Divergent synthesis


In chemistry a divergent synthesis is a strategy with the aim to improve the efficiency of chemical synthesis. It is often an alternative to convergent synthesis or linear synthesis.
In one strategy divergent synthesis aims to generate a library of chemical compounds by first reacting a molecule with a set of reactants. The next generation of compounds is generated by further reactions with each compound in generation 1. This methodology quickly diverges to large numbers of new compounds
  • A generates A1, A2, A3, A4, A5 in generation 1
  • A1 generates A11, A12, A13 in generation 2 and so on.
An entire library of new chemical compounds, for instance saccharides, can be screened for desirable properties. In another strategy divergent synthesis starts from a molecule as a central core from which successive generations of building blocks are added. A good example is the divergent synthesis of dendrimers, for example, where in each generation a new monomer reacts to the growing surface of the sphere.

Diversity oriented synthesis

Diversity oriented synthesis or DOS is a strategy for quick access to molecule libraries with an emphasis on skeletal diversity. In one such application a Petasis reaction product is functionalized with propargyl bromide leading to a starting compound having 5 functional groups. This molecule can be subjected to a range of reagents yielding unique molecular skeletons in one generation.
[Image:DivergentPetasis.png|500px|center|Short Synthesis of Skeletally and Stereochemically Diverse Small Molecules by Coupling Petasis Condensation Reactions to Cyclization Reactions]

DOS Drugs

  1. Dosabulin
  2. Gemmacin B
  3. ML238
  4. Robotnikinin