Structural Biochemistry/Natural Products
Overview
[edit | edit source]Natural products are chemical compounds or substances produced by a living organism that are found in nature and usually has a pharmacological or biological activity for use in pharmaceutical drug discovery and drug design. A natural product can be considered even if it can be prepared by total synthesis. The natural products provide the source or inspiration for the majority of FDA-approved agents and continue to be one of the major sources of inspiration for drug discovery. In particular, these compounds are important in the treatment of life-threatening conditions.
Sources
[edit | edit source]Natural products may be extracted from tissues of terrestrial plants, marine organisms or microorganism fermentation broths. A raw (untreated) extract from any one of these sources typically contains new and structurally diverse chemical compounds which the natural environment is a rich source of. Chemical diversity in nature is based on biological and geographical diversity, so researchers travel around the world obtaining samples to analyze and evaluate in drug discovery screens or bioassays. This effort to search for natural products is known as bioprospecting.
Problems with total synthesis
[edit | edit source]Not all natural products can be fully synthesized and many natural products have extremely complex structures that are way too difficult and expensive to synthesize on an industrial scale. These include drugs such as penicillin, morphine, and paclitaxel (Taxol). Such compounds can only be harvested from their natural source - a process which can be tedious, time consuming, and expensive, as well as being wasteful on the natural resource. For example, one yew tree would have to be cut down to extract enough paclitaxel from its bark for a single dose. Furthermore, the number of structural analogues that can be obtained from harvesting is severely limited.