Download Amines and Amides: Occurrence, Properties, and Chemical Reactions and more Lab Reports Chemistry in PDF only on Docsity! Chapter 16 – Amines and Amides 16.1 Occurrence, Names, and Physical Properties of Amines An amine is basically an ammonia molecule with one or more aliphatic and/or aromatic organic groups attached. Thus they have the generic formulas NH2R, NHR2, and NR3. If a carbonyl group lies between the nitrogen and R the compound is called an amide. Amines are typically named by naming the organic group as a substituent and using the suffix “-amine.” This is the old common system and we will use it for the rest of the course. If an -NH2 group is named as a substituent, it goes by “amino-”. For example: CH3NH2 (CH3)2NH (CH3)2N(C2H5) acetamide methylamine dimethylamine ethyldimethylamine ethanamide Aromatic amines are called anilines. When other groups are also attached to the nitrogen in aniline, they are named as for amines, except that a capital “N” is placed in front to indicate the substituent group is bound to the nitrogen, rather than the aromatic ring. A couple of examples include: aniline N,N-dimethylaniline Aromatic amides are analogous to their aliphatic counterparts. Two amines/amides that you have heard of are: Acetaminophen Nylon-66 N-aceto-4-aminophenol poly(hexamethylene adipamide) NHO O H N N n O O H H NH2 N(CH3)2 CH3CNH2 O 2 Many natural products chemicals (these are species extracted from living systems) contain amino groups. The alkaloids are a class of these materials. If you see a drug end in “-ine” there is a good chance of it containing an amino group. Examples include: codeine, morphine, and quinine (all have pictures in your book on p. 486). Amines generally have an odor that is ammonia-like to fishy and mildly unpleasant, although apparently some smell quite bad. A couple of examples of the latter (I assuming here, never having checked this out for myself) include putricine (1,3-propanediamine) and cadaverine (1,5-pentanediamine). Amines are weak bases like ammonia, but are frequently little stronger. Anilines are very weak bases, while amides are not at all basic. Table 16.1 (p. 480) lists the Kbs of some amines and aniline. For comparison purposes, ammonia has a Kb of 1.8 x 10-5. Amines tend to form hydrogen bonds like alcohols, but they are weaker. This is because nitrogen is less electronegative than oxygen, resulting in a decreased attraction between the N and H on different molecules. Like alcohols their boiling points are higher than is expected from their molecular size, but because the hydrogen bonding is weaker than in alcohols, the boiling point increase isn’t as large. A table in the right margin on p. 481 of your textbook shows that the boiling point of methylamine is roughly halfway between those of ethane and methanol. Likewise, they are much more soluble than comparable hydrocarbons. Also like alcohols, the effect of the amino group decreases as the size of the molecule increases. 16.2 Chemical Properties of Amines Since amines are weak bases much like ammonia they react with water much like ammonia. RNH2 (aq) + H2O(l) RNH3+(aq) + OH-(aq) Kb = ][RNH ]OH][RNH[ 2 - 3 + 5 Preparation In a chemistry lab, the easiest way to make amides is the reaction of an acid chloride with ammonia or either a primary or secondary amine. For example: Your book also points out that amides can be prepared from anhydrides but this method is more difficult and is less commonly used. Since acyl chlorides and anhydrides are far too reactive to exist in the body, the biochemical production of amides follows a different route. The molecule transferring the acyl group has the general form: In the reaction the -R′ group is replaced by an -NH2 group. The product molecule is called a peptide. We’ll return to this type of molecule in Chapter 20. Hydrolysis In the presence of strong acids or bases amides hydrolyze to carboxylic acids or their salts respectively. Since strong acids and bases don’t exist in the body, enzymes catalyze the hydrolysis RC-Cl O + NH4Cl+ 2 NH3 RC-NH2 O RC-Cl O + [NH2R2]Cl+ 2 HNR2 RC-NR2 O OR H2N-CH-CR' OR H2N-CH-CNH2 RC-O- O + NH4 + + NH3 RC-NH2 O RC-NR2 O + H2O + H + RC-OH O + OH- 6 reaction and permit it to happen in vivo. This enzyme reaction ishowyour body breaks down proteins. January 20, 2002
