Polyhydroxyalkanoate (PHA) Biopolymer Synthesis by Marine Bacteria of the Malaysian Coral Triangle Region and Mining for PHA Synthase Genes

Abstract: Polyhydroxyalkanoate (PHA), a biodegradable and plastic-like biopolymer, has been receiving research and industrial attention due to severe plastic pollution, resource depletion, and global waste issues. This has spurred the isolation and characterisation of novel PHA-producing strains through cultivation and non-cultivation approaches, with a particular interest in genes encoding PHA synthesis pathways. Since sea sponges and sediment are marine benthic habitats known to be rich in microbial diversity, sponge … Show more

“…They are suited to a variety of applications, including food packaging materials, medical devices, cosmetics, agricultural films, and biofuels [1][2][3][4][5]. Microorganisms typically synthesize PHAs as carbonaceous storage polymers when the concentrations of essential nutrients, such as oxygen (O2), and/or nitrogen (N), and/or phosphorus (P) are depleted [3,[6][7][8]. These biopolymers are classified as either short chain length (SCL), medium chain length (MCL), or long chain length (LCL) according to their hydroxyalkanoic monomeric composition [7].…”

“…Microorganisms typically synthesize PHAs as carbonaceous storage polymers when the concentrations of essential nutrients, such as oxygen (O2), and/or nitrogen (N), and/or phosphorus (P) are depleted [3,[6][7][8]. These biopolymers are classified as either short chain length (SCL), medium chain length (MCL), or long chain length (LCL) according to their hydroxyalkanoic monomeric composition [7]. The SCL, MCL, and LCL PHAs consist of three to five carbon (C) atoms, six to fourteen C atoms, and over fifteen C atoms, respectively [2,6,7].…”

“…These biopolymers are classified as either short chain length (SCL), medium chain length (MCL), or long chain length (LCL) according to their hydroxyalkanoic monomeric composition [7]. The SCL, MCL, and LCL PHAs consist of three to five carbon (C) atoms, six to fourteen C atoms, and over fifteen C atoms, respectively [2,6,7]. Polymers containing the SCL monomer, polyhydroxybutyrate (PHB), are ubiquitous in nature.…”

“…Polymers containing the SCL monomer, polyhydroxybutyrate (PHB), are ubiquitous in nature. The homopolymeric form of PHB is brittle, with a low impact strength, but the structural integrity can be improved by polymerization with other SCL or MCL monomers to form heteropolymers, such as poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) or 3HB and (R)-3-hydroxy-hexanoate (3HHx), P(3HB-co-3HHx) [1,3,7].…”

Polyhydroxyalkanoate Production by Actinobacterial Isolates in Lignocellulosic Hydrolysate

“…They are suited to a variety of applications, including food packaging materials, medical devices, cosmetics, agricultural films, and biofuels [1][2][3][4][5]. Microorganisms typically synthesize PHAs as carbonaceous storage polymers when the concentrations of essential nutrients, such as oxygen (O2), and/or nitrogen (N), and/or phosphorus (P) are depleted [3,[6][7][8]. These biopolymers are classified as either short chain length (SCL), medium chain length (MCL), or long chain length (LCL) according to their hydroxyalkanoic monomeric composition [7].…”

“…Microorganisms typically synthesize PHAs as carbonaceous storage polymers when the concentrations of essential nutrients, such as oxygen (O2), and/or nitrogen (N), and/or phosphorus (P) are depleted [3,[6][7][8]. These biopolymers are classified as either short chain length (SCL), medium chain length (MCL), or long chain length (LCL) according to their hydroxyalkanoic monomeric composition [7]. The SCL, MCL, and LCL PHAs consist of three to five carbon (C) atoms, six to fourteen C atoms, and over fifteen C atoms, respectively [2,6,7].…”

“…These biopolymers are classified as either short chain length (SCL), medium chain length (MCL), or long chain length (LCL) according to their hydroxyalkanoic monomeric composition [7]. The SCL, MCL, and LCL PHAs consist of three to five carbon (C) atoms, six to fourteen C atoms, and over fifteen C atoms, respectively [2,6,7]. Polymers containing the SCL monomer, polyhydroxybutyrate (PHB), are ubiquitous in nature.…”

“…Polymers containing the SCL monomer, polyhydroxybutyrate (PHB), are ubiquitous in nature. The homopolymeric form of PHB is brittle, with a low impact strength, but the structural integrity can be improved by polymerization with other SCL or MCL monomers to form heteropolymers, such as poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) or 3HB and (R)-3-hydroxy-hexanoate (3HHx), P(3HB-co-3HHx) [1,3,7].…”

Polyhydroxyalkanoate Production by Actinobacterial Isolates in Lignocellulosic Hydrolysate

Harnessing economical biopolymer extrusion: the Bacillus clade as endotoxin-free platforms for next-generation bioprocesses

Green technologies for recovery of polyhydroxyalkanoates: Opportunities and perspectives