| Abstract: | This article provides an overview of biopolymers, classed according to their chemical structures, function and occurrence, the principles of biosynthesis and metabolism in organisms. It will then focus on polyhydroxyalkanoates (PHA) for which technical applications in several areas are currently considered. PHAs represent a complex class of bacterial polyesters consisting of various hydroxyalkanoic acids that are synthesized by bacteria as storage compounds for energy and carbon if a carbon source is present in excess. Poly(3‐hydroxybutyrate), poly(3HB), is just one example. Most other PHAs are only synthesized if pathways exist which mediate between central intermediates of the metabolism or special precursor substrates on one side and coenzyme A thioesters of hydroxyalkanoic acids, which are the substrates of the PHA synthase catalyzing the polymerization, on the other side. During the last decade, basic and applied research have revealed much knowledge about the biochemical and molecular basis of the enzymatic processes for the synthesis of PHAs in microorganisms. The combination of detailed physiological studies, utilization of the overwhelming information provided by the numerous genome sequencing projects, application of recombinant DNA technology, engineering of metabolic pathways or enzymes and molecular breeding techniques applied to plants have provided new perspectives to produce these technically interesting biopolymers by novel or significantly improved biotechnological processes or by agriculture. Some examples for successful in vivo and in vitro engineering of pathways suitable for the synthesis and biotechnological production of PHAs consisting of medium‐chain‐length 3‐hydroxyalkanoic acids and short‐chain‐length hydroxyalkanoic acids will be provided. |
