Poly(beta-hydroxyalkanoates) (PHAs) are biodegradable polyesters produced by a wide range of bacteria. The structures of these polymers may be tuned by controlling the carbon source composition in the feed stock, but the range of functional groups accessible in this manner is limited to those that the organism is able to metabolize. Much effort has been made to chemically modify the side chains of these polymers to achieve new materials. Here, we report the synthesis of the first cationic PHA, poly(beta-hydroxy-octanoate)- co-(beta-hydroxy-11-(bis(2-hydroxyethyl)-amino)-10-hydroxyundecanoate) (PHON). Pseudomonas putida Gpo1 was used to produce poly(beta-hydroxy-octanoate)- co-(beta-hydroxy-10-undecenoate) (PHOU), whose vinyl-terminated side chains were first converted to terminal epoxides and then modified with diethanolamine. The modification of PHOU was examined using (1)H, COSY, and HSQC NMR and GPC and resulted in a loss of molecular weight due to aminolysis and also in the introduction of side chains terminated with tertiary amine groups, which are protonated at physiological pH. The polycationic PHA is soluble in polar solvents such as DMSO, DMF, and water. The new biodegradable cationic polymers are envisioned as nucleic acid delivery systems.