716 CHAPTER 17 Carbonyl Compounds I
NERVE IMPULSES, PARALYSIS,
AND INSECTICIDESAfter a nerve impulse is transmitted between cells,
acetylcholine must be rapidly hydrolyzed to enable the recipientcell to receive another impulse.CH 3 OCH 2 CH 2 NCH 3CH 3CH 3
+
CH 3CH 3
+
H 2 Oacetylcholinesterase
+
CH 3+ HOCH 2 CH 2 NCH 3
O−COCOAcetylcholinesterase, the enzyme that catalyzes this hydrolysis,
has a group that is necessary for its catalytic activity.
Diisopropyl fluorophosphate (DFP), a military nerve gas, in-
hibits acetylcholinesterase by reacting with the CH 2 OHgroup.CH 2 OHWhen the enzyme is inhibited, paralysis occurs because the
nerve impulses cannot be transmitted properly. DFP is extreme-
ly toxic: Its (the lethal dose for 50% of the test animals) is
only of body weight.0.5 mg>kgLD 50enzyme CH 2 OH + FPOOCH(CH 3 ) 2
DFPOCH(CH 3 ) 2OCH(CH 3 ) 2OCH(CH 3 ) 2enzyme CH 2 O P O + HFactive inactiveMalathion and parathion, compounds related to DFP, are used
as insecticides. The LD 50 of malathion is 2800 mg>kg.Para-thion is more toxic, with an LD 50 of 2 mg>kg.parathionO 2 NOmalathionCHS POCH 3CH 3 CH 2 OC OCH 3S POCH 2 CH 3OCH 2 CH 3SOCH 3 CH 2 OCCH 2O17.21 Dicarboxylic Acids and Their Derivatives
The structures of some common dicarboxylic acids and their values are shown in
Table 17.2.
Although the two carboxyl groups of a dicarboxylic acid are identical, the two
values are different because the protons are lost one at a time and therefore leave from
different species. The first proton is lost from a neutral molecule, whereas the second
proton is lost from a negatively charged ion.A COOH group withdraws electrons (more strongly than does an H) and therefore
increases the stability of the conjugate base that is formed when the first COOH group
loses a proton—thereby increasing its acidity. The pKavalues of the dicarboxylic acidspKapKaHOpKa1 = 2.86CH 2 OHpKa2 = 5.70O−
+ HH+ + +−OCH
2 O−COCOHO CH 2COCOCOCO