There are more than 970 million chemicals suitable for study as new drugs, according to a new study. Credit: Wikimedia Commons

Like astronomers counting stars in the familiar universe of outer space, chemists in Switzerland are reporting the latest results of a survey of chemical space -- the so-called chemical universe where tomorrow鈥檚 miracle drugs may reside. The scientists conclude, based on this phase of the ongoing count, that there are 970 million chemicals suitable for study as new drugs.

Scheduled for the July 1 issue of the , the study represents the largest publicly available database of virtual molecules ever reported, the researchers say.

Jean-Louis Reymond and Lorenz Blum point out that the rules of chemical bonding allow simple elements such as carbon, hydrogen, oxygen, nitrogen and fluorine to potentially form millions of different molecules. This so-called 鈥渃hemical universe鈥 or 鈥渃hemical space鈥 has an enormous potential for discovery, particularly for identifying so-called 鈥渟mall molecules鈥 -- made of 10 to 50 atoms. Most of today鈥檚 medicines consist of these small molecules. Until now, however, scientists had not attempted a comprehensive analysis of the molecules that populate chemical space.

In the report, Reymond and Blum describe development of a new searchable database, GDB-13, that scientists can use in the quest for new drugs. It consists of all molecules containing up to 13 atoms of carbon, nitrogen, oxygen, sulfur, and chlorine under rules that define chemical stability and synthetic feasibility. The researchers identified more than 970 million possible structures, the vast majority of which have never been produced in the lab. Some of these molecules could lead to the design and production of new drugs for fighting disease, they say.

More information: Journal of the American Chemical Society, Journal Article: 鈥970 Million Druglike Small for Virtual Screening in the Chemical Universe Database GDB-13鈥

Source: American Chemical Society ( : )