Biosynthesis and Characterization of Diblock Copolymer of P(3-Hydroxypropionate)-block-P(4-hydroxybutyrate) from Recombinant Escherichia coli

Poly(4-hydroxybutyrate) (P4HB) is a highly elastic polymer, whereas poly(3-hydroxypropionate) (P3HP) is a polymer with enormous tensile strength. This study aimed to biosynthesize a block copolymer consisting of soft P4HB block with a strong P3HP block to gain unique and excellent material properties. A recombinant Escherichia coli strain that produces homopolymers of P3HP and P4HB was employed for the block copolymer synthesis. When the strain was grown in the presence of 1,4-butanediol (BDO) as a 4HB precursor, P4HB block was formed. Sequential supplementation of 1,3-propanediol (PDO) as a 3HP precursor allowed the strain mechanical characterizations confirmed the resulting polymer as a block copolymer of p3HP-b-P4HB. Two block copolymers were formed from this study, including the P3HP-b-29% P4HB and P3Hp-b-37% P4HB, they showed superior properties over random copolymers P(3HP-co-4HB). The block copolymers had two glass transition temperatures (T-g) and two melting temperatures (T-m). In comparison to the homopolymers P3HP and P4HB, incorporation of block microstructure resulted in the lowering of T-m, block copolymers were revealed with higher Young's modulus, yield strengths, and tension strengths much better than the previously reported random copolymers of similar compositions. Block copolymerization of P3HP and P4HB ads a new vision on PHA polymerization by generation of new polymers with superior properties.