OHOO(iii) H+or OH−(ii) CrO 3(iv) H 2 /PdOCH 3 COO(i) CH 3 COOCOCH 3Diosgenin Pregnenolone ethanoateOestrogens
AndrogensCorticoids ProgesteroneMicrobial
oxidationFigure 10.1 An outline of the synthesis of progesterone from diosgeninAll approaches are based on a knowledge of the chemistry of functional
groups and their associated carbon skeletons. The design may be either alinear
synthesis, where one step in the pathway is immediately followed by another, or
aconvergent synthesis, where two or more sections of the molecule are synthe-
sized separately before being combined to form the target structure (Figure
10.2). Each of these approaches may involve steps where protecting groups
have to be used. These groups should be selected on the basis that they are
easy to attach, stable under the conditions that are used for the primary reaction
and easy to remove after the primary reaction(s) have been completed.
In both linear and convergent synthesis designs, common sense dictates that
the starting materials should be chosen on the basis of what will give the best
chance of reaching the desired product. In addition, they should be cheap and
A B C D E F G H I J Target structure
(a) Overall yield of the target structure 35%A B C D E
Target structure
F G H I J
(b) Overall yield of the target structure 53%
A B CD E F
J
G H I
(c) Overall yield of the target structure 66%Target structureFigure 10.2 A schematic representation of (a) linear and (b) and (c) convergent syntheses. The
overall yields are based on a 90%yield for each step. In general, convergent synthesis improves the
overall yield of the target structure204 AN INTRODUCTION TO LEAD AND ANALOGUE SYNTHESES