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21.
Studies of the hyaluronan (HA) tetrasaccharides are important for
understanding hydrogen-bonding in the HA polymer, as they are probably the
smallest oligomers in which characteristics of the constituent
monosaccharides and the polymer are simultaneously exhibited. Here we
present extensive molecular dynamics simulations of the two
tetrasaccharides of HA in dilute aqueous solution. These simulations have
confirmed the existence of intramolecular hydrogen-bonds between the
neighboring sugar residues of HA in solution, as proposed by Scott (1989).
However, our simulations predict that these intramolecular hydrogen-bonds
are not static as previously proposed, but are in constant dynamic exchange
on the sub-nanosecond time-scale. This process results in discrete internal
motion of the HA tetrasaccharides where they rapidly move between low
energy conformations. Specific interactions between water and
intramolecular hydrogen-bonds involving the hydroxymethyl group were found
to result in differing conformations and dynamics for the two alternative
tetrasaccharides of HA. This new observation suggests that this residue may
play a key role in the entropy and stability of HA in solution, allowing it
to stay soluble up to high concentration. The vicinal coupling constants3 J
NHCH of the acetamido groups have been calculated from our aqueous
simulations of HA. We found that high values of 3J NHCH approximately 8 Hz,
as experimentally measured for HA, are consistent with mixtures of both
trans and cis conformations, and thus3 J NHCH cannot be used to imply a
purely trans conformation of the acetamido. The rapid exchange of
intramolecular hydrogen-bonds indicates that although the structure is at
any moment stabilized by these hydrogen-bonds, no one hydrogen-bond exists
for an extended period of time. This could explain why NMR often fails to
provide evidence for intramolecular hydrogen-bonds in HA and other aqueous
carbohydrate structures.
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