Table 10.3 Examples of most useful disconnections and reconnection systems. The compounds used for
the reconnection reactions are those normally associated with the synthons for the disconnection. These
reactions are not the only reactions that could be used for the reconnection. Source:Organic Synthesis, the
Disconnection Approach, S Warren, Wiley. 1982
Disconnections Examples of reconnection reactions
Functional group disconnections:
Ether:For methyl ethers use dimethyl sulphate instead of R^2 I
Amide:Note: The acid anhydride will give the same compound but by a less vigorous reaction.
Ester:Note: The acid anhydride will give the same compound but by a less vigorous reaction.Lactone:R^1 −O−R^2 ++
R^2R^1 NH COR^2 +R^2 − C+
ONa
R^1 −OH R^1 −− O−− R^2R^2 −ISource of the
electrophileAll types
of aminesSuitable acid
derivativesR^1 NH 2 +R^2 COCl R^1 NH COR^2
Source of the
nucleophileSource of the
electrophileR^1 C+ + R^2 O−O
R^1 CO OR^2 R^1 COCl + R^2 OH R^1 CO-OR^2
Source of the
nucleophileSource of the
All types of electrophile
alcohol and phenolSuitable acid
derivativesOH
COOH H+ O
COSource of both the nucleophile
and electrophileO
CO+CO−
OSource of the
nucleophileR^1 −− O−R^1 −− O− Na+R^1 −−NHCarbon–carbon disconnections:
Carbanion–electrophile disconnections:Disconnection should normally occur adjacent to an electron
withdrawing group. In each case, one of the compounds derived from the synthon should be able to form a
carbanion whilst the structure of other should contain an electrophilic centre. Reconnection is by means of
a suitable carbanion substitution or condensation reaction.
218 AN INTRODUCTION TO LEAD AND ANALOGUE SYNTHESES