemical contexts and introduces the concept of pKa to describe acid strength. The page also explains the application of the Henderson-Hasselbalch equation for calculating pH and discusses titration curves, buffering regions, and the prediction of protonation states in biochemical systems.
    • 2.3: Buffering against pH Changes in Biological Systems
      This page outlines several learning goals focused on understanding buffers in biochemical contexts. These goals include defining buffer characteristics, explaining buffer resistance to pH changes, and the importance of buffers in biochemical homeostasis.
    • 2.4: Solubility in an aqueous world - noncovalent interactions in depth
      The page provides an in-depth exploration of noncovalent interactions within biochemistry, touching on hydrogen bonding, ionic interactions, van der Waals forces, and more. It connects these interactions to water???s properties, explaining how they influence solubility and biological structures such as protein folding.
    • 2.5: Solubility in an aqueous world - The Hydrophobic Effect
      The page explores the hydrophobic effect and its significance in biochemistry. It begins with defining the hydrophobic effect, emphasizing entropy and hydrogen-bonding networks. It discusses enthalpic and entropic contributions to molecular aggregation in water, highlighting ordered water structures. The page links the hydrophobic effect to protein folding, membrane formation, enzyme sites, and biomolecular organization.
    • 2.6: Chapter 2 Questions

    This page titled 2: Water and its Role in Life is shared under a not declared license and was authored, remixed, and/or curated by Henry Jakubowski and Patricia Flatt.