RCOH + HNR' --> RCNR' |
RCOH + HNR' --> RCNR' + H2O |
acid amine amide |
acid amine amide water |
All amides have the functional group: |
Amides can participate in hydrogen bonding as hydrogen bond acceptors, and as hydrogen bond donors, but do not ionize in aqueous solution as do their parent acids and amines. |
O || - C - N - | H |
An amide linkage is kinetically stable to hydrolysis?. Amide linkages in a biochemical context are called [peptide linkages]?. Amide linkages constitute a defining molecular feature of proteins, the secondary structure of which is due in part to the hydrogen bonding abilities of amides. |
Amides can participate in hydrogen bonding as hydrogen bond acceptors, and as hydrogen bond donors, but do not ionize in aqueous solution as do their parent acids and amines. |
Amides play a large part in condensation polymers. Amides can be broken down in amide hydrolysis. |
An amide linkage is kinetically stable to hydrolysis?. Amide linkages in a biochemical context are called [peptide linkages]?. Amide linkages constitute a defining molecular feature of proteins, the secondary structure of which is due in part to the hydrogen bonding abilities of amides. Amides play a large part in condensation polymers. Amides can be broken down in amide hydrolysis. |
O O RCOH + HNR' --> RCNR' + H2O H H acid amine amide water
All amides have the functional group:
O || - C - N - | H
Amides can participate in hydrogen bonding as hydrogen bond acceptors, and as hydrogen bond donors, but do not ionize in aqueous solution as do their parent acids and amines.
An amide linkage is kinetically stable to hydrolysis?. Amide linkages in a biochemical context are called [peptide linkages]?. Amide linkages constitute a defining molecular feature of proteins, the secondary structure of which is due in part to the hydrogen bonding abilities of amides.
Amides play a large part in condensation polymers. Amides can be broken down in amide hydrolysis.