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Mutarotation quiz #1 Flashcards

Mutarotation quiz #1
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  • What is mutarotation, and how does it differ from general epimerization in terms of mechanism and requirements?
    Mutarotation is the interconversion between alpha and beta anomers of a sugar via the opening and closing of the ring structure at the anomeric carbon. Unlike general epimerization, which involves changing the configuration at any chiral carbon and typically requires a catalyst to break stable covalent bonds, mutarotation specifically involves the anomeric carbon and does not require a catalyst because it proceeds through the relatively unstable hemiacetal or hemiketal forms.
  • Why can only sugars with a free anomeric carbon undergo mutarotation?
    Only sugars with a free anomeric carbon can undergo mutarotation because the process requires the anomeric carbon to be part of a hemiacetal or hemiketal, allowing the ring to open into the linear form and then reclose to form either the alpha or beta anomer.
  • Describe the process of mutarotation in D-glucose.
    In D-glucose, mutarotation occurs when the cyclic form (either alpha or beta anomer) briefly opens to the linear form, then recloses to form the opposite anomer, resulting in an equilibrium mixture of alpha and beta D-glucose in solution.
  • What is the main difference between epimerization and mutarotation in terms of the type of stereoisomers they interconvert?
    Epimerization interconverts epimers, which differ at any single chiral carbon, while mutarotation specifically interconverts anomers, which differ at the anomeric carbon.
  • Why does epimerization generally require a catalyst, while mutarotation does not?
    Epimerization requires a catalyst because it involves breaking and reforming stable covalent bonds at any chiral carbon, whereas mutarotation involves the relatively unstable hemiacetal or hemiketal at the anomeric carbon, which can open and close without a catalyst.
  • What structural feature must a sugar have to undergo mutarotation?
    A sugar must have a free anomeric carbon that is part of a hemiacetal or hemiketal to undergo mutarotation.
  • Describe the process of mutarotation in a monosaccharide like D-glucose.
    Mutarotation in D-glucose occurs when the cyclic form briefly opens to the linear form and then recloses to form either the alpha or beta anomer, resulting in an equilibrium mixture of both forms in solution.
  • What happens to the configuration at the anomeric carbon during mutarotation?
    During mutarotation, the configuration at the anomeric carbon changes as the ring opens to the linear form and then recloses, allowing conversion between alpha and beta anomers.
  • Why do sugars with a non-free anomeric carbon not undergo mutarotation?
    Sugars with a non-free anomeric carbon cannot undergo mutarotation because the anomeric carbon is not part of a hemiacetal or hemiketal, so the ring cannot open to the linear form.
  • What is the result in solution when a sugar with a free anomeric carbon undergoes mutarotation?
    The result is a mixture of alpha and beta anomers in equilibrium in solution.