| 1. | The presence of multiple oxygen atoms enables significant hydrogen bonding to occur.
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| 2. | Many of water's anomalous properties are due to very strong hydrogen bonding.
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| 3. | It's all to do with hydrogen bonding and Van der Waals forces.
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| 4. | However, non-polar side chains are unable to participate in hydrogen bonding interactions.
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| 5. | Molecular organization is often controlled via intermolecular forces such as hydrogen bonding.
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| 6. | Sphingomyelin are also more prone to intermolecular hydrogen bonding than other phospholipids.
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| 7. | Hydrophobic forces and hydrogen bonding are of importance in this tight interaction.
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| 8. | All interactions shown are under 4.5 and therefore are capable of hydrogen bonding.
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| 9. | These hydrogen bonding modes are for classical Watson� Crick base pairing.
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| 10. | The intermediate is stabilized by hydrogen bonding with residues in the active site.
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