Retrosynthetic analysis

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Retrosynthetic analysis is a technique for solving problems in the planning of organic syntheses. This is achieved by transforming a target molecule into simpler precursor structures without assumptions regarding starting materials. Each precursor material is examined using the same method. This procedure is repeated until simple or commercially available structures are reached. E.J. Corey formalized this concept in his book The Logic of Chemical Synthesis.[1] [2] [3]

The power of retrosynthetic analysis becomes evident in the design of a synthesis. The goal of retrosynthetic analysis is structural simplification. Often, a synthesis will have more than one possible synthetic routes. Retrosynthesis is well suited for discovering different synthetic routes and comparing them in a logical and straightfoward fashion.

Definitions

Disconnection
A retrosynthetic step involving the breaking of a bond to form two (or more) synthons.
Retron
A minimal molecular substructure that enables certain transformations.
Retrosynthetic tree
A directed acyclic graph of several (or all) possible retrosyntheses of a single target.
Synthon
An idealized molecular fragment. A synthon and the corresponding commercially available synthetic equivalent are shown below:
File:Synthon-example.gif
Target
The desired final compound.
Transform
The exact reverse of a synthetic reaction; the formation of starting materials from a single product.

Example

An example will allow the concept of retrosynthetic analysis to be easily understood.

Retrosynthetic analysis of phenylacetic acid

In planning the synthesis of phenylacetic acid, two synthons are identified. A nucleophilic "-COOH" group, and an electrophilic "PhCH2+" group. Of course, both synthons do not exist per se; synthetic equivalents corresponding to the synthons are reacted to produce the desired product. In this case, the cyanide anion is the synthetic equivalent for the -COOH synthon, while benzyl bromide is the synthetic equivalent for the benzyl synthon.

The synthesis of phenylacetylene determined by retrosynthetic analysis is thus:

  1. PhCH2Br + NaCN → PhCH2CN + NaBr
  2. PhCH2CN + 2 H2O → PhCH2COOH + NH3

Synthesis of phenylacetic acid after retrosynthetic analysis

Strategies

Functional Group Strategies

Manipulation of functional groups can lead to significant reductions in molecular complexity.

Stereochemical Strategies

Numerous chemical targets have distinct stereochemical demands. Stereochemical transformations (such as the Claisen rearrangement and Mitsunobu reaction) can remove or transfer the desired chirality thus simplifying the target.

Structure-Goal Strategies

Directing a synthesis toward a desirable intermediate can greatly narrow the focus of an analysis. This allows bidirectional search techniques.

Transform-based Strategies

The application of transformations to retrosynthetic analysis can lead to powerful reductions in molecular complexity. Unfortuantely, powerful transform-based retrons are rarely present in complex molecules, and additional synthetic steps are often needed to establish their presence.

Topological Strategies

The identification one or more key bond disconnections may lead to the identification of key substructures or difficult to identify rearrangement transformations.

  • Disconnections that preserve ring structures are encouraged.
  • Disconnections that create rings larger than 7 members are discouraged.

See also

References

  1. E. J. Corey, X-M. Cheng (1995). The Logic of Chemical Synthesis. New York: Wiley. ISBN 0-471-11594-0.
  2. E. J. Corey (1988). "Retrosynthetic Thinking - Essentials and Examples". Chem. Soc. Rev. 17: 111–133. doi:10.1039/CS9881700111.
  3. E. J. Corey (1991). "The Logic of Chemical Synthesis: Multistep Synthesis of Complex Carbogenic Molecules (Nobel Lecture)" (Reprint). Angewandte Chemie International Edition in English. 30 (5): 455–465. doi:10.1002/anie.199104553.

External links

de:Retrosynthese it:Analisi retrosintetica