Split and pool synthesis

The split and pool (split-mix) synthesis is a method in combinatorial chemistry that can be used to prepare combinatorial compound libraries. It is a stepwise, highly efficient process realized in repeated cycles. The procedure makes it possible to prepare millions or even trillions of compounds as mixtures that can be used in drug research. According to traditional methods, most organic compounds are synthesized one by one from building blocks coupling them together one after the other in a stepwise manner. Before 1982 nobody was even dreaming about making hundreds or thousands of compounds in a single process. Not speaking about millions or even trillions. So the productivity of the split and pool method invented by Prof. Á. Furka (Eötvös Loránd University Budapest Hungary), in 1982 seemed incredible at first sight. The method had been described it in a document notarized in the same year. The document is written in Hungarian and translated to English Motivations that led to the invention are found in a 2002 paper and the method was first published in international congresses in 1988 then in print in 1991. The split and pool synthesis (S&P synthesis) differs from traditional synthetic methods. The important novelty is the use of compound mixtures in the process. This is the reason of its unprecedentedly high productivity. Using the method one single chemist can make more compounds in a week than all chemists produced in the whole history of chemistry. The S&P synthesis is applied in a stepwise manner by repeating three operations in each step of the process: Dividing a compound mixture into equal portions Coupling one different building block (BB) to each portion Pooling and thoroughly mixing the portions The original method is based on the solid-phase synthesis of Merrifield The procedure is illustrated in the figure by the flowing diagram showing of a two-cycle synthesis using the same three BBs in both cycles. Choosing the solid phase method in the S&P synthesis is reasonable since otherwise removal of the by-products from the mixture of compounds would be very difficult.